This invention relates to can openers, and particularly to side-cutting can openers which cut the can lid in a sideways direction, usually through the rim. Priority is claimed from U.S. provisional patent application Ser. No. 60/652,486, filed Feb. 11, 2005.
Side-cutting can openers have a number of advantageous features as compared with can openers which cut through the can lid vertically. By cutting through or near the rim of the can from a sideways direction, the cutting blade does not penetrate into the food in the can and thus helps keep the food in the can free of contamination.
In addition, the can lids often can be replaced on top of the can after it is opened, for the purpose of storage in a refrigerator, etc.
Some prior side-cutting can openers have handles pivoted together which must be squeezed in a horizontal direction towards one another in order to start the cutting of the can lid. This motion is different from that of the normally vertically-moving handles of a vertical cutting can opener to which so many consumers have become accustomed.
Therefore, it is an object of the invention to provide a side-cutting can opener with vertically moving handles in which the handles move towards and away from one another vertically when starting the cutting operation and when removing the can opener after the cut has been completed.
Some prior side-cutting can openers have vertically moving handles, but are relatively complicated and expensive to manufacture.
Therefore, it is another object of the invention to provide a side-cutting can opener with vertically moving handles which is relatively simple, reliable, and inexpensive to manufacture.
In accordance with the present invention, the foregoing objectives are satisfied by providing a side-cutting can opener with handle levers which pivot vertically towards and away from one another, and a rotary cutter wheel which is normally in a retracted position, but is thrust outwardly to cut into the rim of the can when the handle levers are squeezed together. A drive wheel engages the rim and is rotated by means of a rotary drive handle to move the rim past the cutter wheel to cut the top off the can. Spreading the handle levers apart causes the cutting wheel to retract at the end of the cutting operation to release the cut-off top of the can.
Preferably, the cutter wheel is mounted on a carriage which has an angled cam surface. The carriage is mounted to slide in a guideway in one of the handle levers, and a cam projection is positioned on the other of the handle levers to contact the cam surface and drive the carriage into a position at which the cutter wheel cuts into the cam rim.
A set of return springs retracts the carriage when the handle levers are spread apart to disengage the can opener from the can.
The foregoing and other objects and advantages of the invention will be set forth in or apparent from the following description and drawings.
The can opener 10 shown in the drawings has an upper handle lever 12 and a lower handle lever 14 which are pivoted together by means of a pin 22 at one end of each lever.
The can opener has a drive handle 16 for rotating by hand a drive wheel 20 engaged with the rim of the can, and a guide bar 18 to rest on top of the can. The drive wheel moves the rim of the can past a cutting wheel 24 (see
As it is shown in
When the handles are apart, as shown in
When the handles are squeezed together to the position shown in
Referring now to
Similarly, the lower handle lever structure includes a metal body member 34 with a pair of rods 35 extending from one end and into holes 37 in a wooden handle grip 32. The front end of the body 34 has a boss 36 with a hole 38 which mates with holes 42 in the end 40 of the upper body member 30. The pin 22 is press-fitted into the holes 42 and 38 to pivot the two handle levers together.
The drive wheel 20 is mounted at the end of a metal shaft 52 with a knurled end portion 54. The shaft 52 fits through a hole 46 in the body member 30, and the knurled end 54 is press-fitted into a plastic insert member 66 with a hole (not shown). The insert 66 has a cross-shaped cross-section and fits into a mating hole 86 (
The drive handle support member 68 has vertically extending pins 74 and 76 which are fitted into holes like the hole 71 in wooden end pieces 70 and 72, thus completing the drive handle structure.
Returning to
The carriage 56 has a pair of vertical holes 59 and a pair of holes 78 and 80 (see
When the cutting wheel 24 is mounted on the shaft 62 and fitted into the carriage 56, and the springs 58 have been inserted into the holes 78 and 80, the carriage 56 is inserted into the guideway 44 with the springs facing in the direction shown in
A cover 64 (also see
Now referring particularly to
As it is seen in
When the projection 26 is moved downwardly when the handle levers 12 and 14 are moved apart, the springs 58 push the carriage 56 back towards the right as in shown in
The cutting wheel 24, as shown in
The drive wheel 20 has teeth 21 and additional teeth on the right inside surface of the drive wheel to grip the rim of the can and drive it past the cutting wheel 24 when the handle is rotated.
The can opener of the invention thus provides the extremely desirable vertical motion of the two handle levers when moving them towards and away from one another, and yet has a relatively simple construction. The drive wheel shaft advantageously moves in only one direction; that is, a rotary direction. The carriage 56 moves only in a straight line along the guideway under the driving force of the projection 26 which thus serves as a cam.
Although wooden grips or tips for the handle levers 12 and 14 and the drive handle 16 have been described, it should be understood that they have a variety of other constructions. For example, they can be made of all metal, or metal and plastic.
Preferably, the body members 30 and 34 are injection molded of metal. The shafts 22 and 62, and the cutting wheel 24 are made of hardened stainless steel.
The above description of the invention is intended to be illustrative and not limiting. Various changes or modifications in the embodiments described may occur to those skilled in the art. These can be made without departing from the spirit or scope of the invention.
Number | Date | Country | |
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60652486 | Feb 2005 | US |