The present invention relates to the field of kitchen utensils, and more specifically relates to a mandolin slicer kit assembly for slicing a food item, which allows for interchange of slicing plates of variable slicing teeth to achieve variable slicing patterns without the need of direct contact between a user and the slicing plates thereby preventing hands of the user from getting hurt.
It is well known that mandolin slicers are generally used to slice food items like potatoes and cucumbers etc. A chef may require variable slicing patterns when preparing food slices. For this purpose, mandolin slicers available in the prior art usually comprises different types of slicing plates for realizing different slicing patterns. However, the slicing plates may hurt the hands of the user as he has to directly contact with the slicing plates to achieve the interchange of the slicing plates.
For example, U.S. application No. US2007/0089577 discloses a mandolin slicer for slicing food items in variable thicknesses, which comprises a frame structure with two opposite side rails, a cutting blade mounted on a lower glide portion of the frame structure, and a slicing plate removably mounted on an upper glide portion of the frame structure between the two side rails. The removable slicing plate has a male portion to engage with a female portion such as an open hole arranged in a non-removable portion mounted on the frame structure, allowing for the interchange of the slicing plate with other types of removable slicing plates. But when it is needed to effect the interchange to provide different slicing patterns, the slicing plates may hurt the hands of the user because the user has to directly hold the slicing plates for interchange.
To avoid the direct contact with the slicing plates, U.S. application No. US2009/0255391 proposes a mandolin slicer comprising a frame structure with two opposite side rails, a cutting blade mounted on a lower glide portion of the frame structure, a slicing plate mounted on an upper glide portion of the frame structure between the two opposite side rails, and two arrays of slicing blades mounted on a selector slide which is movably mounted on the frame structure and below the slicing plate. The slicing plate has two sets of offset slots which are arranged in a front portion of the slicing plate. The user can manually adjust the selector slide to selectively pivot up the two arrays of slicing blades to protrude through the two sets of offset slots and above the surface of the slicing plate, so as to provide different patterns of arrangement of the slicing blades on the slicing plate. This thus enables different slicing patterns for food items, without the need to directly contact with the slicing blades so as to avoid the slicing blades to hurt the hands of the user. However, this mandolin slicer cannot provide variable slicing patterns for food items, due to the limitation of the arrangement of the only two arrays of slicing blades. Moreover, the structure of this mandolin slicer is very complicated and difficult to manufacture.
Thus, there is a need for a mandolin slicer kit assembly allowing for interchange of variable types of slicing plates without the need of direct contact between the hands of the user and the slicing plates.
An object of the present invention is to provide a mandolin slicer kit assembly for slicing an item which is flexible to change slicing plates to create variable slicing patterns of the item, and enables the user to implement the interchange without the need of directly contacting with the slicing plates, thereby avoiding the slicing plates to hurt the hands of the user.
The object of the present invention is achieved by providing a mandolin slicer comprising:
a main body having two opposite side panels;
a cutting blade mounted on the main body;
a slicing plate carrier mounted between the two side panels of the main body;
a plurality of slicing plates of different types, each of the slicing plates having a plurality of slicing teeth mounted on a top surface thereof and at least one recess formed on a bottom surface thereof;
an adapter plate having a leading portion, wherein said leading portion has at least one elastic rib for detachable engagement with the at least one recess of the slicing plate to form a slicing plate assembly, and said assembly detachably is mounted on the slicing plate carrier;
a slicing plate holder separate from the main body, said slicing plate holder having a plurality of receiving spaces for accommodating the plurality of slicing plates when they are detached from the adapter plate; and
a mechanism provided in the slicing plate holder for releasing one of the slicing plates from the respective receiving space into the adapter plate for the engagement so as to form the slicing plate assembly to be mounted on the slicing plate carrier.
In a preferred embodiment of the invention, the slicing plate carrier has a V-shaped front portion corresponding to the cutting blade in V-shape. Preferably, each of the slicing plates has a front portion which is sized and shaped such that at least one part of the front portion of the slicing plate is inserted into a space defined by angular sides of the V-shaped cutting blade.
Preferably, the slicing plate carrier is adjustable vertically to provide variable slice thickness for an item to be sliced.
In a preferred embodiment of the invention, the slicing plate carrier has at least one raised lip formed along a front edge of the top surface thereof, each of the slicing plates has at least one cut-away area along a bottom edge thereof which is positioned to correspond to the raised lip of the slicing plate carrier, and engagement of the raised lip with the cut-away area prevents the slicing plate from sliding forward on the slicing plate carrier.
In a preferred embodiment of the invention, the detachable mounting of the slicing plate assembly on the slicing plate carrier is implemented by a locking means comprising:
an actuator running through a window formed on the slicer plate carrier and having a receptacle and a compression spring, wherein the receptacle is secured on a bottom surface of the slicing plate carrier, and the compression spring has one end fixed on a bottom of the receptacle; and
a block element arranged in the receptacle and having a bottom surface fixed to the other end of the compression spring for allowing the block element to move up and down through the window, wherein the block element has a cam formed on one end thereof, and the cam is sized such that it protrudes beyond a top surface of the slicing plate carrier, thereby serving as a stop to prevent movement of the slicing plate assembly; downward movement of the block element enables the cam move down below the top surface of the slicing plate carrier to unlock the slicing plate assembly from the slicing plate carrier.
Preferably, the block element further comprises two legs extending from the other end thereof, and the cam abuts against an inner wall of the window of the slicing plate carrier, wherein the two legs are pivotally mounted on the bottom surface of the slicing plate carrier to enable pivotal movement of the block element, so that downward movement of the block allows the cam to disengage from the window and move down below the top surface of the slicing plate carrier to unlock the slicing plate assembly from the slicing plate carrier.
Preferably, the slicing plate assembly further comprises a button running through a window formed on the slicing plate assembly, and at least two elastic arms fixed to the button and secured on a bottom of the slicing plate assembly to provide elasticity of the button to move up and down; wherein downward movement of the button enables the downward movement of the block element to unlock the slicing plate assembly from the slicing plate carrier.
In a preferred embodiment of the invention, the slicing plate holder is provided as a multilayer structure. In this embodiment, the releasing mechanism in the slicing plate holder comprises:
a spring means with one end fixed to a bottom of the multilayer structure;
a post extending through all layers of the multilayer structure and having an end portion fixed to the other end of the spring means; and
a plurality of hook members extending laterally from the post each engagable with a slot formed on a bottom surface of the respective slicing plate;
wherein application of a pressure to the other end of the post enables the hook members to move downward so as to disengage the hook members from the slicing plates to release the slicing plates.
In a preferred embodiment of the invention, the adapter plate and the slicing plates are engaged such that the slicing plate assembly has a flat top surface.
Unlike the mandolin slicers available in the prior art, the mandolin slicer kit assembly according to the invention allows the user to change the desirable slicing plate by holding the adapter plate rather than the slicing plate per se, as the adapter plate is devised to removably engage with the slicing plate. Another feature of the invention is the slicing plate holder which is configured to provide the mechanism for locking the slicing plates in place and releasing the slicing plates into the adapter plate. This prevents the hands of the user from direct contact with the slicing teeth to effect the interchange of different slicing plates.
To have a better understanding of the invention reference is made to the following detailed description of the invention and embodiments thereof in conjunction with the following accompanying drawings:
While this invention is illustrated and described in preferred embodiments, the mandolin slicer kit assembly may be produced in many different configurations, sizes, forms and materials.
The main body 100 includes a handle 103 at a rear end thereof for ease of holding the mandolin slicer, a stand 105 which is pivotally mounted to the main body 100 such that the rear end of the main body 100 can be raised up in use, and a foot 104 at the other end of the main body 100. A holder assembly 106 is held between the two opposite side panels 102a and 102b. The holder assembly 106 comprises a needle to be inserted into the food item, such that the user can hold the holder assembly 106 to guide the food item along the two side panels 102a and 102b towards the cutting blade 200 so as to cut slices from the food item. The cutting blade 200 is mounted on a top surface of a glide section 101 of the main body 100 and has a cutting blade edge for cutting the food item. The cutting blade edge is V-shaped to ease the entrance of the cutting blade 200 into the item. These are not the essence of the invention and would be well known in the art, therefore will not be described in detail herein.
The novel feature of the invention lies in the provision of a slicing plate carrier 300 and slicing plates 600, 600′ and 600″. As illustrated, the slicing plate carrier 300 is mounted between the side panels 102a and 102b of the main body 100 and has a V-shaped front portion corresponding to the cutting blade 200 in V-shape. Referring to
The three slicing plates 600, 600′ and 600″ have the same dimension and structures except for the type of slicing teeth mounted on a respective top surface of the slicing plates. For the sake of clarity and convenience, the slicing plate 600 is taken herein as one example of the various slicing plates. It would be appreciated that the following description of the slicing plate 600 is applicable to the slicing plates 600′ and 600″.
Referring to
As shown in
A plurality of guiding notches 108 in parallel to the two side panels 102a and 102b of the main body 100 may be configured on a top surface of the rear portion 500a of the adapter plate 500 and on a top surface of the slicing plate 600 for adjusting the slicing direction of the food item towards the cutting blade 200.
Now turning to
On the opposite end of the raised lips 360a and 360b, there are formed two detents 310a and 310b (see
The slicing plate carrier 300 is adjustable vertically to provide variable slice thicknesses of the food item to be sliced, which is well known in the art. In this embodiment, an adjustment knob 107 is secured with a cam axle 109 in order to vertically adjust the slicing plate carrier 300, as illustrated in
Referring to
Referring to
Referring now to
As shown in
Now turning back to
In operation, the user holds the slicing plate assembly by grasping the adapter plate 500 and inserts the slicing plate 600 into the receiving space 710. The slicing plate 600 is positioned and secured in place after its lateral member 680 is fitted to the hook member 761. Afterwards, the user pulls back the adapter plate 500 to disengage the two elastic ribs 580a and 580b formed on the leading portion 500b thereof from the two recesses 666a and 666b formed on the slicing plate 600, at which time the adapter plate 500 and the slicing plate 600 are no longer secured together. Then the user further pulls the adapter plate 500 back to allow the leading portion 500b of the adapter plate 500 to come out of the channel 660 of the slicing plate 600 (see
When it is desired to take the slicing plate 600 out of the slicing plate holder 700, the user may grasp the adapter plate 500 and insert the leading portion 500b into the channel 660 of the slicing plate 600. After the engagement of the two elastic ribs 580a and 580b formed on the leading portion 500b of the adapter plate 500 with the two recesses 666a and 666b formed on the slicing plate 600, the two plates 500 and 600 are secured together to form the slicing plate assembly. Then, the user may press down the button 780 on the top of the slicing plate holder 700 to disengage the respective hook member 763 of the releasing mechanism from the lateral member 680, at which time the slicing plate assembly is no long constrained to the slicing plate holder 700. Now the user may grasp the adapter plate 500 to pull the whole slicing plate assembly back until the assembly comes out of the slicing plate holder 700, and subsequently hold and mount the assembly on the slicing plate carrier 300 for slicing operation as discussed above.
As can be seen, the user can implement the slicing operation, change and store the slicing plate without the need of direct contact with the slicing plate with the slicing teeth, thereby preventing the hands of the user from being hurted. The arrangement of the slicing plate holder 700 permits to store various types of slicing plates, providing the variety of the slicing patterns.
The invention thus provides a mandolin slicer kit assembly which allows for interchange of slicing plates of variable slicing teeth to achieve variable slicing patterns without the need of direct contact between the user and the slicing plates thereby preventing the hands of the user from getting hurted.
Although the nature of the present invention has been described in detail by the above preferred embodiments, the invention is not limited to these embodiments. Various amendments, modifications and alterations may be made to the invention without departing from the sprit and scope of the invention, but these amendments, modifications and alterations shall fall into the scope of the invention.
Number | Name | Date | Kind |
---|---|---|---|
2570046 | Burns | Oct 1951 | A |
2640347 | Majeski | Jun 1953 | A |
3771223 | Dawidowicz et al. | Nov 1973 | A |
4932641 | Thomas et al. | Jun 1990 | A |
7392969 | Chiu et al. | Jul 2008 | B2 |
7413078 | Fischer | Aug 2008 | B2 |
7694615 | DiPietro | Apr 2010 | B2 |
20100096532 | Greve | Apr 2010 | A1 |
20120180612 | Holcomb | Jul 2012 | A1 |
20120180616 | Tracy | Jul 2012 | A1 |
20130062300 | Drake | Mar 2013 | A1 |
20130266282 | Cote et al. | Oct 2013 | A1 |
Entry |
---|
SafeHands, Inc., Jaccard, mandolin slicer, Oct. 21, 2010. |
Number | Date | Country | |
---|---|---|---|
20140366699 A1 | Dec 2014 | US |