A vegetable cutter

By introducing a rigid fit between a sliding groove and a sliding stop in the vegetable cutter, combined with a limiting structure, the problem of low safety during the use of existing vegetable cutters is solved, and the stable sliding and quick assembly and disassembly of the pressure device are achieved, improving operational safety and convenience.

CN224330843UActive Publication Date: 2026-06-09TAIZHOU YIRUI IND DESIGN

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TAIZHOU YIRUI IND DESIGN
Filing Date
2025-06-13
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing vegetable cutters are prone to collisions between the hand guard and the handle during pushing and pulling, and there is a risk of the exposed blade coming into contact with the hand, resulting in low operational safety.

Method used

A vegetable cutter was designed. By setting a groove and a sliding part on the grating plate, the pressure plate slides through the groove to limit the sliding range. A limiting part and a limiting protrusion are set on the pressure plate to ensure that the pressure plate moves stably in the groove and avoids collision with the handle and contact with the exposed grating blade. At the same time, a quick disassembly structure is provided to facilitate the replacement of grating plates of different specifications.

Benefits of technology

It achieves stable sliding of the pressure plate, avoids the risk of collision with the handle and contact with the exposed wiping blade, improves operational safety, and enhances the stability and convenience of the wiping process, making it easy to quickly replace the wiping plate.

✦ Generated by Eureka AI based on patent content.

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Abstract

This technical solution belongs to the field of vegetable cutter technology, specifically relating to a vegetable cutter including a grating plate with a handle at one end and several grating blades distributed on the grating plate; a pressing device slidably disposed on the grating plate, used to press and drive the food through the grating blades to grate it into strips; the grating plate has a sliding groove, the length of which corresponds to the sliding direction of the pressing device; the pressing device has a sliding stop part, which is fitted with the sliding groove to form a sliding fit; the sliding groove and the sliding stop part rigidly fit together to constrain the movement trajectory and range of the pressing device; the sliding stop part moves along the sliding groove and abuts against the opposite side walls of the groove, stopping its movement by abutting and limiting; the sliding range of the pressing device is limited to the length of the sliding groove, avoiding collision between the pressing device and the handle during pushing and pulling, ensuring precise and controllable grating stroke; and during the reciprocating movement of the pressing device, the pressing device always covers the grating blades, effectively preventing the grating blades from being exposed, thereby avoiding the risk of the operator accidentally coming into contact with the sharp grating blades and being cut, and improving operational safety.
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Description

Technical Field

[0001] This technical solution relates to the field of vegetable cutter technology, and specifically refers to a vegetable cutter. Background Technology

[0002] A vegetable slicer is a kitchen tool used to efficiently and safely replace hand-grinding of ingredients. It usually comes with a variety of interchangeable blades or molds and can quickly cut vegetables, fruits, etc. into uniform slices, shreds, strips, cubes, or specific patterns, aiming to save food preparation time and reduce the risk of cuts.

[0003] For example, Chinese patent CN206029980U discloses a combined vegetable shredding and grating device, including a shredder and a hand guard used in conjunction with the shredder. The shredder includes a grating plate, an operating cavity, and a handle fixed to the grating plate. The shredder also includes at least three sets of grating blades. The grating plate is also provided with at least one storage cavity for storing the grating blades. The vegetables are placed in the storage slot, and then the hand guard is connected to the plate. One hand holds the handle, tilts the plate against the table, places the plate under the plate, and the other hand holds the hand guard and slides it up and down along the plate. The vegetables can then be shredded or sliced ​​and fall into the plate.

[0004] During use, the aforementioned grating and grating device requires holding the handle. When operating the grater, one hand holds the hand guard and pushes and pulls the grating plate back and forth, while the other hand holds the handle to firmly support the grating plate. During this back-and-forth pushing and pulling process, the edge of the hand guard near the operator's body is very likely to collide with the hand holding the handle and cause injury. In addition, the exposed cutter is likely to come into contact with the hand holding the hand guard, posing a high operational risk and low operational safety, which needs to be improved. Summary of the Invention

[0005] This technical solution addresses the issue of low operational safety caused by the hand guard and handle colliding during pushing and pulling of a vegetable grater, posing a risk of hand contact with the grating blade.

[0006] The purpose of this technical solution is achieved as follows:

[0007] A vegetable cutter includes a grating plate with a handle at one end, and a plurality of grating blades are distributed on the grating plate.

[0008] A pressure device is slidably disposed on the wiping plate. The pressure device is used to press and drive the food to move. When the food passes through the wiping blade, it is wiped into strips.

[0009] The wiping plate has a sliding groove, the length of which corresponds to the sliding direction of the pressure device. The pressure device has a corresponding sliding part, which is fitted into the sliding groove to form a sliding fit. The pressure device moves along the length of the sliding groove through the sliding part to limit the sliding range.

[0010] Through the above technical solution, when a vegetable cutter is in normal use, the grating plate is placed on an open basket frame, and the pressure plate is embedded in the groove of the grating plate through the sliding part to form a linear sliding pair. The user holds the pressure plate and pushes the food back and forth along the direction of the groove. When the food passes through the grating blade on the grating plate, it is grated into strips, and the processed food strips fall into the inner cavity. The rigid cooperation between the groove and the sliding part constrains the movement trajectory and range of the pressure plate. The sliding part can move along the groove and abut against the opposite side walls of the groove. It stops further movement by abutting and limiting the sliding range of the pressure plate. The length of the groove is the maximum movement range of the pressure plate. This avoids the risk of the pressure plate colliding with the handle during the push and pull process, ensures that the grating stroke is accurate and controllable, and the pressure plate always covers the grating blade during the entire reciprocating movement of the pressure plate, effectively avoiding the exposure of the grating blade. This avoids the risk of the operator accidentally coming into contact with the sharp grating blade and being cut, thus improving the safety of operation.

[0011] Preferably, the pressure feeder includes:

[0012] A pressure seat is slidably disposed on the wiping plate. The pressure seat has a material cavity. The pressure seat has limiting parts on both sides along its sliding direction. The limiting parts on both sides cooperate and engage with the wiping plate. One of the limiting parts is provided with the sliding part.

[0013] A pressure cap, which is movably sleeved on the upper part of the pressure seat;

[0014] A pressing element is slidably disposed on the pressure cover. The sliding direction of the pressing element is perpendicular to the sliding direction of the pressure seat. The pressing end of the lower part of the pressing element extends into the material cavity. The pressing end of the pressing element is provided with several positioning serrations.

[0015] With the above technical solution, during operation, the pressure cap with the pressing component can be removed from the pressing base, thereby opening the material chamber to allow the food to be placed in (the food falls onto the wiping plate). Then, the pressure cap and the pressing component are reinstalled. After the pressing component contacts the food, it will move upward to avoid it due to the force. Based on the vertical sliding connection of the pressing component to the pressure cap, the pressing component is pressed down by hand, and the positioning teeth at the pressing end of the pressing component penetrate the food. The teeth can effectively inhibit the food from shifting and slipping. The upper end of the wiping plate is engaged between the limiting parts on both sides. The limiting parts on both sides cooperate to form an abutment with the opposite sides of the wiping plate, limiting the lateral swing of the pressing base relative to the wiping plate and improving the stability of the sliding trajectory of the pressing base. Pushing and pulling the pressing device drives the food to move back and forth for wiping. The vertical movement characteristic of the pressing component can adapt to the thickness of the food. This design does not require direct contact with the food by hand and does not require frequent adjustment of the food position, improving operational safety and enhancing the stability and uniformity of the food during the wiping process.

[0016] One of the limiting parts is equipped with a sliding part. By combining the embedded design of the single-sided sliding part with the tilting disassembly action, the pressure seat can be quickly assembled, optimizing assembly efficiency. When disassembling, it is only necessary to tilt and lift the pressure seat on one side, lift the limiting part on the other side that does not have a sliding part, and move the sliding part in the direction of disengaging from the slide groove to quickly remove it, improving the convenience of operation.

[0017] Preferably, each of the limiting parts is provided with the sliding part, and each of the wiping plates is provided with a sliding groove on both sides along the sliding direction of the pressure device, with each sliding groove on both sides corresponding to one of the two sliding parts.

[0018] With the above technical solution, both sides of the limiting part are equipped with a sliding part. During assembly, the sliding parts on both sides can be synchronously embedded into the corresponding slide groove by means of the elastic deformation of the limiting part material. During disassembly, the limiting parts on both sides are lifted up at the same time so that their elastic deformation avoids the sliding part, and the sliding part can be completely separated from the slide groove. The symmetrical fitting structure of the double sliding part and the double slide groove further eliminates the horizontal lateral offset of the pressure seat and improves the stability of the sliding process.

[0019] Preferably, the pressing component includes a pressing handle one and a pressing handle two. The pressing handle one is disposed on the pressure cover. The pressure cover has a through hole for the pressing handle one to pass through. The end of the pressing handle one has a protruding pressure plate portion. After the pressure plate portion passes through the through hole, it abuts against the upper end face of the pressure cover. The pressing handle two is fitted with the pressing handle one.

[0020] The lower part of the second pressing handle has a pressure plate, and the lower end face of the pressure plate is provided with the positioning teeth. The upper part of the second pressing handle has an installation hole, and the side wall of the pressure plate also has a snap-fit ​​hole, which connects the installation hole to the outside. The first pressing handle has a protruding snap-fit ​​part, which has a guide surface. The guide surface is inclined downward in the direction away from the pressure plate. When the lower end of the pressing handle is inserted into the installation hole, the snap-fit ​​part is guided by the guide surface to fit into the snap-fit ​​hole.

[0021] Through the above technical solution, the first pressing handle is vertically inserted into the through hole of the cap, and the pressure plate at its top protrudes and abuts against the upper surface of the cap to achieve axial positioning; the second pressing handle is provided with a pressure plate at its lower part, and the lower end surface of the plate is integrated with positioning teeth. During assembly, the snap-fit ​​part at the lower end of the pressing handle is inserted into the mounting hole. Its design with an inclined guide surface can automatically guide the snap-fit ​​part to slide into the snap-fit ​​hole, realizing the quick locking of the two handles. The pressure plate and the pressure plate form a bidirectional constraint, which together restricts the overall upward and downward sliding stroke of the pressing component in the cap. While maintaining the anti-slip and anti-deviation function of the food, it improves the efficiency of disassembly and assembly and the convenience of maintenance.

[0022] Preferably, the wiping plate has outer edges on both sides, the outer edges protrude from the wiping plate, the outer edges are provided with the sliding groove, the lower end face of the pressure seat protrudes with a limiting protrusion, the limiting protrusion is provided one-to-one with the limiting part, and the span distance between the limiting protrusion and the corresponding limiting part is adapted to the width of the outer edge for the outer edge to engage.

[0023] Through the above technical solution, the limiting protrusion and the limiting part cooperate, and the outer edge is embedded in the space between the limiting protrusion and the limiting part. The double limiting structure forms a clamping effect. Both the limiting protrusion and the limiting part can abut against the opposite side walls of the edge for limiting, further reducing the horizontal movement of the pressure seat and improving stability.

[0024] Preferably, the span between the sliding part and the bottom of the pressure seat is adapted to the thickness between the upper surface of the outer edge and the groove.

[0025] With the above technical solution, during assembly, the gap between the limiting protrusion and the limiting part is embedded in the outer edge. The limiting protrusion and the limiting part abut against the opposite side walls of the outer edge, forming a rigid clamping effect through bidirectional contact, reducing the swing gap. This double limiting structure reduces vertical movement and improves the stability of the pressure seat sliding.

[0026] Preferably, it also includes a material box, which has an inner cavity for storing shredded ingredients. The shredder is installed on the upper end of the material box and covers the opening of the inner cavity. The shredder has an assembly cavity, one side of which is connected to the upper end surface of the shredder and has a shredding opening, and the other side is connected to the inner cavity.

[0027] The wiping plate is detachably connected to a wiping blade. The assembly cavity is connected to the side wall of the wiping plate and has an assembly opening. The wiping blade is installed in the assembly cavity through the assembly opening. The wiping blade has the wiping edge, and the wiping edge faces the wiping opening.

[0028] Through the above technical solution, the wiping plate can be placed on the material box, and the wiping plate can be assembled without obstacles through the side assembly port. The wiping plate can be quickly switched without tools, and the wiping blade is always aligned with the wiping opening to ensure the effectiveness of the wiping operation. The efficient switching of the wiping plate (including different models of wiping blades) improves the efficiency of blade replacement and the convenience of operation.

[0029] Since the upper and lower end faces of the assembly cavity are connected, after the shaving plate is installed, the food passing by is shaving into strips by the shaving blade. The strips of food can fall into the inner cavity, and the food can be collected by removing the shaving plate, which is convenient to use.

[0030] Preferably, the wiping plates are provided in multiple ways, each wiping plate having a different wiping blade. Each wiping plate also has at least one storage cavity, which is connected to a storage opening formed on the side wall of the wiping plate. The wiping plates are stacked in the storage cavity through the storage opening.

[0031] The above technical solution utilizes a side-opening storage cavity to achieve a compact stacking of spare knives and store multiple shaving plates. This allows for easy replacement of shaving plates of different sizes to obtain finished food products of different sizes, such as shredded, striped, and columnar shapes, thereby improving the space utilization efficiency and portability of the knife module.

[0032] Preferably, one end of the wiping plate has a handle and the other end has a locking part. The wiping plate has locking holes on the opposite side of the receiving port and the assembly port, and the locking part is fitted into the locking hole.

[0033] The above technical solution includes a handle at the operating end, providing an operating fulcrum for easy manual pulling; the wiping plate has locking slots on opposite sides of the storage port and assembly port. When the wiping plate is pushed laterally into the corresponding cavity through the storage port / assembly port, the locking part of each wiping plate automatically fits into the corresponding locking slot to form a precise positioning constraint. Combined with the self-locking fitting of the locking part and the locking slot, the wiping plate can be quickly positioned in storage, improving replacement efficiency.

[0034] Preferably, the wiping plate has snap-fit ​​grooves on both sides, and the receiving cavity and the assembly cavity have snap-fit ​​protrusions on their opposite sidewalls along the installation direction of the wiping plate, and the snap-fit ​​protrusions are fitted into the snap-fit ​​grooves one by one.

[0035] Through the above technical solution, the snap-fit ​​protrusions are matched one-to-one with the snap-fit ​​grooves, controlling the axial position of the wiping plate in the cavity, improving the stable storage during storage, and improving the vibration resistance stability during operation.

[0036] The key and beneficial technical effects of this technical solution compared to existing technologies are:

[0037] 1. This technical solution constrains the movement trajectory and range of the pressure device by rigidly cooperating with the sliding part and the sliding groove. By using the length of the sliding groove and the side wall abutment limit, the wiping stroke is precisely controlled, so that the pressure device always covers the wiping blade during reciprocating movement, avoiding the risk of the wiping blade cutting the hand and the risk of the pressure device colliding with the hand, thus improving operational safety.

[0038] 2. This technical solution uses a side-opening storage cavity to compactly stack and store multiple shaving plates of different sizes, which facilitates quick replacement, obtains diverse shaving effects, and improves portability.

[0039] 3. In this technical solution, the limiting protrusion and the limiting part protrude from the lower end face of the pressure seat cooperate with each other, and the outer edge is embedded in the space between the limiting protrusion and the limiting part. The double limiting structure forms a clamping effect. Both the limiting protrusion and the limiting part can abut against the opposite side walls of the edge for limiting, thereby improving the stability of the pressure seat movement.

[0040] 4. This technical solution has a sliding part provided on one side of the limiting part. The single-sided embedded design, combined with the tilting disassembly action, enables quick disassembly and assembly of the pressure seat, simplifying the operation process. Attached Figure Description

[0041] Figure 1 This is a schematic diagram of the overall structure of Example 1;

[0042] Figure 2 As in Example 1 Figure 1 Another perspective illustration;

[0043] Figure 3 This is one of the partial cross-sectional schematic diagrams of Example 1;

[0044] Figure 4 This is the second partial cross-sectional view of Example 1;

[0045] Figure 5 As in Example 1 Figure 4 Enlarged view of a portion;

[0046] Figure 6 This is a schematic diagram of a partial explosion in Example 1;

[0047] Figure 7 This is a partial exploded view of the pressure device in Example 1;

[0048] Figure 8 As in Example 1 Figure 7 Another perspective illustration;

[0049] Figure 9 This is a partial exploded view of the wiping plate and the shaving plate in Example 1;

[0050] Figure 10 As in Example 1 Figure 9 Another perspective illustration.

[0051] Reference numerals: 1. Material box; 2. Inner cavity; 3. Wiping plate; 4. Wiping and cutting plate; 5. Pressure device; 51. Pressure seat; 52. Pressure cover; 53. Pressing component; 531. Pressing handle one; 532. Pressing handle two; 6. Handle; 7. Sliding groove; 8. Sliding part; 9. Positioning tooth; 10. Limiting part; 11. Through hole; 12. Pressure plate; 13. Mounting hole; 14. Snap-fit ​​hole; 15. Snap-fit ​​part; 16. Guide surface; 17. Pressure plate; 18. Outer edge; 19. Limiting protrusion; 20. Assembly cavity; 21. Assembly opening; 22. Wiping blade; 23. Storage cavity; 24. Storage opening; 25. Handle; 26. Snap-fit ​​part; 27. Snap-fit ​​opening; 28. Snap-fit ​​groove; 29. ​​Snap-fit ​​protrusion; 30. Wiping and cutting edge; 31. Material cavity. Detailed Implementation

[0052] The specific implementation of this technical solution will be further described in detail below with reference to the accompanying drawings.

[0053] Example 1:

[0054] See Figure 1 and Figure 6 A vegetable cutter includes a material box 1, a grating plate 3, a grating shaving plate 4, and a pressing device 5. The lower end of the material box 1 is flat and can be stably placed on a horizontal surface. The upper part of the material box 1 is inclined. The material box 1 has an inner cavity 2, the volume of which is adapted to the internal space of the material box 1. The inner cavity 2 has an opening at the upper end of the material box 1, through which the grated food can fall into the inner cavity 2 for storage.

[0055] The wiping plate 3 is a long strip and is located above the material box 1. Because its size is larger than the upper contour of the material box 1, the wiping plate 3 can cover and abut against the upper end of the material box 1 to achieve installation and positioning. At this time, the wiping plate 3 covers the opening of the inner cavity 2. This installation method is quick and convenient for quick disassembly of the wiping plate 3 to take out the ingredients. The wiping plate 3 has a handle 6, which is set at the end of the wiping plate 3. In this embodiment, the wiping plate 3 is shown in the case of tilting after installation. After installation, the handle 6 is at the higher end of the wiping plate 3. The pressure device 5 is located above the wiping plate 3. The pressure device 5 is slidably connected to the wiping plate 3, and the sliding direction of the pressure device 5 is set along the length direction of the wiping plate 3.

[0056] See Figure 3 , Figure 7 and Figure 8 The pressure device 5 includes a pressure seat 51, a pressure cover 52, and a pressing element 53. The pressure seat 51 has a material cavity 31, in which the food to be processed can be clamped. A limiting part 10 protrudes from the lower end face of the pressure seat 51. Two limiting parts 10 are provided, located on opposite sides of the pressure seat 51 along the sliding direction of the pressure device 5. In addition, two sets of limiting protrusions 19 protrude from the lower end face of the pressure seat 51. The two sets of limiting protrusions 19 correspond one-to-one with the two limiting parts 10. The span distance between each set of limiting protrusions 19 and the corresponding limiting part 10 is β. The wiping plate 3 extends along its length... Both sides of the grating plate 3 have outer edges 18 formed, which protrude from the upper end of the grating plate 3. The protrusion of the outer edges 18 on both sides makes the middle of the grating plate 3 recessed, and the outer edges 18 on both sides form a shielding effect on the food. When the pressing seat 51 is installed on the grating plate 3, the span distance β between each side limiting protrusion 19 and the corresponding limiting part 10 is adapted to the width of the outer edge 18 on that side. This allows the outer edge 18 to be embedded between the limiting protrusion 19 and the limiting part 10, restricting the sway of the pressing seat 51 in the direction perpendicular to the sliding direction (i.e., the left and right direction), and improving the stability of the pressing process.

[0057] The pressure cap 52 is fitted onto the upper part of the pressure base 51, and a through hole 11 extending to the material cavity 31 is provided in the middle of the middle. The through hole 11 is rectangular in shape. The pressing member 53 includes a pressing handle 531 and a pressing handle 532. The end of the pressing handle 531 has a pressing plate portion 12 protruding from it. The pressing plate portion 12 is umbrella-shaped. After the lower end of the pressing handle 531 passes through the through hole 11 of the pressure cap 52, the pressing plate portion 12 can abut against the top surface of the pressure cap 52 away from the upper end surface of the pressure base 51, thereby restricting the pressing handle 531 from moving further down.

[0058] The second pressing handle 532 has a mounting hole 13 near its upper end (where it connects with the first pressing handle 531). The lower end of the first pressing handle 531 can be inserted into the mounting hole 13. The side wall of the inserted end of the first pressing handle 531 has a protruding locking part 15. One side wall of the locking part 15 has an inclined guide surface 16, and the other side wall is a plane. The inclined direction of the guide surface 16 is inclined downward away from the pressure plate part 12. The side wall of the second pressing handle 532 has a locking hole 14 corresponding to the position of the locking part 15. When the lower end of the first pressing handle 531 is inserted into the mounting hole 13, the locking part 15 is guided to deform by its guide surface 16 and finally fits into the locking hole 14. At this time, its plane abuts against the wall of the locking hole 14, forming a vertical limit and preventing the locking part 15 from coming out, thereby achieving reliable fixation between the first pressing handle 531 and the second pressing handle 532.

[0059] The lower part of the pressing handle 532 has a pressing plate 17, which is disc-shaped. The cross-sectional area of ​​the pressing plate 17 is smaller than the channel cross-section of the material cavity 31. The pressing plate 17 can move within the material cavity 31. The pressing plate 17 is provided with several positioning teeth 9, which are located on the lower end face of the pressing plate 17 away from the mounting hole 13. The positioning teeth 9 are spike-shaped and can penetrate the food to further enhance the restriction effect on the movement of the food.

[0060] See Figure 2 , Figure 3 and Figure 6 The pressure base 51 is provided with a sliding part 8, which is located at the lower end of the limiting part 10 on one side and is bent to the lower inner side of the pressure base 51 relative to the limiting part 10, so that there is a gap between the limiting part 10 and the lower end face of the pressure base 51, and the span of the gap is α.

[0061] The wiping plate 3 has a sliding groove 7, which is located on one side wall of the wiping plate 3. The length direction of the sliding groove 7 corresponds to the sliding direction of the pressure device 5. The sliding part 8 is embedded in the sliding groove 7, and the length of the sliding part 8 is less than the length of the sliding groove 7. When the pressure device 5 slides, the sliding part 8 moves back and forth along the sliding groove 7 accordingly. The sliding part 8 stops sliding by contacting the opposite side walls of the sliding groove 7. The length of the sliding groove 7 is the sliding range of the pressure device 5. When the side of the pressure seat 51 with the sliding part 8 is aligned with the sliding groove 7, the thickness between the upper inner wall of the sliding groove 7 and the upper end face of the outer edge 18 is adapted to α. This allows the outer edge 18 at this location to optimize assembly efficiency through the embedded design of the single-sided sliding part 8. When disassembling, it is only necessary to tilt and lift the pressure seat 51 on one side and lift the limiting part 10 on the other side without the sliding part 8. The sliding part 8 can be quickly removed by moving in the direction of disengaging from the sliding groove 7. This tilted disassembly improves the convenience of operation.

[0062] See Figure 9 and Figure 10 There are several grating plates 4. In this embodiment, five grating plates 4 are shown. Each grating plate 4 has a grating blade 22 for grating food ingredients. The blades are distributed on the corresponding grating plate 4. Each grating plate 4 has a handle 25 at one end to provide an operating fulcrum.

[0063] The grating plate 3 is provided with an assembly cavity 20, which is located off-center from the middle of the grating plate 3. The assembly cavity 20 is connected to the upper end face of the grating plate 3 with a grating opening 30, and is connected to the side wall of the slide groove 7 with an assembly opening 21. A grating plate 4 is installed into the assembly cavity 20 through the assembly opening 21. At this time, the grating blade 22 of the grating plate 4 faces the grating opening 30. When the pressure feeder 5 presses the food through the grating opening 30, the grating blade 22 can contact the food. Different grating plates 4 have different types of grating blades 22. By selecting a specific grating plate 4, the food can be grated into filaments, columns, strips, serrated edges or other characteristic shapes.

[0064] The wiping plate 3 also has a storage cavity 23. There are two storage cavities 23, which are located on opposite sides of the assembly cavity 20. The storage cavity 23 has a storage opening 24 formed on the side wall of the wiping plate 3. The storage opening 24 is located in the slide groove 7. The wiping plate 4 is installed into the storage cavity 23 through the storage opening 24. Each storage cavity 23 can accommodate two wiping plates 4 stacked together, storing multiple wiping plates 4, so as to facilitate the replacement of wiping plates 4 of different specifications at any time.

[0065] Each wiping plate 4 has a locking groove 28 on both sides. The opposite sidewalls of the storage cavity 23 and the assembly cavity 20 along the installation direction of the wiping plate 4 have locking protrusions 29. Each wiping plate 4 also has a locking part 26, which is located at the other end of the corresponding wiping plate 4 away from the handle part 25. The wiping plate 3 has locking holes 27 on the opposite sides of the storage port 24 and the assembly port 21. When the wiping plate 4 is pushed laterally into the corresponding cavity through the storage port 24 / assembly port 21, the locking grooves 28 on both sides will be embedded into the locking protrusions 29 on the cavity wall. When pushed to the end, the locking part 26 of each wiping plate 4 automatically fits into the corresponding locking hole 27, forming a precise positioning constraint. Combined with the self-locking fitting of the locking part 26 and the locking hole 27, the wiping plate 4 can be quickly positioned in storage, improving the replacement efficiency.

[0066] The specific work process of this plan is as follows:

[0067] This technical solution uses the sliding part 8 of the pressure device 5 to be embedded in the groove 7 of the wiping plate 3 to form a linear sliding pair. The user holds the pressure device 5 and pushes the food back and forth along the direction of the groove 7. The food is wiped by the wiping plate 4 and wiped into strips that fall into the inner cavity 2. The rigid cooperation between the groove 7 and the sliding part 8 constrains the movement trajectory and range of the pressure device 5. The sliding part 8 abuts against the opposite side walls of the groove 7 along the moving direction in the groove 7 and stops further movement by abutting and limiting. The length of the groove 7 is the maximum movement range of the pressure device 5, avoiding the risk of collision between the pressure device 5 and the handle 6 during the pushing and pulling process, ensuring that the wiping stroke is accurate and controllable. In addition, during the reciprocating movement of the pressure device 5, the pressure device 5 always covers the wiping blade, effectively preventing the wiping blade 22 from being exposed. This avoids the risk of the operator accidentally coming into contact with the sharp wiping blade 22 and being cut, thus improving the safety of operation.

[0068] Example 2:

[0069] A vegetable cutter, differing from Embodiment 1, has a sliding part 8 on each of the limiting parts 10, and two sliding grooves 7 are provided on opposite sides of the wiping plate 3. The two sliding grooves 7 correspond one-to-one with the two sliding parts 8. During assembly, the sliding parts 8 on both sides can be simultaneously embedded into the corresponding sliding grooves 7 by means of the elastic deformation of the material of the limiting parts 10. During disassembly, the limiting parts 10 on both sides are lifted simultaneously to allow their elastic deformation to avoid the sliding parts 7, so that the sliding parts 8 can be completely separated from the sliding grooves 7. The symmetrical fitting structure of the double sliding parts 8 and the double sliding grooves 7 improves the sliding stability.

[0070] The foregoing has shown and described the basic principles, main features, and advantages of this technical solution. Those skilled in the art should understand that this technical solution is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this technical solution. Various changes and modifications can be made to this technical solution without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed technical solution. The scope of protection of this technical solution is defined by the appended claims and their equivalents.

Claims

1. A vegetable cutter, characterized in that, include: The wiping plate (3) has a handle (6) at its end, and a plurality of wiping blades (22) are distributed on the wiping plate (3); The pressure device (5) is slidably disposed on the wiping plate (3). The pressure device (5) is used to press and drive the food to move. When the food passes through the wiping blade (22), it is wiped into strips. The wiping plate (3) is provided with a sliding groove (7), the length direction of which corresponds to the sliding direction of the pressure device (5). The pressure device (5) is provided with a sliding part (8), which is fitted with the sliding groove (7) to form a sliding fit. The pressure device (5) moves along the length direction of the sliding groove (7) through the sliding part (8) to limit the sliding range.

2. A vegetable cutter according to claim 1, characterized in that: The pressure feeder (5) includes: A pressure seat (51) is slidably disposed on the wiping plate (3). The pressure seat (51) has a material cavity (31). The pressure seat (51) has a limiting part (10) on both sides along its sliding direction. The limiting parts (10) on both sides cooperate and engage with the wiping plate (3). The sliding part (8) is provided on one limiting part (10). A pressure cap (52) is movably sleeved on the upper part of the pressure seat (51); A pressing member (53) is slidably disposed on the pressure cover (52). The sliding direction of the pressing member (53) is perpendicular to the sliding direction of the pressure seat (51). The pressing end of the lower part of the pressing member (53) extends into the material cavity (31). The pressing end of the pressing member (53) is provided with a number of positioning serrations (9).

3. A vegetable cutter according to claim 2, characterized in that: The limiting part (10) is provided with the sliding part (8), and the wiping plate (3) is provided with sliding grooves (7) on both sides along the sliding direction of the pressure device (5). The two sliding grooves (7) on both sides correspond to the two sliding parts (8).

4. A vegetable cutter according to claim 2, characterized in that: The pressing component (53) includes a pressing handle one (531) and a pressing handle two (532). The pressing handle one (531) is disposed on the pressing cover (52). The pressing cover (52) has a through hole (11) for the pressing handle one (531) to pass through. The end of the pressing handle one (531) has a pressing plate part (12) protruding out. After the pressing plate part (12) passes through the through hole (11), it abuts against the upper end face of the pressing cover (52). The pressing handle two (532) is fitted with the pressing handle one (531). The lower part of the second pressing handle (532) has a pressing plate (17), and the lower end face of the pressing plate (17) is provided with the positioning tooth (9). The upper part of the second pressing handle (532) is provided with a mounting hole (13), and the side wall of the second pressing handle (532) is also provided with a snap-fit ​​hole (14). The snap-fit ​​hole (14) connects the mounting hole (13) to the outside. The first pressing handle (531) has a protruding snap-fit ​​part (15). The snap-fit ​​part (15) has a guide surface (16). The guide surface (16) is inclined downward in a direction away from the pressing plate part (12). When the lower end of the first pressing handle (531) is inserted into the mounting hole (13), the snap-fit ​​part (15) is guided by the guide surface (16) to fit into the snap-fit ​​hole (14).

5. A vegetable cutter according to claim 2, characterized in that: The wiping plate (3) has an outer edge (18) on both sides. The outer edge (18) protrudes from the wiping plate. The outer edge (18) has the groove (7). The lower end face of the pressure seat (51) has a limiting protrusion (19). The limiting protrusion (19) corresponds to the limiting part (10). The span between the limiting protrusion (19) and the corresponding limiting part (10) is adapted to the width of the outer edge (18) for the outer edge (18) to engage.

6. A vegetable cutter according to claim 5, characterized in that: The span between the sliding part (8) and the bottom of the pressure seat (51) is adapted to the thickness between the upper surface of the outer edge (18) and the groove (7).

7. A vegetable cutter according to claim 1, characterized in that: It also includes a material box (1), which has an inner cavity (2) for storing grated ingredients. The grating plate (3) is installed on the upper end of the material box (1) and covers the opening of the inner cavity (2). The grating plate (3) has an assembly cavity (20), one side of which is connected to the upper end surface of the grating plate (3) which has a grating opening (30), and the other side is connected to the inner cavity. The wiping plate (3) is detachably connected to the wiping plate (4). The assembly cavity (20) is connected to the side wall of the wiping plate (3) and an assembly port (21) is provided. The wiping plate (4) is installed in the assembly cavity (20) through the assembly port (21). The wiping plate (4) has the wiping blade (22) and the wiping blade (22) faces the wiping port (30).

8. A vegetable cutter according to claim 7, characterized in that: The wiping plate (4) is provided in multiple ways, and each wiping plate (4) has a different wiping blade (22). The wiping plate (3) also has at least one storage cavity (23). The storage cavity (23) is connected to a storage opening (24) formed on the side wall of the wiping plate (3). The wiping plates (4) are stacked in the storage cavity (23) through the storage opening (24).

9. A vegetable cutter according to claim 8, characterized in that: The wiping plate (4) has a handle (25) at one end and a locking part (26) at the other end. The wiping plate (3) has a locking hole (27) on the opposite side of the receiving port (24) and the assembly port (21). The locking part (26) is fitted with the locking hole (27).

10. A vegetable cutter according to claim 8, characterized in that: The wiping plate (4) has snap-fit ​​grooves (28) on both sides. The receiving cavity (23) and the assembly cavity (20) have snap-fit ​​protrusions (29) on their opposite sidewalls along the installation direction of the wiping plate (4). The snap-fit ​​protrusions (29) are fitted into the snap-fit ​​grooves (28) one by one.