The invention relates to a slicer, such as a food slicer. The device has a housing with a first push button which has a key surface for operation of an electrical switch, and with a second push button for operation of a lock that can be pushed in and out mechanically and blocks the first push button when the lock is in the pushed-in position, thus preventing operation of the electrical switch. The switch turns an electrical drive motor on and off. The electrical drive motor is used to drive a circular cutting blade.
German published patent application DE 26 01 269 A1 discloses a household slicing machine, which has a blade that is in the form of a circular disk and is driven by an electric drive motor such that it rotates, in the circuit of which drive motor a switch is provided, and which machine has a mechanical lock, which can be pushed in and out, and which prevents the switching contacts of the switch from being closed when it is in the pushed-in position. It is possible to provide for the lock to automatically assume its pushed-in position after each occasion on which the motor is switched off. The automatic movement of the lock back to its pushed-in position is normally achieved by a helical spring made of spring steel, which is inserted between the lock and the housing of the household slicing machine. The known design has the disadvantage that the additional helical spring must be installed in an elastic prestressed manner during the assembly process. Since both the switch and the lock must be coupled to one another during the assembly process, and the prestressed helical spring must be inserted between the lock and the housing at the same time, the assembly process is complicated and involves a large amount of effort.
It is accordingly an object of the invention to provide a food slicer and an electrical switch safety system which overcomes the above-mentioned disadvantages of the heretofore-known devices and methods of this general type and which provides for a food slicer having an electrical switch and a lock which can be pushed in and out, and which ensures reliable operation of the lock and of the switch. A further object is to provide a switch/lock safety configuration which can be installed in a simple manner. It is yet a further object of the invention to provide a food slicer that can be produced at low cost.
With the foregoing and other objects in view there is provided, in accordance with the invention, a slicer, comprising:
a housing, an electric drive motor for driving a cutting blade of the slicer;
a first push button mounted to said housing, said first push button having a key surface for operation of an electrical switch for selectively turning on and off said drive motor, having a stop surface, and defining an operating direction with an operating axis intersecting a centroid of said key surface;
a lock disposed to move between a locking position, in which said lock engages said stop surface at or in a vicinity of said operating axis and blocks said first push button for preventing an operation of said electrical switch, and an operating position in which said first push button is not blocked; and
a second push button mounted to said housing and operatively connected to said lock, for selectively moving said lock into said locking position for blocking said first push button.
The above objects are achieved by the novel food slicer. Since the lock acts very centrally under the key surface of the electrical switch, this ensures that the lock makes reliable contact. Any tilting of the switch if it is not operated centrally is not transmitted to the lock. It is therefore less easy for the lock to become hooked on the switch, and the lock can be operated reliably.
In one advantageous refinement, an elastic spring element which prestresses the push button against its operating direction can be integrally formed on the push button, simplifying the assembly of the food slicer. The fact that the elastic spring element is integrally formed on the push button also reduces the range of parts, and the food slicer can thus be produced at lower cost.
In one advantageous refinement, the first push button, which is used to operate the electrical switch, has a guide element, by means of which the first push button is guided in a guide seat on the housing between a switched-on position and a switched-off position, and a first end of the first elastic spring element is attached to the guide element, and a second end of the first elastic spring element is attached to the housing. This refinement allows the first push button to be prestressed against its operating direction in the housing without any additional components being required for prestressing. The first push button, which is designed to be sprung in this manner, can thus be attached to the housing in a simple manner. There is no need to insert a separate elastic spring element, and there is no longer any need for attachment by means of additional attachment means.
The first end of the first elastic spring element is preferably integrally formed on the guide element, and the second end of the first elastic spring element has a nipple which is held in a mating piece on the housing. The nipple and mating piece in this case form the attachment means, which fixes the first elastic spring element on the housing.
In one preferred refinement, the housing has a first holder into which the first push button can be inserted from the outside via a first opening in the housing, with the first push button having a latching means which engages behind the first opening and rests on an inner face of the housing. During assembly, the first push button, on which the first elastic spring element is integrally formed, is first of all inserted from the outside into the opening in the housing, until the latching means on the first push button have passed through the first opening, and have spread apart on the inside of the housing, where they come to rest. The first push button can thus be fixed to the housing simply by pushing it in.
It is particularly advantageous for the first holder to have a seating surface, which has the guide seat and the mating piece. With this embodiment, assembly is carried out by insertion of the guide element of the first push button into the guide seat on the housing. The first push button is pushed into the guide seat until the latching means on the first push button engage behind the opening and rest on the inside of the housing, such that they are fixed. At the same time, the nipple on the second end of the elastic spring element latches into the mating piece on the seating surface of the first holder. The elastic spring element is fixed to the housing by the nipple latching in the mating piece. This embodiment has the advantage that the assembly step of attachment of the first push button to the housing at the same time results in the elastic spring element being attached to the housing. The elastic spring element is prestressed by the first push button being pushed into the guide seat on the seating surface of the first holder.
The mating piece may be in the form of a cutout in the seating surface, of such a size that the first elastic spring element can be passed through the cutout from the outside, and such that its cross section is smaller than the cross section of the nipple. If the mating piece is designed to have suitable dimensions, the integral component comprising the first push button and the first elastic spring element can very easily be inserted into the housing from the outside via the opening, and can be attached to the first holder.
The guide seat and the mating piece may be directly integrally formed on the seating surface. This is particularly advantageous when the housing is composed of plastic and is produced using the injection-molding method. The seating surface, the guide seat and the mating piece may in this case be manufactured in one process, specifically during the injection molding of the housing. This has the advantage that it reduces the number of parts in the food slicer. The food slicer can thus be produced at low cost.
In one preferred refinement, a second elastic spring element, by means of which the second push button is prestressed into the pushed-in position, is also integrally formed on the second push button, in addition to the first push button. The second push button, which operates the lock which can be pushed in and out mechanically, may, in an analogous manner to the first push button, have an integrally formed second elastic spring element, by means of which the second push button is prestressed into the pushed-in position. The transmission for the solutions according to the invention for the first push button, which operates the electrical switch for the drive motor for the food slicer, can be applied in an analogous manner to the second push button, which operates the lock which can be pushed in and out mechanically. For this purpose, a first end section of the second elastic spring element may be integrally formed on the second push button, and a second end section may be supported on the housing.
In one advantageous refinement, the first end section of the second elastic spring element is integrally formed on the second push button, and a second end section is not supported on the housing, but is supported on the guide element of the first push button. The opposing bearing for the second end of the second elastic spring element is thus not arranged directly on the housing, but is located on the first push button, which is attached to the housing by means of the guide seat. This has the advantage that no additional opposing bearing for the second elastic spring element need be provided on the housing. Since the opposing bearing for the second elastic spring element is provided on the first push button, the housing can be designed in a simpler manner.
In one preferred refinement, the lock is in the form of a bolt, which is integrally formed on the second push button and by means of which the guide element for the first push button is blocked when the second push button is in the pushed-in position. The bolt in this case forms the lock which can be pushed in and out, and which is integrally formed directly on the second push button. The second push button and the lock which can be pushed in and out mechanically are thus in the form of a single part. This has the advantage that the number of parts is reduced further. In particular, assembly of the food slicer is also simplified.
In a further variant, the second push button is mounted in the housing such that it can pivot, and the lock is in the form of a lever which is integrally formed on the second push button and engages in a groove on the guide element when in the pushed-in position. This configuration allows the lock to be pushed in and out by means of a pivoting movement. The use of a lever which can pivot and which engages in a groove on the guide element of the first push button when it is in the pushed-in position allows the lock on the first push button to be released with little force being applied.
In one preferred refinement, the housing has a second holder, into which the second push button can be inserted from the inside via a second opening in the housing, and the second opening or the second push button has a step against which the second elastic spring element prestresses the second push button into the pushed-in position.
In one particularly advantageous refinement, the first push button and the second push button are produced as an integral plastic injection-molded part. The first push button and the second push button are in this case produced from the same plastic material. The integral production of the first push button with the second push button reduces the production costs, since there is no longer any need for two different injection-molding injection molds to produce the push button, and only a single mold is required. The second push button and the first push button can be separated from one another once they have been produced, and can be installed individually on the housing of the food slicer, or the first and the second push button can be installed jointly as an integral basic injection-molded part in the housing of the food slicer.
If the first opening on the housing has a larger cross section than the operating surface of the second push button, that end of the component which is produced integrally as a basic injection-molded part and has the first push button and the second push button which has the second push button can be inserted first of all during the assembly process through the first opening in the housing in advance, until the first push button is fixed on the housing. Once the first push button has been mounted on the housing, the second push button can be separated from or broken off the first push button, and can be inserted into the second holder from the inside via the second opening in the housing, until the second push button is fixed in the housing. This has the advantage that the first and second push buttons can be installed jointly on the housing, in one operation.
In a further advantageous refinement, that end of the guide element which is opposite the operating surface of the first push button is in the form of a bearing sleeve, and the second end section of the second spring element is in the form of a bearing journal. During the production of the first and of the second push button as an integral plastic injection-molded part, knock-out webs, which connect the first and the second push button, are then integrally formed between the bearing sleeve and the bearing journal. If this composite component is now inserted with the second push button in advance into the first opening in the housing, the first push button can first of all be latched to the housing. During the subsequent assembly step, the second push button is rotated about the bearing journal, until the knock-out webs between the bearing sleeve and the bearing journal break, and release the second push button from the first push button. The second push button can be pivoted and can be inserted from the inside into the second opening in the housing, with the second push button being attached to the housing. Despite the knock-out webs being broken, the second push button is connected to the first push button by means of the bearing journal, which is still guided in the bearing sleeve. The design of the first push button and of the second push button according to the invention considerably simplifies the assembly process, and the production costs are considerably reduced because the number of parts is reduced.
Other features which are considered as characteristic for the invention are set forth in the appended claims.
Although the invention is illustrated and described herein as embodied in a food slicer with a safety switch, it is nevertheless not intended to be limited to the details shown, since various modifications and structural changes may be made therein without departing from the spirit of the invention and within the scope and range of equivalents of the claims.
The construction and method of operation of the invention, however, together with additional objects and advantages thereof will be best understood from the following description of specific embodiments when read in connection with the accompanying drawings.
Referring now to the figures of the drawing in detail and first, particularly, to
The lock 7 is integrally formed on a second push button 6. The push button 6 also has a second elastic spring element 23. A first end section 24 of the second elastic spring element 23 is integrally formed on a lower face of the second push button 6.
Additional information concerning various specifics of a corresponding drive unit for a slicer and an exemplary household food slicer may be found, by way of example, in the commonly assigned, copending international applications PCT/EP03/01754 and PCT/EP03/01756, which are herewith incorporated by reference.
Number | Date | Country | Kind |
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102 08 491 | Feb 2002 | DE | national |
This is a continuing application, under 35 U.S.C. § 120, of copending international application No. PCT/EP03/01755, filed Feb. 20, 2003, which designated the United States; this application also claims the priority, under 35 U.S.C. § 119, of German patent application No. 102 08 491.2, filed Feb. 27, 2002; the prior applications are herewith incorporated by reference in their entirety.
Number | Name | Date | Kind |
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3704736 | Pratley | Dec 1972 | A |
4097705 | Harvell | Jun 1978 | A |
4499804 | Takeda | Feb 1985 | A |
5720096 | Dorsey | Feb 1998 | A |
6244153 | McInnes et al. | Jun 2001 | B1 |
6595444 | Schwelling | Jul 2003 | B2 |
Number | Date | Country |
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26 01 269 | Jul 1977 | DE |
27 33 706 | Feb 1979 | DE |
39 02 964 | Jul 1990 | DE |
199 60 267 | Jul 2000 | DE |
Number | Date | Country | |
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20050045010 A1 | Mar 2005 | US |
Number | Date | Country | |
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Parent | PCT/EP03/01755 | Feb 2003 | US |
Child | 10928221 | US |