Manufacturers Index - Delta Specialty/Delta Mfg. Co./Delta-Rockwell/Rockwell Intl.
Delta Specialty/Delta Mfg. Co./Delta-Rockwell/Rockwell Intl.
Milwaukee, WI; Jackson, TN; Tupelo, MS, U.S.A.
Company Website: http://www.deltamachinery.com/
Manufacturer Class:
Wood Working Machinery & Metal Working Machinery
This page contains information on patents issued to this manufacturer.
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USPTO's for finding information on machinery patents.
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565,090
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Aug. 04, 1896
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Cut-off and pointing machine
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Ernst Gebel |
Milwaukee, WI |
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Cut-off and pointing machine
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Charles F. Gerlach |
Milwaukee, WI |
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Cut-off and pointing machine
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Henry H. Rockwell |
Milwaukee, WI |
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1,465,651
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Aug. 21, 1923
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Scroll saw
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Carl A. Moberg |
Chicago, IL |
Patent seen on an American Boy Scroll Saw from Delta Specialty Co. This was the very first product made by Delta. We have also seen this saw, with patent date, in a 1927 catalog from woodworking machinery maker Heston & Anderson. It seems most likely that H&A was a reseller for a machine made by Delta or perhaps by Northam Bros. |
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1,531,357
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Mar. 31, 1925
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Micrometer caliper
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Herbert E. Tautz |
Milwaukee, WI |
The inventor Tautz, who went on to found Delta Mfg. Co., is described as a citizen of Germany.
The caliper is intended for measuring paper stock to within 0.001 inch. |
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1,697,669
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Jan. 01, 1929
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Trunnion construction
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Herbert E. Tautz |
Milwaukee, WI |
Seen on Delta 8-inch tablesaw; the date was cast into the throat plate. |
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1,749,114
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Mar. 04, 1930
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Toy sewing machine
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Herbert Erich Tautz |
Milwaukee, WI |
This was marketed as the "American Girl" sewing machine, a companion piece to the "American Boy" scrollsaw. Those two toys were the first products of what became the Delta Mfg. Co. According to correspondent Thomas H. Fehring, "Delta eventually sold the right to manufacture the device to the National Sewing Machine Company in Belvedere Illinois. National continued making the American Girl toy sewing machine into the 1950s, coming out in additional colors and with other versions of the machine called 'Eldredgette' and 'Stitchwell.'" |
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1,790,288
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Jan. 27, 1931
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Fence for jointers
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Herbert E. Tautz |
Milwaukee, WI |
Seen on a Delta 4-inch jointer. |
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1,802,096
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Apr. 21, 1931
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Planer attachment for jointers
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Herbert E. Tautz |
Milwaukee, WI |
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314,585
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Aug. 25, 1931
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Fence for jointers
|
Herbert E. Tautz |
Milwaukee, WI |
This is the Canadian equivalent of US patent 1,790,288. |
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1,830,813
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Nov. 10, 1931
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Cutter head
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Herbert E. Tautz |
Milwaukee, WI |
This patent covers the Delta number 249 moulding head cutter head listed in the 1931-32 catalog, which was replaced by the number 265 cutter head listed in the 1939 catalog. |
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D85,847
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Dec. 22, 1931
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Design for a scroll saw
|
Herbert E. Tautz |
Milwaukee, WI |
This is a seven-year design patent. The patent number was seen on a Delta scrollsaw in a 1936 catalog. |
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1,839,647
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Jan. 05, 1932
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Jig saw
|
Ralph B. Combs |
Wichita, KS |
The reissue of this patent was assigned, by mesne assignments, to Delta Mfg. Co. This patent number is listed on page 15 of the 1935 Delta catalog, and has also been seen on the label of a Model 1200 "De-Luxe" 24-inch scrollsaw made by Delta Mfg. Co.
Note: A mesne assignment is one where there was an intermediate step. The inventor assigned the patent to Alice, who in turn assigned it to Bob. The patent would say that it was assigned, by mesne assignments, to Bob. |
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1,877,705
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Sep. 13, 1932
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Scroll saw
|
Herbert E. Tautz |
Milwaukee, WI |
This patent was used on the Delta No. 1440 scroll saw. |
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1,894,010
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Jan. 10, 1933
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Work-holding means for gauges
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Herbert E. Tautz |
Milwaukee, WI |
This patent number is listed in the 1938 Delta catalog as being used on the No. 860 8-inch benchtop table saw. |
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1,896,924
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Feb. 07, 1933
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Table for saws or the like
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Charles A. Ulrich |
Hartford, CT |
Listed in the 1938 Delta catalog for the No. 860 8-inch table saw. |
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1,902,270
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Mar. 21, 1933
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Miter gauge
|
James Tate |
Milwaukee, WI |
Miter gauges with this patent are also marked with Design patent 89,818 and Canadian patent 340,750. Some examples have 1,894,010 as well. |
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1,906,190
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Apr. 25, 1933
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Surfacing tool
|
Herbert E. Tautz |
Milwaukee, WI |
The 1938 Delta catalog features these "Patented Rubber-Cushion Sanding Drums", which are claimed to expand in diameter evenly across their length as opposed to other drum which inflate more at the middle than near the ends. These drums and their sandpaper sleeves were catalog Nos. 830-842 and 847, with different models having various diameters and lengths. The sleeves were available in garnet and aluminum oxide, and in coarse, medium or fine grits. |
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D89,818
|
May. 09, 1933
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Design for a gauge
|
Herbert E. Tautz |
Milwaukee, WI |
This is a 14-year design patent. See also patent 1,902,270.
This Delta design patent number was seen on a Boice-Crane miter gauge, along with patent numbers 1,894,010 and 1,902,270. |
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1,910,651
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May. 23, 1933
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Trunnion table mounting
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Herbert E. Tautz |
Milwaukee, WI |
Trunnion for tilting-table saw; this patent number is listed in the 1938 Delta catalog as being used on the No. 860 8-inch benchtop table saw. |
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1,922,151
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Aug. 15, 1933
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Adjusting device for saw arbors
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John E. Boice |
Toledo, OH |
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Adjusting device for saw arbors
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William B. Boice |
Toledo, OH |
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1,925,477
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Sep. 05, 1933
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Angle gauge
|
John E. Boice |
Toledo, OH |
In 1921 the Boice brothers co-founded W. B. & J. E. Boice, which merged with H. G. Crane in 1926 to form Boice-Crane Co. Apparently this particular patent was licensed or purchased by Delta. |
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Angle gauge
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William B. Boice |
Toledo, OH |
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1,930,022
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Oct. 10, 1933
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Chuck
|
Herbert E. Tautz |
Milwaukee, WI |
This patent is listed in the 1938 Delta catalog on the page for the No. 645 11-inch drill press. |
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1,938,548
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Dec. 05, 1933
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Machine table extension
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Herbert E. Tautz |
Milwaukee, WI |
This patent number is listed in the 1938 Delta catalog, on the page for the No. 860 benchtop table saw. |
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1,938,549
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Dec. 05, 1933
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Machine table
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Herbert E. Tautz |
Milwaukee, WI |
This patent number is listed in the 1938 Delta catalog, on the page for the No. 860 benchtop table saw. |
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1,947,885
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Feb. 20, 1934
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Work guide
|
Herbert E. Tautz |
Milwaukee, WI |
This design for a shaper fence is seen on the Delta 1180 Reversible Shaper, introduced in 1936. |
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340,750
|
Apr. 10, 1934
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Miter gauge
|
James Tate |
Milwaukee, WI |
Miter gauges with this patent are also marked with US Design patent 89,818, and US patent 1,902,270. Some examples have 1,894,010 as well. |
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340,751
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Apr. 10, 1934
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Scroll saw
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Herbert E. Tautz |
Milwaukee, WI |
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340,752
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Apr. 10, 1934
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Work-holding means for gauges
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Herbert E. Tautz |
Milwaukee, WI |
This is the Canadian equivalent of US patent 1,894,010. |
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1,956,912
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May. 01, 1934
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Scroll saw and band saw
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Herbert E. Tautz |
Milwaukee, WI |
An add-on to the machine of patent 1,877,705, to cut circles. |
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Scroll saw and band saw
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James Tate |
Milwaukee, WI |
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1,956,835
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May. 01, 1934
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Sawing machine
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Ralph R. Roemer |
Cleveland, OH |
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1,959,199
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May. 15, 1934
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Scroll saw
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Grosvenor M. Cross |
Brookline, MA |
This patent number was listed in the 1938 Delta catalog on the page for the No. 1440 scroll saw. |
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1,963,688
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Jun. 19, 1934
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Hollow fence bar and process of making the same
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Herbert E. Tautz |
Milwaukee, WI |
This patent number is listed in the 1938 Delta catalog, on the page for the No. 860 benchtop table saw. |
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1,964,651
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Jun. 26, 1934
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Scroll saw
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Herbert E. Tautz |
Milwaukee, WI |
Listed in the 1938 Delta catalog on the page for the No. 1440 scroll saw. |
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1,964,652
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Jun. 26, 1934
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Scroll saw
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Herbert E. Tautz |
Milwaukee, WI |
Listed in the 1938 Delta catalog on the page for the No. 1440 scroll saw. |
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1,965,728
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Jul. 10, 1934
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Lathe
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Herbert E. Tautz |
Milwaukee, WI |
"The invention relates to lathes and to duplicating devices for use on lathes. An object of the invention is to provide for use on a wood-turning lathe an adjustable de-mountable duplicating device of a simple and durable construction by means of which turned pieces can be rapidly and accurately reproduced, the device preventing chattering and permitting unobstructed use of an open-front steady rest through which a tool on the device may be passed." |
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1,967,791
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Jul. 24, 1934
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Jointer fence
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Herbert E. Tautz |
Milwaukee, WI |
Seen on a Delta No. 654 6-inch jointer. |
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1,969,827
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Aug. 14, 1934
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Scroll saw chuck
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Herbert E. Tautz |
Milwaukee, WI |
Improved chuck for the scrollsaw of patent 1,964,651. |
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1,975,562
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Oct. 02, 1934
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Jointer fence
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Herbert E. Tautz |
Milwaukee, WI |
Seen on a Delta No. 654 6-inch jointer. |
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346,174
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Nov. 20, 1934
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Machine table extension
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Herbert E. Tautz |
Milwaukee, WI |
This is the Canadian equivalent of US patent 1,938,548. |
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346,175
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Nov. 20, 1934
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Machine table
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Herbert E. Tautz |
Milwaukee, WI |
This is the Canadian equivalent of US patent 1,938,549. |
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1,984,500
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Dec. 18, 1934
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Scroll saw
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Herbert E. Tautz |
Milwaukee, WI |
This patent number was listed in the 1938 Delta catalog on the page for the No. 1440 scroll saw. |
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1,991,051
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Feb. 12, 1935
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Duplicating tool
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Sherman L. Cook |
Salem, MA |
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1,992,726
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Feb. 26, 1935
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Hollow mortising chisel
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Herbert E. Tautz |
Milwaukee, WI |
This patent number is listed in the 1938 Delta catalog, for the "Special Hollow Chisels". These chisels are recommended for occasional use, not recommended for production work. |
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D94,788
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Mar. 05, 1935
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Design for a scroll saw frame
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Herbert E. Tautz |
Milwaukee, WI |
This patent number is listed in the 1938 Delta catalog on the pages for the No. 1440 scroll saw and the No. 1200 scroll saw. |
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RE19,501
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Mar. 19, 1935
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Scroll saw
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Ralph B. Combs |
Ponca City, OK |
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2,004,678
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Jun. 11, 1935
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Scroll saw chuck
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Herbert E. Tautz |
Milwaukee, WI |
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2,007,887
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Jul. 09, 1935
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Saw guard
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Herbert E. Tautz |
Milwaukee, WI |
Saw guard, part no. "T.C.S. 241" for the Delta tilting-table saw, which was the predecessor to the Unisaw. |
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2,009,304
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Jul. 23, 1935
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Combination guard and support for jointer fences
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Herbert E. Tautz |
Milwaukee, WI |
"This invention relates to a combination guard and support for a jointer fence. More specifically it relates to a device for guarding that portion of the jointer cutter which is not being used for a given setting of the jointer fence, namely, ordinarily the portion to the right of the fence. Another object is to provide means to support the jointer fence at a point remote from the front end thereof, whereby the yielding or play of the jointer fence may be minimized, said support, nevertheless, permitting the fence to be tilted freely to any desired angle with the jointer tables. A further object is to provide such combined guard and fence support, which need not be removed from the machine regardless of the position of adjustment of the fence, so that no portion of the cutter knives will ordinarily be exposed, the new guard cooperating with the ordinary guard, which protect the left hand or active portion of the knives, to secure full protection of all parts of the cutters." |
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353,074
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Sep. 17, 1935
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Scroll saw chuck
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Herbert E. Tautz |
Milwaukee, WI |
This is the Canadian equivalent of US patent 1,969,827. |
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2,015,734
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Oct. 01, 1935
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Sectional jointer fence
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Herbert E. Tautz |
Milwaukee, WI |
"The invention relates to jointers and more particularly to jointer fences. An object of the invention is to provide a jointer fence which is so constructed that the lower edge thereof can be kept close to the front and rear tables of a jointer regardless of the relative adjustment of the tables for regulating the depth of cut. Another object of the invention is to provide a jointer fence of this character capable of being mounted on the adjustable front table of the jointer." |
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2,016,843
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Oct. 08, 1935
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Ball bearing center
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Herbert E. Tautz |
Milwaukee, WI |
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2,020,222
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Nov. 05, 1935
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Machine table insert
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Herbert E. Tautz |
Milwaukee, WI |
This patent number is listed in the 1938 Delta catalog, on the page for the No. 860 benchtop table saw. |
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2,020,219
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Nov. 05, 1935
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Sanding drum
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Joseph B. Sirianni |
Dickson City, PA |
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354,273
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Nov. 19, 1935
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Work guide
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Herbert E. Tautz |
Milwaukee, WI |
This is the Canadian equivalent of US patent 1,947,885. |
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354,274
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Nov. 19, 1935
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Jointer fence
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Herbert E. Tautz |
Milwaukee, WI |
This is the Canadian equivalent of US patent 1,967,791. |
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2,025,834
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Dec. 31, 1935
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Drill press
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Herbert E. Tautz |
Milwaukee, WI |
This patent is listed in the 1938 Delta catalog on the page for the No. 645 11-inch drill press. |
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D98,280
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Jan. 21, 1936
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Design for a safety shield for tool grinders or similar article
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Herbert E. Tautz |
Milwaukee, WI |
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2,032,233
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Feb. 25, 1936
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Band saw guide
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Herbert E. Tautz |
Milwaukee, WI |
Seen on the Crescent/Delta 20-inch Band Saw. Since Herb Tautz is the patentee, it is clear that this machine is actually a Delta creation, not a Crescent creation. The patent number has also been seen on a Delta No. 768 10" band saw, along with patent 2,040,718; those patent numbers have also been seen on a No. 890 14" band saw. |
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2,037,286
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Apr. 14, 1936
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Jointer fence adjustment
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Herbert E. Tautz |
Milwaukee, WI |
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2,038,810
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Apr. 28, 1936
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Circular-saw machine
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Herbert E. Tautz |
Milwaukee, WI |
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D99,614
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May. 12, 1936
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Design for a saw gauge
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Herbert E. Tautz |
Milwaukee, WI |
Patent number seen on a Delta "Micro-Set Rip Fence" on a Delta 12-14 inch tablesaw, Model 34-395. |
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2,040,718
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May. 12, 1936
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Trunnion
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Herbert E. Tautz |
Milwaukee, WI |
Seen on the Crescent/Delta 20-inch Band Saw. Since Herb Tautz is the patentee, it is clear that this machine is actually a Delta creation, not a Crescent creation. The patent number has also been seen on a Delta No. 768 10" bandsaw along with patent 2,032,233; those patent numbers have also been seen on a No. 890 14" band saw. |
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2,041,578
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May. 19, 1936
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Drill press head
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Herbert E. Tautz |
Milwaukee, WI |
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2,045,422
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Jun. 23, 1936
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Shaper
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Herbert E. Tautz |
Milwaukee, WI |
This patent number is listed in the 1938 Delta catalog on the page for the No. 1180 benchtop shaper. |
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2,049,044
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Jul. 28, 1936
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Woodworking machine
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John E. Boice |
Toledo, OH |
Jointer fence locking mechanism. |
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2,049,045
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Jul. 28, 1936
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Woodworking machine
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John E. Boice |
Toledo, OH |
Jointer fence, in particular a means for supporting the "free" end of the fence. |
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2,055,916
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Sep. 29, 1936
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Chuck
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Herbert E. Tautz |
Milwaukee, WI |
"The invention relates to chucks of the type for holding drills and other tools. An object of the invention is to provide a chuck which is of simple but durable construction, and which is easily assembled and operated." |
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D102,402
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Dec. 15, 1936
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Design for a clamp handle
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Herbert E. Tautz |
Milwaukee, WI |
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2,067,652
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Jan. 12, 1937
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Woodworking machine
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Herbert E. Tautz |
Milwaukee, WI |
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2,068,964
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Jan. 26, 1937
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Saw mounting
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Herbert E. Tautz |
Milwaukee, WI |
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2,069,395
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Feb. 02, 1937
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Safety shield
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Herbert E. Tautz |
Milwaukee, WI |
This is the patent for the Delta Twin-Lite grinder shield. "The invention relates to safety shields for grinding wheels and the like, and has for an object to provide a safety shield which will effectively guard a user of a grinding wheel from flying particles and afford shadowless illumination of the wheel and work viewed through the shield." This is done by using a pair of lamps, one on either side of the grinding wheel.
This patent was the subject of at least two lawsuits: one launched by Delta against Essley Machinery Co., and the other launched by The Stanley Works against Delta's successor, Rockwell Mfg. Co. The first lawsuit was decided in favor of Delta. The second lawsuit concerned this patent's Claim 6: "A safety shield comprising a housing having a top wall and a skirt, said top wall having an opening, a transparent panel for said opening, a transparent panel for said opening for viewing work therethrough, and means carried by said housing for directing light onto the work from regions adjacent the opposite sides of said panel and within said skirt". This claim was disallowed as being an obvious extension of the prior art, especially patent 1,633,412. |
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2,072,646
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Mar. 02, 1937
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Drill press spindle drive and mounting
|
William Ferdinand Ocenasek |
Plainfield, NJ |
This patent number has been seen on both Walker-Turner and Rockwell drill presses. |
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2,073,430
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Mar. 09, 1937
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Scroll saw
|
Herbert E. Tautz |
Milwaukee, WI |
An improvement to patent 1,877,705, patent 1,964,651, and patent 1,964,652. |
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365,682
|
Apr. 27, 1937
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Band saw guide
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Herbert E. Tautz |
Milwaukee, WI |
This is the Canadian equivalent of US patent 2,032,233. |
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2,085,131
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Jun. 29, 1937
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Jointer fence
|
Herbert E. Tautz |
Milwaukee, WI |
This end-locking mechanism for a jointer fence was used by Delta on their 6-inch jointer, and was apparently also used by Walker-Turner, because the patent number is listed in a Walker-Turner jointer manual. |
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2,085,235
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Jun. 29, 1937
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Workholder for shapers
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Herbert E. Tautz |
Milwaukee, WI |
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2,085,236
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Jun. 29, 1937
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Workholder for saws
|
Herbert E. Tautz |
Milwaukee, WI |
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D105,429
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Jul. 27, 1937
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Design for a drill press pulley guard
|
Jean O. Reinecke |
Chicago, IL |
This patent is listed in the 1938 Delta catalog on the page for the No. 645 11-inch drill press. |
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|
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Design for a drill press pulley guard
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James F. Barnes |
Chicago, IL |
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D105,621
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Aug. 10, 1937
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Design for a shaper table
|
Herbert E. Tautz |
Milwaukee, WI |
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2,099,321
|
Nov. 16, 1937
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Scroll saw
|
Herbert E. Tautz |
Milwaukee, WI |
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370,828
|
Dec. 28, 1937
|
Tool guide extension
|
Herbert E. Tautz |
Milwaukee, WI |
Nearly all of Delta's Canadian patents are very close matches to their equivalent US patent. This patent is an exception in that it does not seem to have a US equivalent. It improves the bandsaw of patent 2,032,233, and specifically the controls for adjusting the lower bandsaw guides, whereby those controls are brought forward so they can be more easily reached and with much less risk of contacting the blade or other moving parts. |
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D107,805
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Jan. 04, 1938
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Design for a belt sander
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Herbert E. Tautz |
Milwaukee, WI |
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2,106,288
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Jan. 25, 1938
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Circular saw apparatus
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Herbert E. Tautz |
Milwaukee, WI |
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2,108,086
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Feb. 15, 1938
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Extension control means for tool guides
|
Herbert E. Tautz |
Milwaukee, WI |
This patent is for the adjustment mechanism for the bandsaw in patent 2,032,233. |
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2,110,537
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Mar. 08, 1938
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Drill press adjustment
|
Herbert E. Tautz |
Milwaukee, WI |
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D109,628
|
May. 10, 1938
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Design for a drill press guard
|
James Tate |
Milwaukee, WI |
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2,122,966
|
Jul. 05, 1938
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Drill press table operating means
|
Herbert E. Tautz |
Milwaukee, WI |
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376,358
|
Sep. 06, 1938
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Convertible sawing and abrading machine
|
Leighton A. Wilkie |
Minneapolis, MN |
A machine that "may be readily converted into a band saw, a filing or abrading device, or a polishing machine as occasion may require..." This patent is the Canadian equivalent of US patent 2,180,079. |
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2,133,593
|
Oct. 18, 1938
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Variable speed drive
|
Herbert E. Tautz |
Milwaukee, WI |
Mechanism for providing a vee-belt-based variable-speed mechanism. |
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2,166,703
|
Jul. 18, 1939
|
Woodworking machine
|
John E. Boice |
Toledo, OH |
Tablesaw rip fence with extensible rail. |
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2,168,282
|
Aug. 01, 1939
|
Circular saw
|
Herbert E. Tautz |
Milwaukee, WI |
This patent is quite interesting because it shows what is believed to be a proto-Unisaw. This patent covers a tilting-arbor mechanism that is somewhat similar to the mechanism ultimately used in the Unisaw. The actual Unisaw mechanicals were covered in patents 2,265,407 and 2,265,408.
"It has been usual in circular saws of the tilting arbor type to place the saw arbor and driving motor therefor on the same tiltable support, which has subjected the support and its pivotal mounting to a relatively heavy load. In other cases, the saw has been belt-driven from a counter-shaft or non-tilting motor, necessitating twisting of the driving belt when the arbor is tilted. An object of the invention is to provide a circular saw of the like in which the cutter arbor and a driving motor therefor are carried on separate tiltable supports, so as to relieve the arbor mounting of excessive weight and torsional stresses, both supports being tiltable together to maintain the same relative position of arbor and motor." Other objectives were to mount the motor at the rear of the saw, to keep belt tension constant, and provide a trunnion which is of "strong but inexpensive construction." |
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D117,460
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Nov. 07, 1939
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Design for a casing for a woodworking machine
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Herbert E. Tautz |
Milwaukee, WI |
This is the four-footed cabinet that was used on the Unisaw and the HD shaper. |
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D117,461
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Nov. 07, 1939
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Design for a combination top, gauge, and guide bars for woodworking machines
|
Herbert E. Tautz |
Milwaukee, WI |
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2,180,078
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Nov. 14, 1939
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Compound abrading and brazing machine
|
Leighton A. Wilkie |
Glencoe, IL |
Device for brazing bandsaw blades. This patent number has been seen on machines from Delta and DoALL; we don't know whether each company manufactured their own version of this blade brazing accessory or if they were actually made by the assignee. |
|
2,180,079
|
Nov. 14, 1939
|
Convertible sawing and abrading machine
|
Leighton A. Wilkie |
Glencoe, IL |
Bandsaw that can be converted to a "filing or abrading device, or a polishing machine, as the occasion may require."
This patent number was listed in a Delta catalogue and was also seen on a DoALL bandsaw. |
|
2,193,946
|
Mar. 19, 1940
|
Extension control means for tool guides
|
Herbert E. Tautz |
Milwaukee, WI |
This patent covers the lower saw guide mounting for the Delta 14" bandsaw and Crescent/Delta 20" bandsaw. This is an improvement on patent 2,108,086; the lower saw guide itself is covered by patent 2,032,233. |
|
2,202,878
|
Jun. 04, 1940
|
Drill press guard
|
Herbert E. Tautz |
Milwaukee, WI |
This patent covers the Delta drill press belt cover. |
|
2,209,484
|
Jul. 30, 1940
|
Variable speed mechanism
|
Herbert E. Tautz |
Milwaukee, WI |
This patent covers the Delta drill press variable-speed mechanism. |
|
2,210,135
|
Aug. 06, 1940
|
Shaper guard
|
Herbert E. Tautz |
Milwaukee, WI |
|
|
|
|
Shaper guard
|
Paul E. Butzin |
Milwaukee, WI |
|
|
2,211,050
|
Aug. 13, 1940
|
Woodworking machine
|
John E. Boice |
Toledo, OH |
"The invention is directed particularly to the problem of easy shifting of the belt drive so as to change the speed ratio between the driving and the driven pulley. To this end, it provides a motor that is swingingly mounted on the frame of the press in such a manner that gravity, i.e., the weight of the motor, keeps the belt taut, and which may be moved to a position to release the belt by simply grasping a lever and pulling toward the operator." |
|
2,232,149
|
Feb. 18, 1941
|
Belt sander
|
Herbert E. Tautz |
Milwaukee, WI |
|
|
2,237,511
|
Apr. 08, 1941
|
Variable speed transmission
|
Herbert E. Tautz |
Milwaukee, WI |
Variable-speed mechanism using expansible pulleys. The embodiment shown is for a lathe. |
|
2,240,426
|
Apr. 29, 1941
|
Switch box
|
Herbert E. Tautz |
Milwaukee, WI |
The switch box for the Unisaw. Hey, is that the optional goose-egg motor cover shown in the drawing?
This patent is notable because the Unisaw became the biggest-selling woodworking machine of all time. See also patents 2,168,282, 2,265,406, 2,265,407, and 2,265,408. |
|
2,256,607
|
Sep. 23, 1941
|
Woodworking machine
|
John E. Boice |
Toledo, OH |
|
|
2,265,335
|
Dec. 09, 1941
|
Rip gauge lock
|
Arthur J. Aumann |
Milwaukee, WI |
This patent covers a rip-fence locking mechanism that uses a single lever to lock the fence to both front and rear rails simultaneously.
This patent number has been seen on the "Micro-Set Rip Fence" on Delta's 12-14 inch tablesaw. |
|
2,265,406
|
Dec. 09, 1941
|
Machine cabinet
|
Herbert E. Tautz |
Milwaukee, WI |
This patent covers the Unisaw-style cabinet. The drawing shows the four-footed version.
This patent is notable because the Unisaw became the biggest-selling woodworking machine of all time. See also patents 2,168,282, 2,240,426, 2,265,407, and 2,265,408. |
|
2,265,407
|
Dec. 09, 1941
|
Tilting arbor saw
|
Herbert E. Tautz |
Milwaukee, WI |
This patent covers the Unisaw mechanicals.
This patent is notable because the Unisaw became the biggest-selling woodworking machine of all time. See also patents 2,168,282, 2,240,426, 2,265,406, and 2,265,408. |
|
2,265,408
|
Dec. 09, 1941
|
Tilting arbor saw mounting
|
Herbert E. Tautz |
Milwaukee, WI |
This patent covers the Unisaw mechanicals.
This patent is notable because the Unisaw became the biggest-selling woodworking machine of all time. See also patents 2,168,282, 2,240,426, 2,265,406, and 2,265,407. |
|
D131,216
|
Jan. 27, 1942
|
Design for a band saw
|
John E. Boice |
Toledo, OH |
|
|
|
|
Design for a band saw
|
William B. Boice |
Toledo, OH |
|
|
409,121
|
Dec. 08, 1942
|
Sawing apparatus
|
Leighton A. Wilkie |
Minneapolis, MN |
A machine that "may be readily converted into a band saw, a filing or abrading device, or a polishing machine as occasion may require..." This patent is the Canadian equivalent of US patent 2,180,079. |
|
2,325,082
|
Jul. 27, 1943
|
Rip gauge
|
Herbert E. Tautz |
Milwaukee, WI |
This tablesaw fence was used on Delta's small tablesaws that preceded the Unisaw. The fence locks on the front rail only.
The patent was assigned to Delta Mfg. Co., which is described as "a partnership consisting of Marshall Field, Charles G. Cushing, and H. Campbell Stuckeman." |
|
2,325,083
|
Jul. 27, 1943
|
Stand for motor driven tools and the like
|
Herbert E. Tautz |
Milwaukee, WI |
This stand was used on Delta's 6" jointer and 14" bandsaw. |
|
2,343,575
|
Mar. 07, 1944
|
Antifriction guideway for reciprocable tool supports
|
Harold F. Penney |
University Heights, OH |
Red Star Products used the "Multiplex" brand name for this saw. Red Star was purchased in 1948 by Rockwell. Rockwell's woodworking machinery division was eventually sold and became Delta Mfg. Co., which still makes this saw. |
|
2,343,243
|
Mar. 07, 1944
|
Power operated machine tool
|
Ralph R. Roemer |
Cleveland, OH |
Improvements to patent 1,956,835. |
|
2,346,198
|
Apr. 11, 1944
|
Drilling machine
|
Herbert E. Tautz |
Englewood, CO |
Counterbalance mechanism used on Delta's drill press. |
|
2,347,223
|
Apr. 25, 1944
|
Cutting machine
|
Herbert E. Tautz |
Englewood, CO |
|
|
2,347,764
|
May. 02, 1944
|
Band saw
|
John E. Boice |
Toledo, OH |
Telescoping bandsaw guard. |
|
|
|
Band saw
|
William B. Boice |
Toledo, OH |
|
|
2,352,235
|
Jun. 27, 1944
|
Saw guard
|
Herbert E. Tautz |
Milwaukee, WI |
This patent number was seen on a Delta 34-600 9-inch Delta tablesaw. The patent was assigned to Delta Mfg. Co., which is described as "a partnership consisting of Marshall Field, Charles G. Cushing, and H. Campbell Stuckeman." |
|
2,353,202
|
Jul. 11, 1944
|
Shaper
|
Herbert E. Tautz |
Englewood, CO |
|
|
2,356,610
|
Aug. 22, 1944
|
Power-operated mitering and beveling tool
|
Harold F. Penney |
University Heights, OH |
Red Star Products used the "Multiplex" brand name for this saw. Red Star was purchased in 1948 by Rockwell. Rockwell's woodworking machinery division was eventually sold and became Delta Mfg. Co., which still makes this saw. |
|
2,360,921
|
Oct. 24, 1944
|
Drill press
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
2,364,475
|
Dec. 05, 1944
|
Power operated machine tool
|
Ralph R. Roemer |
Cleveland, OH |
See also patent 1,956,835 and patent 2,343,243. |
|
2,372,699
|
Apr. 03, 1945
|
Cutting machine
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
|
|
Cutting machine
|
Hugo V. Boehnke |
Milwaukee, WI |
|
|
2,374,716
|
May. 01, 1945
|
Grinder
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
D141,152
|
May. 08, 1945
|
Design for a bench center
|
Clifford Brooks Stevens |
Milwaukee, WI |
|
|
427,831
|
May. 29, 1945
|
Drilling machine
|
Hugo V. Boehnke |
Milwaukee, WI |
Feed mechanism for drill press that is driven by the lower end of the motor shaft, where the upper end of that shaft powers the drill spindle. |
|
|
|
Drilling machine
|
Christy A. Wiken |
Milwaukee, WI |
|
|
120,058
|
Jun. 11, 1945
|
Drilling machine
|
Hugo V. Boehnke |
Milwaukee, WI |
This is the Australian equivalent of US patent 2,396,733, or at least the power-feed mechanism covered by that patent. |
|
|
|
Drilling machine
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
2,384,512
|
Sep. 11, 1945
|
Machine protective apparatus
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
|
|
Machine protective apparatus
|
Eric A. Reibig |
Milwaukee, WI |
|
|
2,386,283
|
Oct. 09, 1945
|
Machine tool
|
Christy Arthur Wiken |
Milwaukee, WI |
Machine is a metal-working surface grinder. |
|
|
|
Machine tool
|
Eric A. Reibig |
Milwaukee, WI |
|
|
574,335
|
Jan. 01, 1946
|
Grinder
|
Christy A. Wiken |
Milwaukee, WI |
This is the British equivalent of US patent 2,374,716. |
|
2,396,733
|
Mar. 19, 1946
|
Drilling machine
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
|
|
Drilling machine
|
Hugo V. Boehnke |
Milwaukee, WI |
|
|
2,397,178
|
Mar. 26, 1946
|
Machine-tool spindle mounting and lubrication system
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
|
|
Machine-tool spindle mounting and lubrication system
|
Eric A. Reibig |
Milwaukee, WI |
|
|
435,705
|
Jul. 09, 1946
|
Machine tool
|
Eric A. Reibig |
Milwaukee, WI |
This is the Canadian equivalent of US patent 2,386,283. |
|
|
|
Machine tool
|
Christy A. Wiken |
Milwaukee, WI |
|
|
583,087
|
Dec. 09, 1946
|
Drilling and like machines
|
Hugo V. Boehnke |
Milwaukee, WI |
This is the British equivalent of US patent 2,396,733 (but see also British patent 583,106). |
|
|
|
Drilling and like machines
|
Christy A. Wiken |
Milwaukee, WI |
|
|
583,106
|
Dec. 09, 1946
|
Drilling and like machines
|
Hugo V. Boehnke |
Milwaukee, WI |
This patent covers a power feed mechanism, and was split off the application that became patent 583,087. These two patents together are the British equivalents of US patent 2,396,733. |
|
|
|
Drilling and like machines
|
Christy A. Wiken |
Milwaukee, WI |
|
|
2,413,016
|
Dec. 24, 1946
|
Cutting machine
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
|
|
Cutting machine
|
Hugo V. Boehnke |
Milwaukee, WI |
|
|
123,057
|
Jan. 16, 1947
|
Machine tools
|
Eric Albert Reisig |
Milwaukee, WI |
This is the Australian equivalent, along with 125,599 and 125,600, of US patent 2,386,283. |
|
|
|
Machine tools
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
2,415,121
|
Feb. 04, 1947
|
Drill grinder
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
|
|
Drill grinder
|
Hugo V. Boehnke |
Milwaukee, WI |
|
|
2,428,049
|
Sep. 30, 1947
|
Drill press
|
James Tate |
Racine, WI |
|
|
125,599
|
Oct. 09, 1947
|
Improvements in or relating to machine tools
|
Eric Albert Reisig |
Milwaukee, WI |
This is the Australian equivalent, along with 123,057 and 125,600, of US patent 2,386,283. |
|
|
|
Improvements in or relating to machine tools
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
125,600
|
Oct. 09, 1947
|
Improvements in or relating to machine tools
|
Eric Albert Reisig |
Milwaukee, WI |
This is the Australian equivalent, along with 123,057 and 125,599, of US patent 2,386,283. |
|
|
|
Improvements in or relating to machine tools
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
2,429,250
|
Oct. 21, 1947
|
Grinding machine
|
Christy Arthur Wiken |
Milwaukee, WI |
Machine is a surface grinder. |
|
|
|
Grinding machine
|
Eric A. Reibig |
Milwaukee, WI |
|
|
2,430,448
|
Nov. 11, 1947
|
Dust collector
|
Raymond Breckheimer |
Milwaukee, WI |
|
|
2,431,605
|
Nov. 25, 1947
|
Endless band tool
|
William B. Boice |
Toledo, OH |
The patent is for a method of detachably connecting the ends of a flexible band. It is not clear what this was used for: bandsaw blades, perhaps. |
|
2,432,058
|
Dec. 02, 1947
|
Machine tool
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
|
|
Machine tool
|
Eric A. Reibig |
Milwaukee, WI |
|
|
D148,827
|
Feb. 24, 1948
|
Design for a drill press
|
Clifford Brooks Stevens |
Milwaukee, WI |
This design was the Delta/Rockwell Homecraft 11" drill press. |
|
2,452,089
|
Oct. 26, 1948
|
Universal work head
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
|
|
Universal work head
|
Eric A. Reibig |
Milwaukee, WI |
|
|
460,144
|
Oct. 04, 1949
|
Cutting machine
|
Hugo V. Boehnke |
Milwaukee, WI |
|
|
|
|
Cutting machine
|
Christy A. Wiken |
Milwaukee, WI |
|
|
2,511,050
|
Jun. 13, 1950
|
Dual welder
|
Ulysses S. Dunn |
Milwaukee, WI |
This patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. |
|
2,536,627
|
Jan. 02, 1951
|
Woodworking machine blade guard
|
William Copp |
ON, Canada |
Callander Foundry made the "Beaver" line of machinery; the company was purchased by Rockwell Mfg. Co. in 1953. |
|
2,537,394
|
Jan. 09, 1951
|
Abrasive wheel drive
|
William B. Boice |
Toledo, OH |
Invention is a drive mechanism for a wet grinder, where the wheel is driven by a roller on its periphery. Such a mechanism provides a constant drive speed, regardless of wheel diameter. There is also a mechanism for keeping a constant relationship between the wheel and the work. |
|
652,871
|
May. 02, 1951
|
Improvement in cutting machines
|
Hugo V. Boehnke |
Milwaukee, WI |
This is the British equivalent of US patent 2,372,699. |
|
|
|
Improvement in cutting machines
|
Christy A. Wiken |
Milwaukee, WI |
|
|
2,552,611
|
May. 15, 1951
|
Endless tool carrier chain
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
|
|
Endless tool carrier chain
|
Eric A. Reibig |
Milwaukee, WI |
|
|
2,567,982
|
Sep. 18, 1951
|
Machine tool
|
Christy Arthur Wiken |
Milwaukee, WI |
|
|
2,572,455
|
Oct. 23, 1951
|
Transformer
|
Ulysses S. Dunn |
Chicago, IL |
This patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. |
|
2,575,250
|
Nov. 13, 1951
|
Woodworking tool fence supporting structure
|
William Copp |
ON, Canada |
Callander Foundry made the "Beaver" line of machinery; the company was purchased by Rockwell Mfg. Co. in 1953. |
|
2,585,025
|
Feb. 12, 1952
|
Drilling machine
|
Harold F. Martin |
Milwaukee, WI |
This is an improvement on patent 2,396,733. |
|
2,589,309
|
Mar. 18, 1952
|
Circular saw safety guard
|
John Everette Tompkins |
Cleveland, OH |
|
|
2,590,093
|
Mar. 25, 1952
|
Hand-operated motor-driven radial machine tool
|
Carl F. Duerr Jr. |
Gates Mills, OH |
Improvements to patent 1,956,835 and patent 2,343,243. |
|
2,590,119
|
Mar. 25, 1952
|
Power-operated radial sawing machine
|
Ervin J. Osterhus |
Cleveland, OH |
Improvements to patent 1,956,835 and patent 2,343,243. |
|
2,602,363
|
Jul. 08, 1952
|
Machine tool control
|
Clarence Johnson |
Orfordvill, WI |
|
|
2,604,126
|
Jul. 22, 1952
|
Band saw wheel adjusting means
|
Christy Arthur Wiken |
Pittsburgh, PA |
The image shows Rockwell's 20-inch bandsaw. |
|
|
|
Band saw wheel adjusting means
|
Eric A. Reibig |
Milwaukee, WI |
|
|
2,605,748
|
Aug. 05, 1952
|
Adjustable abutment for pistons
|
Julius E. Rasoletti |
Cleveland Heights, OH |
Depth stop for a drill press. |
|
2,617,453
|
Nov. 11, 1952
|
Jig saw
|
William Copp |
ON, Canada |
Callander Foundry made the "Beaver" line of machinery; the company was purchased by Rockwell Mfg. Co. in 1953. |
|
2,621,686
|
Dec. 16, 1952
|
Machine tool with motor-driven rotary and axially fed tools
|
John Everette Tompkins |
Cleveland, OH |
This is the very rare model 33-100 drill press attachment for the Multiplex series 30 and 40 radial arm saws. The one example we have seen is labeled "Multiplex Versatile drill press Model 10.000, Red Star Products, Inc. Cleveland 13, Ohio, U.S.A." |
|
2,623,555
|
Dec. 30, 1952
|
Saw guard
|
William A. Eschenburg |
Freeport, IL |
|
|
2,625,966
|
Jan. 20, 1953
|
Motor and belt drive for tilt arbor saws
|
William G. Copp |
ON, Canada |
|
|
2,628,643
|
Feb. 17, 1953
|
Wood sawing machine
|
John Everette Tompkins |
Cleveland, OH |
See also patent 2,590,093. |
|
2,630,845
|
Mar. 10, 1953
|
Work gauge for machine tools
|
William A. Eschenberg |
Freeport, IL |
Tablesaw rip fence; an improvement to patent 2,265,335. |
|
2,652,966
|
Sep. 22, 1953
|
Motor and drive belt for tilt arbor saws
|
William G. Copp |
ON, Canada |
Callander Foundry made the "Beaver" line of machinery; the company was purchased by Rockwell Mfg. Co. in 1953. |
|
2,655,057
|
Oct. 13, 1953
|
Saw filing machines
|
Henry E. Hull |
Worthington, OH |
The invention is a machine for sharpening "those circular saws which have a deep gullet between groups of cutting teeth." This patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. |
|
2,709,324
|
May. 31, 1955
|
Method and apparatus for producing saw blades
|
Henry E. Hull |
Worthington, OH |
This patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. |
|
2,710,501
|
Jun. 14, 1955
|
Method and apparatus for producing saw blades
|
Henry E. Hull |
Worthington, OH |
This patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. However, the patent is for manufacturing tapered handsaw blades. |
|
D175,825
|
Oct. 18, 1955
|
Power operated chain saw
|
David T. Doman |
Fayetteville, NY |
|
|
2,729,458
|
Jan. 03, 1956
|
Coupling structure
|
Elmer P. Sacrey |
Syracuse, NY |
"This invention relates to coupling structure, and more particularly to a coupling structure for joining two machine elements which rotate at high speed and which have to run true with great accuracy. An example of such an arrangement is the coupling of material cutting bits to the power shaft of routers of the type disclosed in patent 2,613,704..." The proposed "coupling structure", i.e., collet, replaces the usual screw threads with "male and female members having complemental cam surfaces which are particularly economical to machine or form, and which function, when the members are joined, to provide a coupling of great precision, whereby the parts joined by the coupling structure"—the router shaft and the cutting bit—"run true with great accuracy." |
|
D177,025
|
Mar. 06, 1956
|
Portable power operated wood plane
|
Arthur N. Emmons |
Nedrow, NY |
|
|
2,747,447
|
May. 29, 1956
|
Reversible rotary impact tool
|
Arthur C. Burleigh |
Wellesley, MA |
|
|
2,754,859
|
Jul. 17, 1956
|
Table-gripping ripping fences
|
William Ferdinand Ocenasek |
South Plainfield, NJ |
|
|
2,758,617
|
Aug. 14, 1956
|
Adjustable guide fence for jointer
|
William S. Taylor |
Three Lakes, WI |
|
|
2,764,852
|
Oct. 02, 1956
|
Portable power operating sanding machine
|
Arthur N. Emmons |
Nedrow, NY |
|
|
2,773,524
|
Dec. 11, 1956
|
Safety lock for radial arm saws and the like
|
Ewald Schutz |
Leetonia, OH |
|
|
|
|
Safety lock for radial arm saws and the like
|
Paul E. Butzin |
Pittsburgh, PA |
|
|
2,773,525
|
Dec. 11, 1956
|
Radial arm saw and power feed therefor
|
Ewald Schutz |
Leetonia, OH |
|
|
2,773,395
|
Dec. 11, 1956
|
Power transmission mechanisms
|
Eric A. Reibig |
Milwaukee, WI |
This invention provides for a spindle that does not rotate when tightening the chuck, can be freely rotated when positioning or indicating the workpiece, can be run at variable speeds, and can use back gears. The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. |
|
2,774,399
|
Dec. 18, 1956
|
Power operated wood plane with chip and shaving discharge means
|
Arthur N. Emmons |
Nedrow, NY |
Attachment for a Porter-Cable (or Rockwell) router to turn it into a power hand plane, similar to the full-time Porta-Plane. |
|
2,792,036
|
May. 14, 1957
|
Planer and attachments therefor
|
Richard A. Buttke |
Milwaukee, WI |
|
|
D180,437
|
Jun. 11, 1957
|
Portable rotary surface finishing machine
|
Arthur C. Burleigh |
Wellesley, MA |
|
|
544,355
|
Jul. 30, 1957
|
Power transmission mechanism
|
Eric A. Reibig |
Milwaukee, WI |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. This patent is the Canadian equivalent of US patent 2,773,395. |
|
D180,708
|
Jul. 30, 1957
|
Portable power operated saber saw
|
John P. Bruck |
Toledo, OH |
|
|
D180,815
|
Aug. 20, 1957
|
Portable power operated saw
|
John G. Bentley |
Liverpool, NY |
|
|
2,804,107
|
Aug. 27, 1957
|
Jointer table and raising and lowering mechanism thereof
|
William S. Taylor |
Three Lakes, WI |
|
|
2,810,239
|
Oct. 22, 1957
|
Holder for abrasive disk
|
Arthur C. Burleigh |
Wellesley, MA |
|
|
2,827,085
|
Mar. 18, 1958
|
Band saw guides and guards
|
William Ferdinand Ocenasek |
South Plainfield, NJ |
See also patent 2,695,637. |
|
2,830,628
|
Apr. 15, 1958
|
Multi-speed drive for band saws and the like
|
David D. Pettigrew |
Pittsburgh, PA |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. Co-inventor Yih-O Tu (1920-2005) was at Rensellaer Polytechnic Institute at the time this patent was granted. He would later work at IBM's prestigious T. J. Watson Research Laboratory and at IBM's Research Division Laboratory in San Jose, California. |
|
|
|
Multi-speed drive for band saws and the like
|
Yih-O Tu |
Pittsburgh, PA |
|
|
2,835,289
|
May. 20, 1958
|
Multi-tool power driven wood working machine
|
George E. Rockwell |
Arlington, MA |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. |
|
2,842,171
|
Jul. 08, 1958
|
Saber saw attachment for circular saw table
|
Edwin B. Deuschle |
Tupelo, MS |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. |
|
|
|
Saber saw attachment for circular saw table
|
Warren Dean Weikart |
Tupelo, MS |
|
|
2,861,536
|
Nov. 25, 1958
|
Locking device for handwheel assembly
|
Emil P. Polivka |
Pittsburgh, PA |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. |
|
2,866,348
|
Dec. 30, 1958
|
Shifter for power transmission
|
Edward C. Warrick |
Pittsburgh, PA |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. This patent covers an improved shifter for the lathe transmission of patent 2,773,395. |
|
|
|
Shifter for power transmission
|
David D. Pettigrew |
Pittsburgh, PA |
|
|
2,873,776
|
Feb. 17, 1959
|
Planer and attachments therefor
|
Richard A. Buttke |
Milwaukee, WI |
|
|
2,876,669
|
Mar. 10, 1959
|
Micrometer stops for machine tools
|
David D. Pettigrew |
Pittsburgh, PA |
|
|
2,885,897
|
May. 12, 1959
|
Lathe drive
|
David D. Pettigrew |
Pittsburgh, PA |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. This patent covers a continuously variable-speed belt drive mechanism. |
|
2,887,924
|
May. 26, 1959
|
Cross slide threading stop
|
Joseph Simonelli |
Pittsburgh, PA |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. This patent covers a threading stop mechanism inexpensive enough that it could be included with a low-cost lathe. |
|
|
|
Cross slide threading stop
|
David D. Pettigrew |
Pittsburgh, PA |
|
|
2,888,707
|
Jun. 02, 1959
|
Universal caster assembly for leg supported stands
|
Joseph Kmetz |
Rankin, PA |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. |
|
|
|
Universal caster assembly for leg supported stands
|
Edward C. Warrick |
Pittsburgh, PA |
|
|
585,901
|
Oct. 27, 1959
|
Multi-speed drive
|
Yih-O Tu |
Pittsburgh, PA |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. The patent is the Canadian equivalent of US patent 2,830,628. |
|
|
|
Multi-speed drive
|
David D. Pettigrew |
Pittsburgh, PA |
|
|
594,663
|
Mar. 22, 1960
|
Combination woodworking machine
|
George E. Rockwell |
Arlington, MA |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. This patent is the Canadian equivalent of US patent 2,835,289. |
|
2,944,376
|
Jul. 12, 1960
|
Grinder attachment for woodworking machines
|
Richard A. Buttke |
Milwaukee, WI |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. The original patent application was split, the other part becoming patent 2,792,036. |
|
2,947,197
|
Aug. 02, 1960
|
Guards for machine tools
|
David D. Pettigrew |
Pittsburgh, PA |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. |
|
|
|
Guards for machine tools
|
Donald E. Bell |
Pittsburgh, PA |
|
|
2,955,007
|
Oct. 04, 1960
|
Planer and attachments therefor
|
Richard A. Buttke |
Milwaukee, WI |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. The patent covers a planer base cabinet with motor mount and dust protection for the motor. |
|
2,956,595
|
Oct. 18, 1960
|
Drive means for combination circular saw and jointer
|
Edward C. Warrick |
Pittsburgh, PA |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. The patent covers a belt drive for a tilting-arbor saw and a jointer. |
|
|
|
Drive means for combination circular saw and jointer
|
Raymond K. Holtz |
Pittsburgh, PA |
|
|
|
|
Drive means for combination circular saw and jointer
|
Joseph Kmetz |
West Mifflin, PA |
|
|
2,960,126
|
Nov. 15, 1960
|
Power operated cutting tool
|
Heiko Tjark de Man |
Liverpool, NY |
|
|
2,960,893
|
Nov. 22, 1960
|
High-speed, sensitive drilling attachment
|
William Ferdinand Ocenasek |
Miami, FL |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. The invention is a sensitive drill implemented as an accessory to a conventional large drill press, which allowed drilling a range of hole sizes without having to move the workpiece to a different drill press. |
|
2,995,961
|
Aug. 15, 1961
|
Adjustable manual feed
|
Edward C. Warrick |
Pittsburgh, PA |
The patent number was listed in a 1965 catalog of machinery from Rockwell Mfg. Co. This drill press feed mechanism is intended for use with the variable-speed belt drive mechanism of patent 2,360,921. |
|
|
|
Adjustable manual feed
|
Benjamin S. Eldridge |
Pittsburgh, PA |
|
|
3,011,529
|
Dec. 05, 1961
|
Tilt and elevating mechanism for tilting arbor saws
|
William G. Copp |
ON, Canada |
|
|
3,021,879
|
Feb. 20, 1962
|
Adjustable indexing mechanism
|
Emerson R. Berends |
Tupelo, MS |
|
|
|
|
Adjustable indexing mechanism
|
Rex P. Deghuee |
Amory, MS |
|
|
3,022,509
|
Feb. 27, 1962
|
Nailer
|
Heiko Tjark de Man |
Liverpool, NY |
|
|
3,042,924
|
Jul. 10, 1962
|
Power nailing machine
|
Lars Frostad |
Camillus, NY |
|
|
3,042,925
|
Jul. 10, 1962
|
hand nailer
|
Heiko Tjark de Man |
Liverpool, NY |
|
|
|
|
hand nailer
|
Lars Frostad |
Camillus, NY |
|
|
3,055,236
|
Sep. 25, 1962
|
Planetary gear pulley and control means
|
Lester Raymond Born Jr. |
Bellefontaine, OH |
|
|
3,056,437
|
Oct. 02, 1962
|
Saber saw
|
Frank W. Mittins |
Memphis, NY |
Improvements to patent 2,737,984. |
|
3,095,748
|
Jul. 02, 1963
|
Orbital motion tool
|
Hugh K. Leach |
Syracuse, NY |
|
|
|
|
Orbital motion tool
|
Lars Frostad |
Syracuse, NY |
|
|
|
|
Orbital motion tool
|
Charles R. Stelljes |
Fayetteville, NY |
|
|
3,109,319
|
Nov. 05, 1963
|
Back gear control for lathe drive
|
Gilbert L. Pierce |
Bellefontaine, OH |
Improvement to patent 2,773,395 to prevent the back gear lever from being moved while the lathe is under power, which could damage the gears. |
|
3,118,325
|
Jan. 21, 1964
|
Combined manual and power feed for drill press
|
David D. Pettigrew |
Pittsburgh, PA |
|
|
3,121,875
|
Feb. 25, 1964
|
Nail driver
|
Lars Frostad |
Syracuse, NY |
|
|
3,126,929
|
Mar. 31, 1964
|
Power-operated hand manipulated block plane
|
Dane H. Pedersen |
Syracuse, NY |
This power planer was sold as the Rockwell Model 267 Power Block Plane. |
|
3,128,661
|
Apr. 14, 1964
|
Band saws
|
John H. Diehl |
Bellefontaine, OH |
|
|
|
|
Band saws
|
Warren Dean Weikart |
Bellefontaine, OH |
|
|
|
|
Band saws
|
Richard F. Nenstiel |
Bellefontaine, OH |
|
|
3,130,425
|
Apr. 28, 1964
|
Method of making cut nails from flat strip stock
|
Hubert K. Kelly |
Clay, NY |
|
|
3,146,628
|
Sep. 01, 1964
|
Power tool and transmission therefor
|
David D. Pettigrew |
Pittsburgh, PA |
Invention is a low-cost variable-speed V-belt drive system for a drill press. Referenced patents include 2,395,599, 2,480,492, 2,487,980, and 2,604,794, all of which are claimed to be too complex, too bulky and too expensive. |
|
|
|
Power tool and transmission therefor
|
Edward C. Warrick |
Pittsburgh, PA |
|
|
|
|
Power tool and transmission therefor
|
John H. Diehl |
Pittsburgh, PA |
|
|
3,156,127
|
Nov. 10, 1964
|
Vibration reducing device and method
|
David D. Pettigrew |
Pittsburgh, PA |
The invention is intended to prevent chattering of the belt and pulley in a variable-speed belt drive system. Patents 2,233,822 and 2,604,794 are specifically mentioned from suffering from this chattering problem. The invention itself involves "fixing a resilient insert having a low coefficient of friction between the movable half of the drive pulley and the drive shaft. It has been found, surprisingly, this eliminates the chattering without restricting the movement of the pulley half along the drive shaft." |
|
3,177,977
|
Apr. 13, 1965
|
Brake for radial arm saws or like machine tools
|
Rex P. Deghuee |
Armory, MS |
The patent references earlier manual brakes as in patents 1,697,758, 2,356,610 and 2,898,956, but claims novelty in applying them to machine tools. |
|
|
|
Brake for radial arm saws or like machine tools
|
Edwin B. Deuschle |
Tupelo, MS |
|
|
3,205,622
|
Sep. 14, 1965
|
Rotatable grinding and surfacing tool
|
Treffle J. Leveque |
Detroit, MI |
|
|
3,206,860
|
Sep. 21, 1965
|
Apparatus for setting jointer or like rotary head machine tool cutter blades and method of adjusting such blades
|
Edward C. Warrick |
Pittsburgh, PA |
Previous gauges are referenced, as patents 874,871, 1,668,431, 2,343,309, and 2,700,993. |
|
3,267,622
|
Aug. 23, 1966
|
Abrasive pad structure for portable sanding machine
|
Lars Frostad |
Syracuse, NY |
|
|
3,269,466
|
Aug. 30, 1966
|
Impact tool
|
Walter G. Mitchell |
Pitcairn, PA |
|
|
3,287,859
|
Nov. 29, 1966
|
Rotatable grinding and surfacing tool
|
Treffle J. Leveque |
Detroit, MI |
This invention—an orbital mechanism—was originally part of the application that became patent 3,205,622. |
|
3,292,673
|
Dec. 20, 1966
|
Power operated portable hand saw
|
Edward G. Gregory |
North Syracuse, NY |
|
|
3,303,861
|
Feb. 14, 1967
|
Saw structure
|
Robert A. Kane |
Kirkville, NY |
|
|
3,334,669
|
Aug. 08, 1967
|
Radial arm saw
|
Edward J. Niehaus Jr. |
Pittsburgh, PA |
|
|
|
|
Radial arm saw
|
Emerson E. Berends |
Tupelo, MS |
|
|
3,334,448
|
Aug. 08, 1967
|
Spindle lock for a power tool
|
Robert H. Alexander |
Dayton, OH |
|
|
3,334,447
|
Aug. 08, 1967
|
Sanding machine
|
Treffle J. Leveque |
Detroit, MI |
|
|
3,339,598
|
Sep. 05, 1967
|
Saw structures
|
Lars Frostad |
Syracuse, NY |
|
|
3,345,784
|
Oct. 10, 1967
|
Orbital finishing sander
|
Charles R. Stelljes |
Fayetteville, NY |
|
|
|
|
Orbital finishing sander
|
Hugh K. Leach |
Syracuse, NY |
|
|
3,348,432
|
Oct. 24, 1967
|
Portable electric drill with chuck key retaining structure
|
Joseph D. Kieffer III |
Camillus, NY |
|
|
3,356,111
|
Dec. 05, 1967
|
Power tool improvements
|
Walter G. Mitchell |
Pitcairn, PA |
"The power driven, tilting arbor saw disclosed herein is provided with a castingless motor having end bells which direct mount the motor on a tilt bracket. The end bells and motor stator terminate in a chordal plane to form a flat side extending from one end of the motor to the other and seating against the underside of the saw table." |
|
3,364,574
|
Jan. 23, 1968
|
Wood cutting saw blade attachment for hedge trimmer
|
Charles R. Stelljes |
Fayetteville, NY |
This patent covers a mechanism for making a hedge trimmer even more dangerous, and "improves" on the previous bad idea of patent 3,217,408. |
|
|
|
Wood cutting saw blade attachment for hedge trimmer
|
Gerhardt A. Dobslaw |
Fayetteville, NY |
|
|
|
|
Wood cutting saw blade attachment for hedge trimmer
|
Leonard Cordone |
East Syracuse, NY |
|
|
3,393,309
|
Jul. 16, 1968
|
Power-operated tool
|
Hugh K. Leach |
Syracuse, NY |
This patent covers an orbital action mechanism and a light arrangement for illuminating the cutting path. |
|
|
|
Power-operated tool
|
Robert W. Taylor |
Baldwinsville, NY |
|
|
|
|
Power-operated tool
|
Tery L. De Waters |
Syracuse, NY |
|
|
3,404,574
|
Oct. 08, 1968
|
Vibration damping mechanism
|
Charles R. Stelljes |
Fayetteville, NY |
|
|
3,407,857
|
Oct. 29, 1968
|
Plane
|
John Gordon Bentley |
Liverpool, NY |
This patent discloses a method for adjusting the planer sole to compensate for a change in the diameter of the cutting circle after changing or sharpening the cutters. |
|
3,413,498
|
Nov. 26, 1968
|
Electrically powered hand tool
|
Charles R. Stelljes |
Fayetteville, NY |
This patent discloses a design for double insulation of a handheld power tool. |
|
|
|
Electrically powered hand tool
|
Lawrence Harris Bowen III |
North Syracuse, NY |
|
|
3,430,084
|
Feb. 25, 1969
|
Electric motor and brush assembly for a portable tool
|
Robert W. Wagner |
Jackson, TN |
This invention is a self-aligning brush holder. |
|
|
|
Electric motor and brush assembly for a portable tool
|
Robert H. Huber |
Pittsburgh, PA |
|
|
|
|
Electric motor and brush assembly for a portable tool
|
George D. Hall |
Verona, PA |
|
|
3,454,061
|
Jul. 08, 1969
|
Power tool
|
Robert J. Okoniewski |
Syracuse, NY |
The invention is an offset laminate trimmer. See also patents 3,494,394 and 3,494,395. |
|
|
|
Power tool
|
Gerhardt A. Dobslaw |
Fayetteville, NY |
|
|
|
|
Power tool
|
Leonard Cordone |
East Syracuse, NY |
|
|
3,454,143
|
Jul. 08, 1969
|
Power-operated tool
|
Gerhardt A. Dobslaw |
Fayetteville, NY |
The invention is a double-clutch mechanism that provides selectable drill and driver functions. |
|
|
|
Power-operated tool
|
Warren A. Berube |
Camillus, NY |
|
|
|
|
Power-operated tool
|
Harry L. Beam |
Jamesville, NY |
|
|
3,456,696
|
Jul. 22, 1969
|
Portable circular saw
|
Terry L. De Waters |
Syracuse, NY |
This invention provides for improved protection from impact damage when dropped, while simultaneously providing a double-insulated design to reduce risk of electric shock. |
|
|
|
Portable circular saw
|
Gerhardt A. Dobslaw |
Fayetteville, NY |
|
|
|
|
Portable circular saw
|
Edward G. Gregory |
North Syracuse, NY |
|
|
3,457,796
|
Jul. 29, 1969
|
Tool
|
Terry L. De Waters |
Syracuse, NY |
The invention is a variable orbital blade motion plus a lamp whose beam is aimed just ahead of the blade, and speed-reduction gearing that is separated from the motor and air cooled. |
|
|
|
Tool
|
Robert W. Taylor |
Baldwinsville, NY |
|
|
|
|
Tool
|
Hugh K. Leach |
Syracuse, NY |
|
|
3,461,732
|
Aug. 19, 1969
|
Portable power driven reciprocating saw
|
Edward G. Gregory |
North Syracuse, NY |
The invention is a reciprocating saw with selectable straight or orbital reciprocating action. The specification notes that such mechanisms exist for jigsaws with blade perpendicular to the bulk of the saw body, but not in previous saws with blade in line with the body of the saw. |
|
3,491,422
|
Jan. 27, 1970
|
Cutter
|
Richard C. Lamkin |
Skaneateles, NY |
The disclosed invention is a portable planer cutter fabricated from a series of plates with cutting edges plus "cooperating bosses and apertures" that angularly index each plate to produce a cutterhead with a roughly helical cutting edge. This patent covers the cutterhead itself, and patent 3,613,485 covers the method of manufacture, which is claimed to be substantially less than that of conventional cutterheads or of previous laminated cutterheads. |
|
|
|
Cutter
|
Thomas J. McDonnell |
Syracuse, NY |
|
|
|
|
Cutter
|
Hubert K. Kelly |
Syracuse, NY |
|
|
3,494,395
|
Feb. 10, 1970
|
Router
|
John W. Graham |
Syracuse, NY |
The invention is a router with an offset belt-driven arbor. See also patents 3,454,061 and 3,494,394. |
|
3,494,394
|
Feb. 10, 1970
|
Trimmer
|
Phillip G. Stock |
Sacramento, CA |
The invention is a trim router with an offset belt-driven arbor. See also patents 3,454,061 and 3,494,395. |
|
3,500,696
|
Mar. 17, 1970
|
Two-speed power tool
|
Warren A. Berube |
Camillus, NY |
|
|
3,512,307
|
May. 19, 1970
|
Portable sanding machine improvements
|
Robert W. Taylor |
Baldwinsville, NY |
The invention is a portable belt sander, and provides an "improved latch mechanism for releasably locking an idler pulley assembly". |
|
3,527,273
|
Sep. 08, 1970
|
Adjustable means of limiting driving depth with attachable nosepiece
|
Ronald C. Falter |
Columbia, SC |
This invention is primarily intended for "drywall screwdrivers". |
|
3,536,943
|
Oct. 27, 1970
|
Electrically powered hand tool
|
Jerry W. Sellers |
Lexington, TN |
"An electrically powered hand tool having a plastic, electrically non-conductive casting which is longitudinally divided into two complementary shells for housing an electric motor and a gear transmission..." |
|
|
|
Electrically powered hand tool
|
Lawrence H. Bowen III |
Lancaster, PA |
|
|
3,538,964
|
Nov. 10, 1970
|
Motor driven table saw
|
Edward C. Warrick |
Pittsburgh, PA |
|
|
|
|
Motor driven table saw
|
Emerson Berends |
Tupelo, MS |
|
|
3,559,350
|
Feb. 02, 1971
|
Plane attachments
|
John Gordon Bentley |
Liverpool, NY |
"A cutter sharpening attachment for a hand-manipulated, power-operated plane..." |
|
3,581,787
|
Jun. 01, 1971
|
Transparent base for router
|
John H. Bane |
Jackson, TN |
"A router comprising a transparent, abrasion resistant, subbase having ribbed sections which engage the workpiece and recessed viewing sections which do not contact the workpiece. The recessed sections function as unabraded and unscratched vision areas which provide an operator with an undistorted view of the cutting action of the tool on the workpiece." |
|
3,584,527
|
Jun. 15, 1971
|
Tool and attachments therefor
|
Donald R. Bosten |
Pittsburgh, PA |
"Attachments for making impact wrenches and the like capable of threading a retainer onto a threaded fastener while holding the fastener against rotation." |
|
881,316
|
Sep. 21, 1971
|
Planing and jointing machine
|
William Sinclair McLay Jr. |
Murrysville, PA |
Improvements to patent 2,612,192. |
|
|
|
Planing and jointing machine
|
Edward Calvin Warrick |
Pittsburgh, PA |
|
|
3,613,485
|
Oct. 19, 1971
|
Method of fabricating a cutter
|
Hubert K. Kelly |
Syracuse, NY |
Patent 3,491,422 discloses a portable planer cutter fabricated from a series of plates with cutting edges plus "cooperating bosses and apertures" to produce a roughly helical cutting edge. This present patent discloses how to manufacture that invention, which was claimed to reduce cost from "almost fifty dollars" for a conventionally machined 3-inch helical cutterhead to a small fraction of that cost, by drastically reducing both the amount of labor and the skill required. |
|
|
|
Method of fabricating a cutter
|
Thomas J. McDonnell |
Syracuse, NY |
|
|
|
|
Method of fabricating a cutter
|
Richard C. Lamkin |
Skaneateles, NY |
|
|
3,623,518
|
Nov. 30, 1971
|
Antisplinter insert for portable saws
|
Joseph P. Nicotra |
Syracuse, NY |
|
|
3,650,336
|
Mar. 21, 1972
|
Power driven device
|
Heinrich P. Koehler |
Camillus, NY |
|
|
3,718,168
|
Feb. 27, 1973
|
Planer
|
Emerson R. Berends |
Tupelo, MS |
|
|
3,754,493
|
Aug. 28, 1973
|
Circular saw blade guard
|
Edward J. Niehaus |
Tupelo, MS |
|
|
|
|
Circular saw blade guard
|
Harry D. Benney |
Tupelo, MS |
|
|
3,821,918
|
Jul. 02, 1974
|
Motorized miter box
|
Edward J. Niehaus |
Tupelo, MS |
|
|
|
|
Motorized miter box
|
Harry D. Benney |
Tupelo, MS |
|
|
3,863,342
|
Feb. 04, 1975
|
Saber saw
|
Robert W. Taylor |
Jackson, TN |
|
|
|
|
Saber saw
|
Russell O. Robison |
Plymouth, OH |
|
|
|
|
Saber saw
|
David R. Griffies |
Joppa, MD |
|
|
D248,085
|
Jun. 06, 1978
|
Portable band saw
|
Richard H. Chapman |
Camillus, NY |
|
|
|
|
Portable band saw
|
Lars Frostad |
Syracuse, NY |
|
|
|
|
Portable band saw
|
Charles R. Stelljes |
Rayetteville, NY |
|
|
4,174,100
|
Nov. 13, 1979
|
Adjustable fence
|
John H. Estess |
Tupelo, MS |
|
|
4,248,115
|
Feb. 03, 1981
|
Sliding table assembly-tilting arbor saws
|
Joseph F. Brodbeck |
Bellefontaine, OH |
|
|
|
|
Sliding table assembly-tilting arbor saws
|
Raymond Kazusky Jr. |
Chardon, OH |
|
|
4,436,126
|
Mar. 13, 1984
|
Wood planing machine
|
Peter Lawson |
, Brazil |
|
|
4,452,117
|
Jun. 05, 1984
|
Self-adjusting fence for motorized saw unit
|
Bobby B. Donovan |
Tupelo, MS |
|
|
|
|
Self-adjusting fence for motorized saw unit
|
Clifford P. Rickmers |
Tupelo, MS |
|
|
|
|
Self-adjusting fence for motorized saw unit
|
Louis D. Brickner |
Pittsburgh, PA |
|
|
4,600,184
|
Jul. 15, 1986
|
Tool fence
|
Steven W. Ashworth |
Blue Springs, MS |
This patent is for the Delta Unifence. |
|
4,619,171
|
Oct. 28, 1986
|
Bearing assembly for C-arm scroll saw
|
David Miller |
Tupelo, MS |
|
|
4,625,609
|
Dec. 02, 1986
|
Counterbalancing mechanism for scroll saw
|
Steven W. Ashworth |
Blawknox, PA |
|
|
4,681,006
|
Jul. 21, 1987
|
Blade tensioning device for scroll saw
|
David Miller |
Tupelo, MS |
|
|
4,694,720
|
Sep. 22, 1987
|
Miter box construction
|
Jerry D. Skipworth |
Burkesville, KY |
|
|
|
|
Miter box construction
|
Louis C. Brickner Jr. |
Pittsburgh, PA |
|
|
4,694,721
|
Sep. 22, 1987
|
Motor pack for circular saw
|
Louis C. Brickner Jr. |
Pittsburgh, PA |
|
|
4,711,032
|
Dec. 08, 1987
|
Portable saw mill
|
Clifford P. Rickmers |
Tupelo, MS |
This bandsaw mill was a very short-lived Delta product, the "Lumber Co." model 36-360, capable of sawing up to 23 inch diameter logs. |
|
|
|
Portable saw mill
|
Robert D. Donovan |
Tupelo, MS |
|
|
|
|
Portable saw mill
|
Louis C. Brickner Jr. |
Pittsburgh, PA |
|
|
4,873,770
|
Oct. 17, 1989
|
Capacitive measurement system
|
David J. Luttmer |
Glenshaw, PA |
|
|
|
|
Capacitive measurement system
|
Thomas L. Panian |
Allison Park, PA |
|
|
|
|
Capacitive measurement system
|
Barry D. Wixey |
Pittsburgh, PA |
|
|
|
|
Capacitive measurement system
|
Raymond L. Wilson |
Pittsburgh, PA |
|
|
4,934,422
|
Jun. 19, 1990
|
Bench mountable plate joining machine
|
Jeffrey L. Haffely |
Gibsonia, PA |
|
|
|
|
Bench mountable plate joining machine
|
Charles J. Baird |
Pittsburgh, PA |
|
|
|
|
Bench mountable plate joining machine
|
Robert M. Hempy |
Pittsburgh, PA |
|
|
4,961,269
|
Oct. 09, 1990
|
Bi-directional direct read measurement system
|
David J. Luttmer |
Glenshaw, PA |
|
|
|
|
Bi-directional direct read measurement system
|
Thomas L. Panian |
Allison Park, PA |
|
|
|
|
Bi-directional direct read measurement system
|
Barry D. Wixey |
Pittsburgh, PA |
|
|
|
|
Bi-directional direct read measurement system
|
Raymond L. Wilson |
Pittsburgh, PA |
|
|
4,974,332
|
Dec. 04, 1990
|
Measurement system reader element standoff
|
David J. Luttmer |
Glenshaw, PA |
|
|
|
|
Measurement system reader element standoff
|
Thomas L. Panian |
Allison Park, PA |
|
|
|
|
Measurement system reader element standoff
|
Barry D. Wixey |
Pittsburgh, PA |
|
|
|
|
Measurement system reader element standoff
|
Raymond L. Wilson |
Pittsburgh, PA |
|
|
4,982,509
|
Jan. 08, 1991
|
Measurement system having multiple display orientations
|
David J. Luttmer |
Glenshaw, PA |
|
|
|
|
Measurement system having multiple display orientations
|
Thomas L. Panian |
Allison Park, PA |
|
|
|
|
Measurement system having multiple display orientations
|
Barry D. Wixey |
Pittsburgh, PA |
|
|
|
|
Measurement system having multiple display orientations
|
Raymond L. Wilson |
Pittsburgh, PA |
|
|
5,016,693
|
May. 21, 1991
|
Guide fence for power tools
|
Barry D. Wixey |
Pittsburgh, PA |
A guide fence providing an adjustable gap for accommodating variously configured cutting mechanisms which includes (i) a plurality of longitudinally elongated members having a generally V-shaped cross-section, and (ii) a means for releasable coupling a plurality of nested elongated members so as to create a planar guiding surface from a first lateral side of the nested members. |
|
|
|
Guide fence for power tools
|
Mark G. Stahler |
Oakmont, PA |
|
|
|
|
Guide fence for power tools
|
Jeff L. Haffely |
Gibsonia, PA |
|
|
5,045,033
|
Sep. 03, 1991
|
Dual arbor spindle
|
Barry D. Wixey |
Pittsburgh, PA |
A solid, dual arbor spindle including a central cylindrical section creating a central pulley surface, a large arbor longitudinally extending from the central section in a first direction, and a small arbor longitudinally extending from the central section in a second direction diametrically opposed to the first arbor. The central section of the spindle is rotatably retained between a pair of bearings which are confined in position between a pair of interconnected retaining rings. |
|
|
|
Dual arbor spindle
|
Kenneth Kapton |
Verona, PA |
|
|
5,056,375
|
Oct. 15, 1991
|
Spindle adjustment mechanism
|
Barry D. Wixey |
Pittsburgh, PA |
A spindle adjustment mechanism which includes a rotatable hand wheel, a bracket for operably retaining a spindle and a motor for driving the spindle, and an assembly for uniaxially transmuting rotation of the hand wheel to linear movement of the spindle through movement of the bracket. |
|
|
|
Spindle adjustment mechanism
|
Stephen O. Sutton |
Wexford, PA |
|
|
|
|
Spindle adjustment mechanism
|
Kenneth Kapton |
Verona, PA |
|
|
5,078,373
|
Jan. 07, 1992
|
Bench saw fence
|
David Miller |
Tupelo, MS |
A highly accurate yet inexpensive bench saw fence which includes (i) a conduit with a featureless distal end for guiding a workpiece along a bench saw table, (ii) a clamping mechanism proximate the distal end of the conduit for clamping the fence to a bench saw table which includes a linear alignment ridge for guiding the bench saw table into proper contact with the clamping mechanism and ensuring proper alignment of the fence with respect to the bench saw table, and (iii) a rotatable control lever proximate the proximal end of the conduit in mechanical communication with the clamping mechanism for controlling movement of the clamping mechanism between a release position and a clamping position and by movement of the lever from a primary locking position to a secondary locking position, (iv) wherein rotation of the control lever causes concentric rotation of the path between the primary and secondary locking positions. |
|
5,092,058
|
Mar. 03, 1992
|
Measurement system magnetic coupler
|
David J. Luttmer |
Glenshaw, PA |
|
|
|
|
Measurement system magnetic coupler
|
Thomas L. Panian |
Allison Park, PA |
|
|
|
|
Measurement system magnetic coupler
|
Barry D. Wixey |
Pittsburgh, PA |
|
|
|
|
Measurement system magnetic coupler
|
Raymond L. Wilson |
Pittsburgh, PA |
|
|
5,117,880
|
Jun. 02, 1992
|
Shield for cutting blade
|
Charles J. Baird |
Pittsburgh, PA |
A bench type router/shaper which includes (i) a spindle drive pack which incorporates the motor and the spindle into a unitary package so as to establish and maintain a spatial relationship between the motor and the spindle, (ii) a semi-elastic drive belt encompassing the spindle and drive shaft which has a modulus of elasticity effective for providing effective power transmission while permitting removal and replacement of the drive belt without repositioning of the spindle and/or the drive shaft, (iii) a spindle adjustment mechanism for repositioning the longitudinal position of the spindle and thereby the depth of the cutter which includes a rotatable bell crank, a spindle in communication with the first extremity of the bell crank for linear movement of the spindle based upon rotational movement of the bell crank, and a rotatable handle in communication with the second extremity of the bell crank for producing rotation of the bell crank based upon rotation of the handle and (iv) a protective shield over the cutter which provides maximum protection with minimal interference and includes a horizontal plate which is laterally pivotable about a first pivot point proximate the right end of the horizontal plate, and a vertical plate which is longitudinally pivotally connected to the horizontal plate about a second pivot point proximate the left end of both plates. |
|
|
|
Shield for cutting blade
|
Kenneth Kapton |
Verona, PA |
|
|
5,146,807
|
Sep. 15, 1992
|
Bell crank actuated spindle adjustment mechanism
|
Barry D. Wixey |
Pittsburgh, PA |
A bench type router/shaper which includes (i) a spindle drive pack which incorporates the motor and the spindle into a unitary package so as to establish and maintain a spacial relationship between the motor and the spindle, (ii) a semi-elastic drive belt encompassing the spindle and drive shaft which has a modulus of elasticity effective for providing effective power transmission while permitting removal and replacement of the drive belt without repositioning of the spindle and/or the drive shaft, (iii) a spindle adjustment mechanism for repositioning the longitudinal position of the spindle and thereby the depth of the cutter which includes a rotatable bell crank, a spindle in communication with the first extremity of the bell crank for linear movement of the spindle based upon rotational movement of the bell crank, and a rotatable handle in communication with the second extremity of the bell crank for producing rotation of the bell crank based upon rotation of the handle and (iv) a protective shield over the cutter which provides maximum protection with minimal interference and includes a horizontal plate which is laterally pivotable about a first pivot point proximate the right end of the horizontal plate, and a vertical plate which is longitudinally pivotally connected to the horizontal plate about a second pivot point proximate the left end of both plates. |
|
|
|
Bell crank actuated spindle adjustment mechanism
|
Kenneth Kapton |
Verona, PA |
|
|
|
|
Bell crank actuated spindle adjustment mechanism
|
Raymond L. Wilson |
Pittsburgh, PA |
|
|
|
|
Bell crank actuated spindle adjustment mechanism
|
Charles J. Baird |
Pittsburgh, PA |
|
|
5,186,088
|
Feb. 16, 1993
|
Wood lathe with sliding, horizontally-rotatable headstock and variable speed drive
|
Barry D. Wixey |
Pittsburgh, PA |
Disclosed is a system for forming a variable speed pulley, a variable speed drive system, a variable speed lathe, a lathe having a slidable, horizontally-rotatable headstock, and a variable speed lathe having a slidable, horizontally-rotatable headstock. |
|
5,235,889
|
Aug. 17, 1993
|
Compound miter saw
|
Jaime E. Garcia |
Wexford, PA |
A compound miter saw or the like comprising a base having a lower surface for supporting the base on a work surface. A turntable is rotatably supported by the base, and a fence is disposed above the work table for supporting the orientation of a workpiece located on the base. A support is coupled to the turntable at a rear portion of the turntable. The compound miter saw disclosed also includes a cutting-head system for cutting the workpiece. The cutting-head system comprises a pivoting system coupled to the support for pivoting a motor driven saw between a raised, rest position and a lowered, operational position. A compound miter saw beveling system comprises a male conical taper structure having an outer surface defining a cone-shaped member, the cone-shaped member being coupled to the support. The beveling system further comprises a female conical taper structure defining a cavity having a conically-shaped inner wall, the conically-shaped inner wall having a configuration substantially matching the outer surface of the cone-shaped member. The female conical taper structure is coupled to the cutting-head system. |
|
|
|
Compound miter saw
|
Louis C. Brickner |
Pittsburgh, PA |
|
|
5,347,902
|
Sep. 20, 1994
|
Motorized miter box
|
Jaime E. Garcia |
Wexford, PA |
A motorized miter box or saw comprising a cutting-head handle for guiding the movement of the saw between a raised, rest position and a lowered, operational position. The cutting-head handle is adjustably coupled to the cutting-head so that the orientation of the cutting-head handle with respect to a user of the saw can be adjusted by the user between a first position and a second position. The first position has a preferred orientation for the user when the saw is located on a floor or at a similar elevation and the user is kneeling or similarly located at floor level. The second position has a preferred orientation for the user when the saw is located on a bench or similar elevated structure and the user is standing or similarly located in front of the saw. The disclosed motorized miter box also comprises a carrying handle for use by a user in carrying the miter box between work sites. The carrying handle protrudes from the rear of the miter box base. The carrying handle comprises a support surface located in the same geometric plane as the lower surface of the base so that the carrying handle helps prevent the miter box saw from tipping backwards if the cutting-head apparatus is allowed to move freely from its lowered, operational position to its upper, at rest position. |
|
|
|
Motorized miter box
|
Louis C. Brickner |
Pittsburgh, PA |
|
|
5,363,733
|
Nov. 15, 1994
|
Quick release saw blade chuck and saw including the same
|
Charles J. Baird |
Pittsburgh, PA |
A quick release saw blade chuck for connecting a free end of a saw blade to a reciprocating arm of a saw includes a blade holder including a first surface. The free end of the saw blade is interposed between the first surface and the inner surface of a clamping member. The clamping member is coupled to the blade holder by an attachment mechanism which defines a blade-accepting space and a second space between the first and inner surfaces. A mechanism is also provided for varying the size of second space and thereby pivoting the clamping member about the attachment mechanism to vary the size of the blade-accepting space and clamp a blade inserted therein. |
|
|
|
Quick release saw blade chuck and saw including the same
|
Barry D. Wixey |
Pittsburgh, PA |
|
|
|
|
Quick release saw blade chuck and saw including the same
|
Louis C. Brickner |
Pittsburgh, PA |
|
|
5,505,655
|
Apr. 09, 1996
|
Adjustable tool platform and an abrading machine including the same
|
Jeffrey L. Haffely |
Gibsonia, PA |
|
|
|
|
Adjustable tool platform and an abrading machine including the same
|
Xun Lei |
Cheswick, PA |
|
|
|
|
Adjustable tool platform and an abrading machine including the same
|
Louis C. Brickner |
Pittsburgh, PA |
|
|
5,525,099
|
Jun. 11, 1996
|
Apparatus for linearly displacing a rotatable spindle
|
Charles J. Baird |
Pittsburgh, PA |
An apparatus is disclosed for linearly displacing a rotatable spindle relative to an object. The apparatus includes a support that is connectable to the spindle such that translation of the spindle relative to the support in a first direction is restrained, a rotatable shaft which is connected to the support such that translation of the shaft relative to the support in the first direction is restrained, and a rotational drive system rotatably connected to the shaft and rotatably connectable to the spindle, to transmit rotational drive from the spindle to the shaft. The apparatus also includes a contact piece eccentrically mounted to the shaft, wherein the contact piece has a contact surface thereon for contact with the object. Rotation of the shaft varies a distance, measured in the first direction, between the support and a portion of the contact surface contacting the object, such that the spindle is linearly displaceable relative to the object. |
|
|
|
Apparatus for linearly displacing a rotatable spindle
|
Louis C. Brickner |
Pittsburgh, PA |
|
|
|
|
Apparatus for linearly displacing a rotatable spindle
|
Raymond L. Wilson |
Pittsburgh, PA |
|
|
5,542,639
|
Aug. 06, 1996
|
Flat folding support
|
Barry D. Wixey |
Pittsburgh, PA |
Apparatus for supporting an object which includes at least two leg members attached to and capable of folding under an object-supporting surface. The leg members are pivotally attached to the object-supporting surface at pivot axes offset from one another relative to the object-supporting surface so that the leg members may fold under the object-supporting surface without interfering with one another. The apparatus includes diagonal supports, attached from the leg members to the object-supporting surface, which are designed to fold with the leg members. The apparatus may also include side rails defining the object-supporting surface. The side rails are configured to releasably attach to a specially configured base portion on an object such as a miter saw. |
|
|
|
Flat folding support
|
Ronald E. Young |
Cheswick, PA |
|
|
|
|
Flat folding support
|
Charles J. Baird |
Pittsburgh, PA |
|
|
|
|
Flat folding support
|
Jeffrey L. Haffely |
Gibsonia, PA |
|
|
5,545,081
|
Aug. 13, 1996
|
Tool fixture for abrading apparatus
|
Jeffrey L. Haffely |
Gibsonia, PA |
|
|
|
|
Tool fixture for abrading apparatus
|
Xun Lei |
Cheswick, PA |
|
|
|
|
Tool fixture for abrading apparatus
|
Louis C. Brickner |
Pittsburgh, PA |
|
|
5,595,124
|
Jan. 21, 1997
|
Restraining mechanism
|
Barry D. Wixey |
Pittsburgh, PA |
A restraining mechanism of an adjustable work table is disclosed for releasably restraining movement of a movable member of the table relative to a stationary member of the table. The restraining mechanism includes a clamping portion connected to one of the movable and stationary members, and a spring portion connected to the clamping portion for forcing the clamping means against the other of the movable and stationary members and thereby restraining movement of the movable member relative to the stationary member. The restraining mechanism further includes a pivot portion attached to the one of the movable and stationary members, and a lever arm portion, pivotably cooperating with the pivot, for contacting the clamping portion during pivotal motion of the lever arm portion and thereby operating against the bias of the spring portion to reduce the force applied through the clamping portion to the other of the movable and stationary members, to allow movement of the movable member relative to the stationary member. |
|
|
|
Restraining mechanism
|
Jeffrey L. Haffely |
Gibsonia, PA |
|
|
D377,939
|
Feb. 11, 1997
|
Apparatus for linearly displacing a rotatable spindle
|
Raymond L. Wilson |
Pittsburgh, PA |
|
|
|
|
Apparatus for linearly displacing a rotatable spindle
|
Waldo E. Bair |
Panama City Beach, FL |
|
|
5,785,293
|
Jul. 28, 1998
|
Machinery base
|
Jerry W. Ford |
Plantersville, MS |
|
|
|
|
Machinery base
|
Delwyn N. Pounders |
Saltillo, MS |
|
|
|
|
Machinery base
|
Kim D. Stanford |
Saltillo, MS |
|
|
5,794,675
|
Aug. 18, 1998
|
Planer with positively locking cutterhead
|
Jaime E. Garcia |
Wexford, PA |
A locking apparatus for selectively locking a driven cutterhead at a desired elevation relative to a support surface of a planing apparatus having a frame assembly for supporting the cutterhead relative to the support surface. The locking apparatus includes at least one locking plate having a first and second sides attached to the frame assembly. The locking apparatus also includes a first clamping block attached to the cutterhead and disposed adjacent to the first side of the locking plate and a second clamping block disposed adjacent to the second side of the locking plate. Additionally, the locking apparatus includes means attached to the first and second clamping blocks for selectively drawing the first and second clamping blocks into clamping engagement with the locking plate to lock the cutterhead at a desired elevation. |
|
5,902,084
|
May. 11, 1999
|
Combined nut and flange fastener
|
Jaime E. Garcia |
Wexford, PA |
A fastener for securing an object to a threaded spindle comprises a nut portion and a flange portion rotatably connected so as to rotate independently. The fastener includes a bore therethrough having threaded and unthreaded regions, the threaded region for securing the fastener to the spindle. |
|
D411,549
|
Jun. 29, 1999
|
Sanding machine
|
Ronald E. Young |
Cheswick, PA |
Kirkpatrick & Lockhart LLP - patent attorneys |
|
|
|
Sanding machine
|
Jaime E. Garcia |
Wexford, PA |
|
|
5,957,173
|
Sep. 28, 1999
|
Planer with positively locking cutterhead
|
Jaime E. Garcia |
Wexford, PA |
A locking apparatus for selectively locking a driven cutterhead at a desired elevation relative to a support surface of a planing apparatus having a frame assembly for supporting the cutterhead relative to the support surface. The locking apparatus includes at least one locking plate having a first and second sides attached to the frame assembly. The locking apparatus also includes a first clamping block attached to the cutterhead and disposed adjacent to the first side of the locking plate and a second clamping block disposed adjacent to the second side of the locking plate. Additionally, the locking apparatus includes means attached to the first and second clamping blocks for selectively drawing the first and second clamping blocks into clamping engagement with the locking plate to lock the cutterhead at a desired elevation. |
|
5,979,521
|
Nov. 09, 1999
|
Adjustment mechanism
|
Jaime E. Garcia |
Wexford, PA |
|
|
5,988,031
|
Nov. 23, 1999
|
Adjustable tool station with rotatable table and wear components therefor
|
Barry D. Wixey |
Westminster, MD |
An adjustable tool station is disclosed which includes a subframe, a table portion rotatably attached to the subframe, wherein the table portion includes an upper surface defining a work support plane, a tool mounted to the table portion, and a fence fixed to the subframe and extending above the work support plane, wherein the fence includes a first side and a second, opposite side. The first side constitutes a workpiece guide surface, and defines a workpiece guide area which includes all points which are closer to the first side than the second side. All portions of the subframe located within the workpiece guide area are located below the work support plane. Additionally, the subframe includes a wear ring which is fixed to the base portion between the table portion and the base portion, the wear ring having at least three arcuate wear zones. At least three pads are provided on an underside of the table portion, each wear pad having a contact point that contacts a corresponding wear zone on the wear ring to locate the work support plane in a position generally perpendicular to the workpiece guide surface. |
|
6,012,373
|
Jan. 11, 2000
|
Composite material C-arm scroll saw
|
Barry D. Wixey |
Pittsburgh, PA |
A scroll saw having a yoke for mounting a saw blade thereto, the yoke adapted to be received by a mounting support on the reciprocating saw. The yoke includes first and second arms and a region connecting the first and second arms, the first and second arms having ends for receiving the end of a saw blade. The first and second arms and the connecting region are formed of a composite material. |
|
|
|
Composite material C-arm scroll saw
|
Louis C. Brickner Jr. |
Pittsburgh, PA |
|
|
6,038,953
|
Mar. 21, 2000
|
Composite material C-arm for scroll saw
|
Barry D. Wixey |
Jonesboro, AR |
A yoke for mounting a saw blade to a reciprocating saw, the yoke adapted to be received by a mounting support on the reciprocating saw. The yoke includes first and second arms and a region connecting the first and second arms, the first and second arms having ends for receiving the end of a saw blade. The first and second arms and the connecting region are hollow and are formed of a composite material. |
|
|
|
Composite material C-arm for scroll saw
|
Louis C. Brickner Jr. |
Pittsburgh, PA |
|
|
6,105,482
|
Aug. 22, 2000
|
Self-adjusting clamping device
|
Charles J. Baird |
Pittsburgh, PA |
|
|
|
|
Self-adjusting clamping device
|
Jaime E. Garcia |
Wexford, PA |
|
|
6,176,651
|
Jan. 23, 2001
|
Attachment alignment method and apparatus
|
Andrew V. Bondi |
Natrona Heights, PA |
|
|
|
|
Attachment alignment method and apparatus
|
David N. Hollinger |
Glenshaw, PA |
|
|
6,213,851
|
Apr. 10, 2001
|
Abrading apparatus
|
Jaime E. Garcia |
Wexford, PA |
|
|
|
|
Abrading apparatus
|
Randall W. Barta |
Lewistown, MT |
|
|
6,238,149
|
May. 29, 2001
|
Apparatus for drill press
|
Andrew V. Bondi |
Natrona Heights, PA |
|
|
|
|
Apparatus for drill press
|
David N. Hollinger |
Glenshaw, PA |
|
|
6,289,778
|
Sep. 18, 2001
|
Adjustable tool station
|
Barry D. Wixey |
Westminster, MD |
An adjustable tool station which includes a subframe, a table portion rotatably attached to the subframe, wherein the table portion includes an upper surface defining a work support plane, a tool mounted to the table portion, and a fence fixed to the subframe and extending above the work support plane, wherein the fence includes a first side and a second, opposite side. The first side constitutes a workpiece guide surface, and defines a workpiece guide area which includes all points which are closer to the first side than the second side. All portions of the subframe located within the workpiece guide area are located below the work support plane. |
|
6,360,642
|
Mar. 26, 2002
|
Workpiece guide with positionable guide surface
|
David Miller |
Tupelo, MS |
A workpiece guide includes a fence receiving member having first and second sides, a first mounting member disposed adjacent the first side, and a second mounting member disposed adjacent the second side. A first linking member is connected to the first mounting member, and a second linking member is connected to the second mounting member. A link receiving member is connected to both linking members and may be manipulated to selectively simultaneously bias the first and second mounting members toward or away from the link receiving member. |
|
|
|
Workpiece guide with positionable guide surface
|
Kim Dewayne Stanford |
Saltillo, MS |
|
|
6,363,822
|
Apr. 02, 2002
|
Parallel arm scroll saw and drive mechanism with visual speed indicator apparatus
|
Xun Lei |
Cheswick, PA |
An arm configuration used in a scroll saw that allows the two arms to move substantially independently of one another and having a retaining mechanism which isolates one of the arms if one arm becomes disengaged from the saw blade or the saw blade breaks. A speed indicator that allows the user to easily determine the speed of the saw visually. A drive assembly including a pulley system that provides for increased torque and the saw to have a wide range of speeds. |
|
6,401,579
|
Jun. 11, 2002
|
Work holding apparatus
|
Xun Lei |
Cheswick, PA |
|
|
6,405,624
|
Jun. 18, 2002
|
Splitter and cutting member guard assembly
|
Stephen O. Sutton |
Wexford, PA |
|
|
6,561,062
|
May. 13, 2003
|
Lathe
|
David Miller |
Jackson, TN |
"A lathe having a bed is supported on two legs. In one embodiment, the bed is hollow and has with an inner portion into which a weight enhancing material may be inserted. The bed may include two tubular members separated by spacers. The tubular members may have cross-sections that increase stiffness. In another embodiment, the bed is attached to a support assembly that includes first and second hollow legs, which may also contain weight-enhancing ballast. The first leg may be attached to a first hollow foot and the second leg may be attached to a second hollow foot. A stabilizer bar may be inserted in each foot for increased stability. Pairs of wheel assemblies may be attached to the first and second feet. In yet another embodiment, the lathe includes a headstock having a housing slidable along the bed. The housing encloses a motor that drives a shaft having two spindle ends protruding from the housing." |
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