CN218942155U - Chopping equipment - Google Patents

Abstract

The utility model is suitable for the field of food processing, and provides chopping equipment which comprises a base, a rotating disc rotatably arranged on the base and a cutting knife arranged in the rotating disc, wherein the cutting knife comprises a cutter body, a cutter head and a cutter head; the base is provided with a supporting upper cover, and a pushing mechanism for moving the materials in the rotating disc towards the cutting knife is arranged on the supporting upper cover; the pushing mechanism comprises a first rotating motor fixedly arranged on the supporting upper cover, a supporting roller vertically arranged on an output shaft of the first rotating motor, and a pushing plate rotatably arranged on the supporting roller; a push plate adjusting assembly is arranged between the support roller and the push plate, and under the action of the push plate adjusting assembly, when the rotation of the support roller and the rotation disc is the same, the push plate is in a vertical state; when the rotation of the supporting roller and the rotation disc is opposite, the push plate is in a horizontal state, so that the material to be processed can be pushed into the shredding area of the cutter through the push plate of the pushing mechanism, and the shredding efficiency of the device is improved.

Description

Chopping equipment

Technical Field

The utility model relates to the field of food processing, in particular to chopping equipment.

Background

The meat balls are spherical food mainly made of chopped meat, and the existing meat balls are changed into various different types, for example, the meat balls are processed into meat paste by a chopper mixer on goose feet and goose livers, and then the meat paste is further processed into meat balls.

Referring to fig. 1, the prior art chopper comprises a rotary disc 1 and a cutter 2 arranged inside the rotary disc, the device is only suitable for processing softer meat, and when the goose hands are processed, the cutter has low processing efficiency on hard meat due to the coincidence of the axis of the rotating shaft of the cutter 2 and the tangent line of the rotary disc 1, and the main reason is that the hard meat is difficult to enter the cutting area of the cutter 2.

In summary, it is clear that the prior art has inconvenience and defects in practical use, so that improvement is needed.

Disclosure of Invention

In view of the above-mentioned drawbacks, an object of the present utility model is to provide a chopping apparatus, which can push a material to be processed into a shredding area of a cutter through a push plate of a pushing mechanism, so as to improve the shredding efficiency of the apparatus.

In order to achieve the above purpose, the utility model provides a chopping equipment, comprising a base, a rotating disc rotatably arranged on the base and a cutting knife arranged in the rotating disc; the rotating shaft of the cutting knife is horizontally arranged and tangent to the rotating disc; the base is provided with a supporting upper cover, and a pushing mechanism for moving the materials in the rotating disc towards the cutting knife direction is arranged on the supporting upper cover; the pushing mechanism comprises a first rotating motor fixedly arranged on the supporting upper cover, a supporting roller vertically arranged on an output shaft of the first rotating motor, and a pushing plate rotatably arranged on the supporting roller; a push plate adjusting assembly is arranged between the support roller and the push plate, and under the action of the push plate adjusting assembly, when the rotation of the support roller and the rotation disc is the same, the push plate is in a vertical state; when the rotation of the supporting roller and the rotation disc is opposite, the push plate is in a horizontal state.

According to the chopping equipment disclosed by the utility model, the supporting roller is of a sleeve-shaped structure, the push plate adjusting assembly comprises a rotating shaft rotatably arranged in the supporting roller, a cavity is formed in the end part of the rotating shaft, and a braking piece is movably inserted into the cavity; the brake piece is driven by a telescopic driving assembly; when the brake piece is inserted into the cavity, the rotating shaft cannot rotate; when the brake member moves out of the cavity, the rotating shaft can rotate; and a torsion spring which drives the push plate to enter a horizontal state from a vertical state after the locking force of the rotating shaft is lost is arranged between the rotating shaft and the supporting roller.

According to the chopping equipment disclosed by the utility model, the end part of the braking piece is provided with the insert, the outer edge of the insert is provided with the positioning key, and the inner wall of the cavity is provided with the key groove matched with the positioning key.

According to the chopping equipment disclosed by the utility model, the outer wall of the periphery of the upper support cover is provided with the accommodating cavity for accommodating the braking piece; the wall of the upper support cover is provided with a sliding rail, and the braking piece is slidably arranged in the sliding rail.

According to the chopping equipment disclosed by the utility model, the push plate adjusting assembly comprises the inclined block which is arranged at the preset position of the accommodating cavity and used for pushing the braking piece by the braking piece, and the cavity is internally provided with the tension spring which has a pulling effect on the braking piece.

According to the chopping equipment disclosed by the utility model, the inclined blocks are provided with two blocks and are arranged symmetrically up and down.

According to the chopping equipment provided by the utility model, the rotating wheel which drives the push plate from the horizontal state to the vertical state is arranged at the preset position of the inner wall of the supporting upper cover.

The utility model provides chopping equipment which comprises a base, a rotating disc rotatably arranged on the base and a cutting knife arranged in the rotating disc, wherein the cutting knife is arranged on the rotating disc; the rotating shaft of the cutting knife is horizontally arranged and tangent to the rotating disc; the base is internally provided with a second driving motor for driving the rotating disc to rotate clockwise (in the direction shown in the figure), the second driving motor is vertically arranged, and the rotating disc is fixedly arranged on an output shaft of the second driving motor. The base is provided with a supporting upper cover, and a pushing mechanism for moving the materials in the rotating disc towards the cutting knife direction is arranged on the supporting upper cover; the pushing mechanism can push the materials placed in the rotating disc into the cutting area of the cutting knife in the clockwise direction; the pushing mechanism comprises a first rotating motor fixedly arranged on the supporting upper cover, a supporting roller vertically arranged on an output shaft of the first rotating motor, and a pushing plate rotatably arranged on the supporting roller; a push plate adjusting assembly is arranged between the support roller and the push plate, and under the action of the push plate adjusting assembly, when the support roller and the rotating disc rotate the same, the push plate is in a vertical state, and the push plate in the vertical state can push materials into a cutting area of the cutting knife when moving; when the rotation of the support roller and the rotation disc is opposite, the push plate is in a horizontal state, the push plate in the horizontal state is in a non-working state, and the push plate is conveniently reset (the push plate is prevented from pushing materials away from a cutting area of the cutting knife in the resetting process) in the state, so that the next pushing work is performed. According to the utility model, the material to be processed can be pushed into the shredding area of the cutter through the push plate of the pushing mechanism, so that the shredding efficiency of the device is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a partial cross-sectional view of FIG. 1;

FIG. 3 is a schematic illustration of the connection of the brake to the spindle;

FIG. 4 is a schematic view of the structure of the swash block and the runner;

in the figure, a 1-rotating disc, a 2-cutting knife, a 3-base, a 4-supporting upper cover, a 51-first rotating motor, a 52-supporting roller, a 53-push plate, a 54-rotating shaft, a 55-braking piece, a 56-torsion spring, a 57-sliding rail, a 60-oblique block and a 61-rotating wheel are arranged.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present utility model, the present utility model will be further described in detail with reference to the accompanying drawings and examples, it being understood that the specific examples described herein are for illustration only and are not intended to limit the present utility model.

Referring to fig. 1 and 2, the present utility model provides a chopping apparatus comprising a base 3, a rotary plate 1 rotatably mounted on the base 3, and a cutter 2 disposed in the rotary plate 1; the rotating shaft of the cutting knife 2 is horizontally arranged and tangent to the rotating disc 1; the second driving motor for driving the rotating disc 1 to rotate clockwise (in the direction shown in fig. 1) is arranged in the base 3, the second driving motor is vertically arranged, and the rotating disc 1 is fixedly arranged on an output shaft of the second driving motor.

A supporting upper cover 4 is arranged on the base 3, and a pushing mechanism for moving the materials in the rotating disc 1 towards the direction of the cutting knife 2 is arranged on the supporting upper cover 4; the pushing mechanism can push the materials placed in the rotating disc 1 into the cutting area of the cutting knife 2 in the clockwise direction; the pushing mechanism comprises a first rotating motor 51 fixedly arranged on the supporting upper cover 4, a supporting roller 52 vertically arranged on an output shaft of the first rotating motor 51, and a pushing plate 53 rotatably arranged on the supporting roller; a push plate adjusting assembly is arranged between the supporting roller 52 and the push plate 53, and under the action of the push plate adjusting assembly, when the supporting roller 52 and the rotating disc 1 rotate the same, the push plate 53 is in a vertical state, and the push plate 53 in the vertical state can push materials into a cutting area of the cutting knife 2 when moving; when the rotation of the support roller 52 and the rotation disc 1 is opposite, the push plate 53 is in a horizontal state, the push plate 53 in the horizontal state is in a non-working state, and in this state, the push plate 53 is convenient to reset (the push plate 53 is prevented from pushing the material away from the cutting area of the cutting knife 2 in the resetting process), so that the next pushing work is performed.

Referring to fig. 2, 3 and 4, the supporting roller 52 has a sleeve-shaped structure, the push plate adjusting assembly includes a rotating shaft 54 rotatably mounted in the supporting roller 52, and the rotating shaft 54 is fixedly connected with the push plate 53, that is, the rotation of the rotating shaft 54 drives the push plate 53 to rotate. The end of the rotating shaft 54 is provided with a cavity, and a braking piece 55 is movably inserted into the cavity; the brake member 55 is driven by a telescopic drive assembly; an insert block is arranged at the end part of the braking piece 55, a positioning key is arranged at the outer edge of the insert block, and a key slot matched with the positioning key is arranged on the inner wall of the cavity; under the action of the positioning key, when the braking member 55 is inserted into the cavity, the rotating shaft 54 cannot rotate; when the stopper 55 moves out of the cavity, the rotation shaft 54 can rotate; a torsion spring 56 is arranged between the rotating shaft 54 and the supporting roller 52, and drives the push plate 53 to enter a horizontal state from a vertical state after the rotating shaft 54 loses the locking force.

The peripheral outer wall of the support upper cover 4 is provided with a containing cavity for placing a brake piece 55; the wall of the upper cover 4 is provided with a sliding rail 57, the braking member 55 is slidably mounted in the sliding rail 57, and the sliding rail 57 is used for realizing that the braking member 55 can slide and simultaneously realizing the rotation positioning of the braking member 55, so that the braking member 55 cannot rotate, and further, when the braking member 55 is inserted into the cavity, the rotating shaft 54 cannot rotate. The push plate adjusting assembly comprises an inclined block 60 which is arranged at a preset position of the accommodating cavity and used for pushing the braking piece 55 to push the braking piece, and the inclined block 60 can jack up the braking piece 55 and enable the braking piece 55 to be separated from the cavity. Further, the two inclined blocks 60 are provided and are arranged symmetrically up and down, so that the stress of the braking member 55 is more balanced when the braking member 55 is pushed by the two inclined blocks 60. The cavity is provided with a tension spring 58 which pulls the brake member 55.

A rotating wheel 61 for driving the push plate 53 from the horizontal state to the vertical state is provided at a predetermined position of the inner wall of the support upper cover 4, and when the end of the push plate 53 in the horizontal state contacts the rotating wheel 61, the rotating wheel 61 rotates and pushes the push plate 53 to the vertical state.

In this example, when the pushing mechanism is in operation, the first rotating motor 51 drives the pushing plate 53 to rotate clockwise (at this time, the pushing plate 53 is in a state, the braking member 55 locks the pushing plate 53), and the moving pushing plate 53 pushes the material to the cutting area of the cutter 2.

When the braking member 55 moves to the position of the inclined block 60, the inclined block 60 pushes up the braking member 55 and makes the insert block separate from the cavity, the braking member 55 cancels the braking of the rotating shaft 54, and then the push plate 53 returns to the horizontal state under the action of the torsion spring 56.

Subsequently, the first rotating motor 51 drives the push plate 53 to rotate in the reverse direction, when the push plate 53 is in a horizontal state.

In summary, the utility model provides a chopping device, which comprises a base, a rotating disc rotatably mounted on the base, and a cutting knife arranged in the rotating disc; the rotating shaft of the cutting knife is horizontally arranged and tangent to the rotating disc; the base is internally provided with a second driving motor for driving the rotating disc to rotate clockwise (in the direction shown in the figure), the second driving motor is vertically arranged, and the rotating disc is fixedly arranged on an output shaft of the second driving motor. The base is provided with a supporting upper cover, and a pushing mechanism for moving the materials in the rotating disc towards the cutting knife direction is arranged on the supporting upper cover; the pushing mechanism can push the materials placed in the rotating disc into the cutting area of the cutting knife in the clockwise direction; the pushing mechanism comprises a first rotating motor fixedly arranged on the supporting upper cover, a supporting roller vertically arranged on an output shaft of the first rotating motor, and a pushing plate rotatably arranged on the supporting roller; a push plate adjusting assembly is arranged between the support roller and the push plate, and under the action of the push plate adjusting assembly, when the support roller and the rotating disc rotate the same, the push plate is in a vertical state, and the push plate in the vertical state can push materials into a cutting area of the cutting knife when moving; when the rotation of the support roller and the rotation disc is opposite, the push plate is in a horizontal state, the push plate in the horizontal state is in a non-working state, and the push plate is conveniently reset (the push plate is prevented from pushing materials away from a cutting area of the cutting knife in the resetting process) in the state, so that the next pushing work is performed. According to the utility model, the material to be processed can be pushed into the shredding area of the cutter through the push plate of the pushing mechanism, so that the shredding efficiency of the device is improved.

Of course, the present utility model is capable of other various embodiments and its several details are capable of modification and variation in light of the present utility model, as will be apparent to those skilled in the art, without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (7)

1. The chopping equipment is characterized by comprising a base, a rotating disc rotatably arranged on the base and a cutting knife arranged in the rotating disc; the rotating shaft of the cutting knife is horizontally arranged and tangent to the rotating disc;

the base is provided with a supporting upper cover, and a pushing mechanism for moving the materials in the rotating disc towards the cutting knife direction is arranged on the supporting upper cover;

the pushing mechanism comprises a first rotating motor fixedly arranged on the supporting upper cover, a supporting roller vertically arranged on an output shaft of the first rotating motor, and a pushing plate rotatably arranged on the supporting roller;

a push plate adjusting assembly is arranged between the support roller and the push plate, and under the action of the push plate adjusting assembly, when the rotation of the support roller and the rotation disc is the same, the push plate is in a vertical state; when the rotation of the supporting roller and the rotation disc is opposite, the push plate is in a horizontal state.

2. The chopping apparatus of claim 1, wherein the support roller has a sleeve-like structure, the push plate adjusting assembly comprises a rotary shaft rotatably mounted in the support roller, a cavity is formed at an end of the rotary shaft, and a brake is movably inserted into the cavity; the brake piece is driven by a telescopic driving assembly;

when the brake piece is inserted into the cavity, the rotating shaft cannot rotate;

when the brake member moves out of the cavity, the rotating shaft can rotate;

and a torsion spring which drives the push plate to enter a horizontal state from a vertical state after the locking force of the rotating shaft is lost is arranged between the rotating shaft and the supporting roller.

3. The chopping apparatus of claim 2, wherein the end of the brake is provided with a plug, the outer edge of the plug is provided with a locating key, and the inner wall of the cavity is provided with a key slot matched with the locating key.

4. The chopping apparatus of claim 3, wherein the peripheral outer wall of the support upper cover is provided with a receiving cavity for receiving the braking member; the wall of the upper support cover is provided with a sliding rail, and the braking piece is slidably arranged in the sliding rail.

5. The chopping apparatus of claim 4, wherein the push plate adjusting assembly comprises an inclined block arranged at a predetermined position of the accommodating cavity for pushing the braking member by the braking member, and a tension spring arranged in the cavity for pulling the braking member.

6. The chopping apparatus of claim 5, wherein the diagonal block has two blocks and is arranged symmetrically up and down.

7. The chopping apparatus of claim 1, wherein the predetermined position of the inner wall of the support upper cover is provided with a wheel for driving the push plate from a horizontal state to a vertical state.

Images