A cutting member of a vegetable cutter

By adopting a dual-blade structure with forward and backward cutting edges in the vegetable slicer, the problem of poor operation smoothness of the slicer is solved, resulting in smoother food cutting and reduced costs.

CN224323154UActive Publication Date: 2026-06-05TAIZHOU SHANGHAOJIA HARDWARE&PLASTIC PROD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TAIZHOU SHANGHAOJIA HARDWARE&PLASTIC PROD CO LTD
Filing Date
2025-07-21
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing shredders suffer from poor operational smoothness when cutting food, especially potatoes, which experience high resistance when pulled back. They also have complex structures and high costs.

Method used

Design a cutting component for a vegetable cutter, which adopts a double-edged structure with a forward cutting edge and a backward cutting edge. The blade teeth form a non-zero angle with the base. The forward cutting edge is used for cutting, and the backward cutting edge is used for pulling back to reduce resistance. It is fixed to the shredder by combining a sheet-like base made of metal and a mounting structure.

Benefits of technology

It effectively reduces the resistance when pulling the ingredients back, improves the smoothness of operation, simplifies the structure, and reduces costs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to the technical field of kitchenware relates to a cutting piece of vegetable cutter, including the sheet base body of metal material, the sheet base body has a plurality of cutter teeth and is integrally formed, the cutter teeth are evenly arranged along the length direction of sheet base body, and the plane of each cutter tooth and the plane of sheet base body form non-zero angle, every described cutter tooth has: forward cutting edge, its cutting edge is towards food material is cut when relative the advancing direction of cutter tooth, backward cutting edge, its cutting edge is towards food material is pulled back when relative the movement direction of cutter tooth. The cutting piece of vegetable cutter provided by the utility model can greatly reduce the resistance of food material pull back when cutting silk, to improve the operation fluency.
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Description

Technical Field

[0001] This utility model belongs to the technical field of kitchenware and relates to a cutting component of a vegetable cutter. Background Technology

[0002] Currently, food is typically shredded using a shredder. The shredder's cutting structure involves punching holes in a single blade, creating curved cutting edges. Food is shredded as it slides against these edges. However, this method produces less aesthetically pleasing shreds and doesn't meet higher processing requirements. To achieve more refined shredding, some shredders use a combination of two blades. These two blades are independently designed: a slicing blade and a shredding blade. The shredding blade has multiple serrated blades, and the two blades work together to shred the food. While this method meets higher processing requirements, it is more complex and expensive.

[0003] When using the aforementioned shredder, the food is pushed forward relative to the blade edge. The food is first cut vertically by the shredding blade, and then horizontally by the slicing blade. After both vertical and horizontal cuts, the food is shredded. After cutting, the food is pulled back to perform reciprocating cutting. However, when cutting certain foods such as potatoes, because there is an angle between the shredding blade and the food, there is significant resistance when pulling the food back against the panel, which greatly reduces the smoothness of operation. Utility Model Content

[0004] This invention provides a cutting component for a vegetable cutter, which can significantly reduce the resistance of food pulling back when shredding, thereby improving the smoothness of operation.

[0005] To solve the above-mentioned technical problems, the objective of this utility model is achieved through the following technical solution:

[0006] A cutting component of a vegetable cutter includes a sheet-like base made of metal. A plurality of blades are integrally formed on the sheet-like base, the blades being evenly arranged along the length of the sheet-like base, and the plane of each blade forming a non-zero angle with the plane of the sheet-like base. Each blade has:

[0007] A forward-facing cutting edge, the cutting edge of which faces the direction of advancement relative to the blade teeth when the food is being cut;

[0008] The rearward cutting edge faces the direction of movement relative to the blade teeth when the food is pulled back.

[0009] In the cutting component of the above-mentioned vegetable cutter, the non-zero included angle is preferably 20°-160°.

[0010] In the cutting component of the above-mentioned vegetable cutter, the blade teeth are formed by cutting and bending a sheet-like substrate, and after the blade teeth are formed, the sheet-like substrate has cuts with the same outline.

[0011] In the cutting component of the above-mentioned vegetable cutter, the blade teeth are disposed on the edge of the sheet-like substrate, and the forward cutting edge is formed by grinding the original outer edge of the blade teeth; the backward cutting edge is formed by grinding the cutting separation edge of the blade teeth; preferably, the blade teeth and the cut are both isosceles right triangles.

[0012] In the cutting component of the above-mentioned vegetable cutter, the blade teeth are located in the middle of the sheet-like substrate, and the forward cutting edge and the backward cutting edge are respectively formed by grinding the two opposing cutting and separating edges of the blade teeth; preferably, the blade teeth and the cut are both isosceles triangles.

[0013] In the cutting component of the above-mentioned vegetable cutter, the vegetable cutter is a shredder, and the cutting component works in conjunction with the horizontal blade of the shredder to shred.

[0014] In the cutting component of the above-mentioned vegetable cutter, the sheet-like substrate is provided with a mounting structure and is fixed to the panel of the shredder by the mounting structure.

[0015] In the cutting component of the above-mentioned vegetable cutter, the mounting structure is a mounting hole provided on the sheet-like substrate; or, the mounting structure is a mounting plate provided on both sides of the sheet-like substrate, the mounting plate being formed by bending the sheet-like substrate.

[0016] Compared with the prior art, this utility model has the following advantages:

[0017] This utility model provides a cutting component for a vegetable cutter, which adopts a double-bladed structure with a forward cutting edge and a backward cutting edge. When cutting food, the forward cutting edge cuts the food, and when pulling the food back, the backward cutting edge reduces the resistance to pull back, thereby making the operation smoother. Attached Figure Description

[0018] Figure 1 This is a perspective view of Embodiment 1 of this utility model;

[0019] Figure 2 yes Figure 1 A magnified view of part A;

[0020] Figure 3 This is a perspective view of Embodiment 2 of this utility model;

[0021] Figure 4 yes Figure 3 A magnified view of section B;

[0022] Reference numerals: 1. Sheet-like substrate; 2. Blade teeth; 3. Forward cutting edge; 4. Backward cutting edge; 5. Cut; 6. Mounting hole; 7. Mounting plate. Detailed Implementation

[0023] The present invention will be further described below with reference to the accompanying drawings and specific embodiments. See also: Figure 1-4 :

[0024] Example 1

[0025] Comparison Appendix Figure 1 and attached Figure 2 A cutting component of a vegetable cutter includes a sheet-like base 1 made of metal. A plurality of blade teeth 2 are integrally formed on the sheet-like base 1. The blade teeth 2 are evenly arranged along the length direction of the sheet-like base 1 and form a non-zero angle with the plane of the sheet-like base 1. Each blade tooth 2 has:

[0026] The forward cutting blade 3 has its cutting edge facing the direction of advancement relative to the blade teeth 2 when the food is being cut;

[0027] The rearward cutting blade 4 has its cutting edge facing the direction of movement relative to the blade teeth 2 when the food is pulled back.

[0028] In this embodiment, the vegetable cutter is a shredder. The cutting element works in conjunction with the horizontal blade of the shredder to cut shreds. When the food is pushed relative to the cutting element and the horizontal blade, the cutting element uses its forward cutting edge 3 to cut the food vertically (which may be at an angle) and the horizontal blade to cut the food horizontally, thus cutting the food into shreds. When the food is pulled back to contact the cutting element, the backward cutting edge 4 of the cutting element cuts the food, allowing the food to pass smoothly through the cutting element and return to its initial position for reciprocating cutting.

[0029] In this embodiment, the non-zero included angle is preferably 20°-160°.

[0030] To facilitate manufacturing, the aforementioned cutting teeth 2 are formed by cutting and bending the sheet-like substrate 1. After the cutting teeth 2 are formed, the sheet-like substrate 1 has cuts 5 with the same outline.

[0031] In this embodiment, the cutting teeth 2 are disposed on the edge of the sheet-like substrate 1, and the forward cutting edge 3 is formed by grinding the original outer edge of the cutting teeth 2; the backward cutting edge 4 is formed by grinding the cutting separation edge of the cutting teeth 2; preferably, the cutting teeth 2 and the slit 5 are both isosceles right triangles. This arrangement of the cutting teeth 2 makes cutting, bending, shaping, and edge grinding more convenient.

[0032] The sheet-like substrate 1 is provided with an installation structure and is fixed to the panel of the shredder by the installation structure.

[0033] Specifically, the mounting structure is a mounting hole 6 provided on the sheet-like substrate 1; the sheet-like substrate 1 is fixedly mounted on the panel of the shredder using fasteners passing through the mounting hole 6.

[0034] Example 2

[0035] Comparison Appendix Figure 3 and attached Figure 4 In this embodiment, its structure and operation are basically the same as those in Embodiment 1, except that:

[0036] The aforementioned blade teeth 2 are located in the middle of the sheet-like substrate 1. The forward cutting edge 3 and the backward cutting edge 4 are respectively formed by grinding the two opposing cutting edges of the blade teeth 2. Preferably, the blade teeth 2 and the cut 5 are both isosceles triangles. This arrangement of the blade teeth 2 can provide better structural strength, and the inclined blade of the forward cutting edge 3 is also more conducive to cutting food.

[0037] The installation structure of this embodiment is as follows: the installation structure is an installation plate 7 disposed on both sides of the sheet-like substrate 1. The installation plate 7 is formed by bending the sheet-like substrate 1. The panel is provided with an installation groove that cooperates with the installation plate 7. The installation plate 7 is inserted into the installation groove to form a fixed connection, and can be further welded or glued.

[0038] The above embodiments are merely preferred embodiments of the present utility model and are not intended to limit the scope of protection of the present utility model. Therefore, all equivalent changes made to the structure, shape, and principle of the present utility model should be covered within the scope of protection of the present utility model.

Claims

1. A cutting component of a vegetable cutter, comprising a sheet-like base (1) made of metal, characterized in that, A plurality of cutting teeth (2) are integrally formed on the sheet-like substrate (1). The cutting teeth (2) are evenly arranged along the length direction of the sheet-like substrate (1), and the plane of each cutting tooth (2) forms a non-zero angle with the plane of the sheet-like substrate (1). Each cutting tooth (2) has: The forward cutting edge (3) faces the direction of the food being cut relative to the advancing direction of the blade teeth (2); The rearward cutting edge (4) faces the direction of movement relative to the blade teeth (2) when the food is pulled back.

2. The cutting component of a vegetable cutter according to claim 1, characterized in that, The blade (2) is formed by cutting and bending the sheet substrate (1). After the blade (2) is formed, the sheet substrate (1) has cuts (5) with the same outline.

3. The cutting component of a vegetable cutter according to claim 2, characterized in that, The cutting teeth (2) are disposed on the edge of the sheet-like substrate (1), and the forward cutting edge (3) is formed by grinding the original outer edge of the cutting teeth (2); the backward cutting edge (4) is formed by grinding the cutting separation edge of the cutting teeth (2).

4. The cutting component of a vegetable cutter according to claim 2, characterized in that, The cutting teeth (2) are located in the middle of the sheet-like substrate (1), and the forward cutting edge (3) and the backward cutting edge (4) are formed by grinding the two opposing cutting edges of the cutting teeth (2).

5. The cutting component of a vegetable cutter according to claim 1, characterized in that, The vegetable cutter is a shredder, and the cutting element works in conjunction with the horizontal blade of the shredder to cut shreds.

6. The cutting component of a vegetable cutter according to claim 5, characterized in that, The sheet-like substrate (1) is provided with an installation structure and is fixed to the panel of the shredder through the installation structure.

7. The cutting component of a vegetable cutter according to claim 6, characterized in that, The mounting structure is a mounting hole (6) provided on the sheet-like substrate (1); Alternatively, the mounting structure may be mounting plates (7) disposed on both sides of the sheet-like substrate (1), the mounting plates (7) being formed by bending the sheet-like substrate (1).