CN219311539U - Chopstick processing device and chopstick processing assembly - Google Patents

Abstract

The utility model discloses a chopstick processing device and a chopstick processing assembly, comprising at least two rollers and a shaft lever; the shaft rod is used for being inserted into a pipe body to be processed; the roller surface of the roller or/and the outer surface of the shaft lever are provided with processing lines for processing anti-skid lines when the inner wall of the pipe body is supported by the shaft lever and the outer wall of the pipe body is rolled by the roller. The utility model has the beneficial effect of avoiding the condition of bending deformation during processing.

Description

Chopstick processing device and chopstick processing assembly

Technical Field

The utility model relates to a chopstick processing device and a chopstick processing assembly, and belongs to the technical field of chopstick processing.

Background

At present, the front part of a plurality of chopsticks is provided with anti-slip lines, such as a circular groove structure and the like, so that the clamped vegetables can be prevented from falling from the chopsticks when the vegetables are clamped, however, the requirements on processing are high, the bending deformation of the raw materials of the chopsticks is easy to cause when the anti-slip lines are processed, and finally the product quality is influenced.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a chopstick processing device and a chopstick processing assembly, which can avoid bending deformation during processing.

The utility model is realized by the following technical scheme.

A chopstick processing device comprises at least two rollers and a shaft lever; the shaft rod is used for being inserted into a pipe body to be processed; the roller surface of the roller or/and the outer surface of the shaft lever are provided with processing lines for processing anti-skid lines when the inner wall of the pipe body is supported by the shaft lever and the outer wall of the pipe body is rolled by the roller.

As a further development of the utility model, the shaft can be separated from the tube body after it has been machined.

As a further improvement of the utility model, the hardness of the shaft is greater than the tube body.

As a further development of the utility model, the shaft is not separable from the tube body after it has been processed.

As a further improvement of the utility model, the hardness of the shaft is less than the tube body.

As a further development of the utility model, the tubular body and the shaft each have a circular cross-section.

As a further improvement of the utility model, the caliber of the part of the pipe body and the shaft lever corresponding to the anti-skid lines is kept unchanged from back to front.

As a further improvement of the utility model, the caliber of the part of the pipe body and the shaft lever corresponding to the anti-skid lines is gradually reduced from back to front.

A chopstick processing assembly comprises a first chopstick processing device and a second chopstick processing device which are arranged according to a processing sequence;

the first chopstick processing device comprises at least two first idler wheels and a first shaft lever; the first shaft lever is used for being inserted into a pipe body to be processed; the roller surface of the first roller or the outer surface of the first shaft lever is provided with processing grains, and the processing grains are used for processing anti-skid grains when the inner wall of the pipe body is supported by the first shaft lever and the outer wall of the pipe body is rolled by the first roller, so that a middle pipe body is formed;

the second chopstick processing device comprises at least two second rollers and a second shaft rod; the second shaft rod is used for being inserted into the middle pipe body; the roller surface of the roller or/and the outer surface of the shaft lever are provided with processing lines for processing the middle pipe body into a formed pipe body when the inner wall of the middle pipe body is supported by the shaft lever and the outer wall of the middle pipe body is rolled by the roller.

The utility model has the beneficial effects that:

through setting up the axostylus axostyle, insert the axostylus axostyle and establish in the body for the body has obtained the supporting role when being processed anti-skidding line by the gyro wheel, avoids gyro wheel extrusion body to lead to its bending deformation, has improved product quality, also can make the more dark of anti-skidding line processing, improves anti-skidding effect.

Drawings

Preferred embodiments of the present utility model will be described in detail below with reference to the attached drawings, to facilitate understanding of the objects and advantages of the present utility model, wherein:

fig. 1 is a schematic structural view of a chopstick processing device (anti-slip lines are arranged on rollers);

FIG. 2 is a schematic diagram of another chopstick processing device (the anti-slip pattern is arranged on the roller and the shaft lever);

FIG. 3 is a schematic view of a processed grain as a linear grain;

FIG. 4 is a schematic view of a processed texture being a dot texture;

fig. 5 is a schematic structural view of a chopstick processing device (the part of the pipe body with the anti-slip lines processed is in a cone shape);

fig. 6 is a schematic structural view of another chopstick processing device (the portion of the pipe body with the anti-slip lines is cylindrical).

Detailed Description

The utility model is described in further detail below with reference to the drawings and the examples.

The terms of orientation such as up, down, left, right, front, rear, front, back, top, bottom, etc. mentioned or possible in this specification are defined with respect to the configurations shown in the drawings, and the terms "inner" and "outer" refer to the relative concepts of the terms toward or away from the geometric center of a particular component, respectively, and thus may be changed accordingly depending on the location and use state of the component. These and other directional terms should not be construed as limiting terms.

Embodiment case 1:

referring to fig. 1 to 6, a chopstick processing device comprises at least two rollers 1 and a shaft lever 2. In this embodiment, the roller 1 is provided by a thread rolling machine or a roller press, i.e. the chopstick processing device of this embodiment is based on the technical solution of the thread rolling machine or the roller press.

In this embodiment, two or three rollers 1 may be provided, if two rollers 1 are provided, the two rollers 1 are symmetrically provided, and if three rollers 1 are provided, the three rollers 1 are arranged in a triangular relationship. The rollers 1 are driven by motors, a transmission structure is arranged to connect the two or three rollers 1 together in a transmission way, and the driving motors can synchronously drive the rollers 1 to synchronously rotate.

In this embodiment, the raw material to be processed is a tube 3, and typically, the tube 3 is made of metal and has a hollow structure, and finally, the tube 3 is processed into chopsticks. The shaft lever 2 is of a solid structure, the outer diameter of the shaft lever 2 is slightly smaller than the inner diameter of the pipe body 3, the shaft lever 2 is inserted into the pipe body 3, the roller 1 is used for rolling the outer wall of the front part of the pipe body 3, the roller surface of the roller 1 or/and the outer surface of the shaft lever 2 are provided with processing lines 4, during processing, the shaft lever 2 is inserted into the pipe body 3 first, the shaft lever 2 supports the inner wall of the pipe body 3, the roller 1 is driven to rotate, and anti-slip lines are processed when the inner wall of the pipe body 3 is supported by the shaft lever 2 and the outer wall of the pipe body is rolled by the roller 1.

The requirements of the deep anti-slip lines on the rigidity of the chopsticks are high due to the size and the material of the pipe body 3, otherwise, the extrusion of the roller 1 can cause the bending deformation of the pipe body 3, and finally the quality of the finished chopsticks can be influenced. Therefore, the shaft lever 2 is inserted into the pipe body 3, and the shaft lever 2 plays a role of supporting the pipe body 3 during processing, so that bending deformation of the pipe body is avoided.

After the pipe body 3 is processed with the anti-slip lines, in one embodiment, the shaft lever 2 can be separated from the pipe body 3 after the pipe body 3 is processed, and the pipe body 3 forms the final chopsticks. In this embodiment, the hardness of the shaft lever 2 is greater than that of the pipe body 3, when the roller 1 presses the outer wall of the pipe body 3, the surface of the shaft lever 2 will not deform because the hardness of the shaft lever 2 is greater than that of the pipe body 3, the pipe body 3 will deform and form protective grains, and after finishing processing, the shaft lever 2 is still in an original shape state, so that it can be pulled out from the pipe body 3.

In another embodiment, the shaft 2 is not separable from the tube 3 after it has been processed, so that the tube 3 and the shaft 2 are in an integrated structure, i.e. the tube 3 and the shaft 2 together form the final chopstick. In this embodiment, the hardness of the shaft lever 2 is smaller than that of the pipe body 3, when the roller 1 presses the outer wall of the pipe body 3, the hardness of the shaft lever 2 is smaller than that of the pipe body 3, so that the surface of the shaft lever 2 deforms when being pressed by the pipe body 3, and after the processing is completed, the shaft lever 2 is clamped in the pipe body 3 due to deformation and cannot be pulled out, i.e. the pipe body 3 and the shaft lever 2 are in an integrated structure.

In one embodiment, the processing lines 4 are linear lines, such as round grooves, threads, patterns, well shapes, etc., on the surface of the roller 1 or the surface of the shaft lever 2, and the anti-slip lines of the final chopsticks are also linear lines.

In another embodiment, the processing lines 4 are point-shaped lines, such as bumps, protruding points, protruding balls, etc., on the roller surface of the roller 1 or the surface of the shaft lever 2, and the anti-slip lines of the final chopsticks are also point-shaped lines.

In one embodiment, the caliber of the part of the pipe body 3 and the shaft lever 2 corresponding to the anti-slip lines gradually decreases from back to front, and the part of the pipe body 3 with the anti-slip lines processed is tapered, i.e. the head of the final finished chopstick is tapered.

In another embodiment, the caliber of the part of the pipe body 3 and the shaft lever 2 corresponding to the anti-slip lines is kept unchanged from back to front, and the part of the pipe body 3 with the anti-slip lines processed is cylindrical, namely the head of the final finished chopstick is cylindrical.

In this embodiment, the cut surfaces of the tube body 3 and the shaft lever 2 are all circular, that is, the chopsticks processed in this embodiment are all circular chopsticks.

In addition, after the anti-slip lines are processed on the pipe body 3, the rear end of the pipe body 3, namely the tail parts of the chopsticks, can be connected with a chopstick body made of different materials, such as a wood material or a plastic material. The implementation tube body 3 is in an original cylindrical structure (including a conical cylindrical head part), and the chopstick body can be in a square cylindrical structure or gradually transits to the square cylindrical structure from the cylindrical structure.

Embodiment case 2:

it should be noted that the chopstick processing device provided in embodiment 1 may be formed into a chopstick processing assembly, including a first chopstick processing device and a second chopstick processing device arranged in a processing sequence. The first chopstick processing device and the second chopstick processing device are substantially identical in structure to the chopstick processing device of embodiment 1, and differ only locally.

Specifically, the first chopstick processing device comprises at least two first rollers and a first shaft lever; the first shaft lever is used for being inserted into a pipe body to be processed; the roller surface of the first roller or the outer surface of the first shaft lever is provided with processing grains, and the processing grains are used for processing anti-skid grains and forming a middle pipe body when the inner wall of the pipe body is supported by the first shaft lever and the outer wall of the pipe body is rolled by the first roller.

The second chopstick processing device comprises at least two second rollers and a second shaft rod; the second shaft rod is used for being inserted into the middle pipe body; the roller surface of the roller or/and the outer surface of the shaft lever are provided with processing lines for processing the middle pipe body into a formed pipe body when the inner wall of the middle pipe body is supported by the shaft lever and the outer wall of the middle pipe body is rolled by the roller.

Firstly, the first chopstick processing device is used for processing the pipe body, and as the processing grains are arranged on the roller surface of the first roller or the outer surface of the first shaft lever, the pipe body is processed into the middle pipe body with shallower anti-skid grains, and the second chopstick processing device is provided with the processing grains on the roller surface of the second roller and the outer surface of the second shaft lever, so that the anti-skid grains of the chopsticks can be deepened through the secondary processing of the second chopstick processing device. Through the processing mode from shallow to deep twice, the condition that the pipe body is easy to damage caused by processing the anti-skid lines at one time can be avoided, and the rate of defective products is reduced.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme recorded in each embodiment can be modified or part of technical features in the technical scheme can be replaced equivalently; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (9)

1. The chopstick processing device is characterized by comprising at least two rollers and a shaft lever; the shaft rod is used for being inserted into a pipe body to be processed; the roller surface of the roller or/and the outer surface of the shaft lever are provided with processing lines for processing anti-skid lines when the inner wall of the pipe body is supported by the shaft lever and the outer wall of the pipe body is rolled by the roller.

2. The chopstick processing device according to claim 1, wherein said shaft is detachable from said tube body after said tube body is processed.

3. The chopstick processing device according to claim 2, wherein said shaft has a hardness greater than said tube.

4. The chopstick processing device according to claim 1, wherein said shaft is not separable from said tube body after said tube body is processed.

5. The chopstick processing device of claim 4, wherein said shaft has a hardness less than said tube.

6. The chopstick processing device according to claim 1, wherein the cut-off surfaces of said tube and shaft are circular.

7. The chopstick processing device according to claim 1, wherein the caliber of the part of the pipe body and the shaft rod corresponding to the anti-slip grain is kept unchanged from back to front.

8. The chopstick processing device according to claim 1, wherein the caliber of the part of the pipe body and the shaft rod corresponding to the anti-slip grain gradually decreases from the back to the front.

9. The chopstick processing assembly is characterized by comprising a first chopstick processing device and a second chopstick processing device which are arranged according to the processing sequence;

the first chopstick processing device comprises at least two first idler wheels and a first shaft lever; the first shaft lever is used for being inserted into a pipe body to be processed; the roller surface of the first roller or the outer surface of the first shaft lever is provided with processing grains, and the processing grains are used for processing anti-skid grains when the inner wall of the pipe body is supported by the first shaft lever and the outer wall of the pipe body is rolled by the first roller, so that a middle pipe body is formed;

the second chopstick processing device comprises at least two second rollers and a second shaft rod; the second shaft rod is used for being inserted into the middle pipe body; the roller surface of the roller or/and the outer surface of the shaft lever are provided with processing lines for processing the middle pipe body into a formed pipe body when the inner wall of the middle pipe body is supported by the shaft lever and the outer wall of the middle pipe body is rolled by the roller.

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