CN112167299A - A vibrations formula of beating mechanism that is used for meat thick liquid production that possesses body-building function - Google Patents

Abstract

The invention discloses a vibrating beating mechanism with a body-building function for meat paste production, which comprises a vibrating beating device and a rotary feeding and discharging device matched with the vibrating beating device. The vibratory beating device is used for beating the meat pieces to obtain meat pulp; the rotary feeding and discharging device is used for feeding meat pieces to the vibrating beating device and discharging the internal mud at the vibrating beating device; the vibrating beating mechanism with the body building function for meat paste production further comprises a body building bicycle, and the body building bicycle is in driving connection with the vibrating beating device. The vibrating beating mechanism with the body building function for meat paste production can improve the capacity of meat balls on one hand, can obtain meat balls with superior quality on the other hand, and can also achieve body building in the working process on the other hand.

Description

A vibrations formula of beating mechanism that is used for meat thick liquid production that possesses body-building function

Technical Field

The invention relates to the technical field of food processing, in particular to a vibrating beating mechanism with a body-building function for meat paste production.

Background

The meatballs are delicious food which is well pursued by the great food lovers. The process flow of the meat balls is approximately as follows: taking fresh beef or pork which is just slaughtered, beating the fresh beef or pork to obtain meat pulp, kneading the meat pulp into a dough shape, putting the dough-shaped meat pulp into a boiling soup pot, and boiling the dough-shaped meat pulp in the soup pot for a certain time to obtain the edible meat ball finished product.

The meatballs prepared by the ancient method are very tough and elastic, and only the meatballs can conquer the picked taste buds of eaters. One of the key processes of the ancient method is hammering, meat blocks are placed on a chopping board, a worker holds a long iron bar and hammers the meat blocks on the chopping board with two hands alternately, and the meat blocks are beaten into meat pulp.

However, although the conventional production process can obtain meatballs with high quality, the production process requires a lot of physical labor, which results in insufficient productivity.

In order to improve the productivity of meatballs, a meat grinder is available on the market at present, which mainly drives a cutter to rotate through a motor, utilizes the cutter rotating at a high speed to cut meat blocks, and grinds the meat blocks into meat pulp. However, although the meat grinder can improve the productivity of the meat balls, the quality of the prepared meat balls is poor and the taste of the meat balls prepared by the traditional ancient method cannot be achieved.

How to effectively solve the contradiction can improve the productivity of the meat balls on one hand, can obtain the meat balls with superior quality on the other hand, and can realize body building in the working process on the other hand, which is a technical problem to be solved by technical personnel.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a vibration type beating mechanism with a body-building function for meat paste production, which can improve the capacity of meat balls on one hand, obtain meat balls with superior quality on the other hand, and realize body building in the working process on the other hand.

The purpose of the invention is realized by the following technical scheme:

a vibrating beating mechanism with a body-building function for meat paste production comprises a vibrating beating device and a rotary feeding and discharging device matched with the vibrating beating device;

the vibratory beating device is used for beating the meat pieces to obtain meat pulp; the rotary feeding and discharging device is used for feeding meat pieces to the vibrating beating device and discharging the inner mud at the vibrating beating device;

the vibration type beating mechanism with the body building function for meat paste production further comprises a body building bicycle, and the body building bicycle is in driving connection with the vibration type beating device.

In one embodiment, the rotary loading and unloading device comprises: the rotary supporting seat, the rotary annular track, the material containing tank and the rotary driving part are arranged on the rotary supporting seat;

the rotary annular rail is connected end to end and is arranged on the rotary supporting seat in a surrounding manner; the material containing tank is arranged on the rotary annular track in a sliding manner; the rotary driving part is in driving connection with the material containing tank so that the material containing tank can do rotary motion along the rotary annular rail.

In one embodiment, the swing driving part includes: a rotary driving motor, a rotary driving roller, a rotary driven roller and a rotary conveying belt;

the rotary driving roller and the rotary driven roller are rotatably arranged on the rotary supporting seat, the rotary conveying belt is wound between the rotary driving roller and the rotary driven roller in an end-to-end manner, and the rotary driving motor is in driving connection with the rotary driving roller;

the rotary conveyor belt is positioned on the inner ring of the rotary annular track, extends along the track of the rotary annular track, and is connected with the material accommodating tank.

In one embodiment, the material containing tanks are multiple in number, and the multiple material containing tanks are sequentially distributed at intervals along the track of the rotary annular track.

In one embodiment, the rotary loading and unloading device further comprises a tank body positioning structure; jar body location structure includes: the device comprises a walking base, a positioning rotating shaft, a middle connecting rod, a positioning block and a positioning cylinder;

a clamping wheel set is arranged on the walking base and clamped on the rotary annular track;

the positioning rotating shaft is rotatably arranged on the rotary supporting seat, and the output end of the positioning air cylinder is in driving connection with the positioning rotating shaft through the middle connecting rod;

the positioning block is arranged on the positioning rotating shaft and provided with a positioning clamping end, and a positioning clamping groove matched with the positioning clamping end is formed in the walking base;

the material containing tank is fixed on the walking base.

In one embodiment, the number of the tank positioning structures is multiple, and the tank positioning structures are sequentially distributed at intervals along the track of the rotary circular track.

In one embodiment, the positioning clamping end of the positioning block is provided with a clamping in-place adjusting roller.

In one embodiment, the vibratory hammering device comprises: a beating base, a beating driving part, a beating vibration generating part and a beating hammer;

the hammering driving part is arranged on the hammering base, the hammering hammer is arranged on the hammering base in a sliding mode along the vertical direction, and the hammering driving part drives the hammering hammer to do vibrating type lifting motion along the vertical direction through the hammering vibration generating part;

the hammering vibration generating portion includes: the elastic bearing rod, the left side linkage rod, the right side linkage rod and the clamping guide frame; the clamping guide frame is provided with a clamping accommodating cavity, a left side guide groove and a right side guide groove are formed in the clamping guide frame, and the left side guide groove and the right side guide groove are respectively positioned on two sides of the clamping accommodating cavity; the knocking hammer is accommodated in the clamping accommodating cavity in a lifting and sliding manner; one end of the left-side linkage rod and one end of the right-side linkage rod are respectively hinged with two ends of the elastic bearing rod, the other end of the left-side linkage rod penetrates through the left-side guide groove and is hinged with the knocking hammer, and the other end of the right-side linkage rod penetrates through the right-side guide groove and is hinged with the knocking hammer;

the power output end of the hammering driving part is connected with the middle part of the elastic bearing rod;

the cavity wall of chamber is acceptd in the centre gripping is equipped with a plurality of vibrations and takes place the elastic component, and is a plurality of vibrations take place the elastic component and be rectangular array along vertical direction and arrange, strike and be equipped with a plurality of vibrations on the hammer and take place the lug, it is a plurality of vibrations take place the lug and a plurality of vibrations take place the elastic component and support and hold or separate.

In one embodiment, the hammering driving part comprises: a rotary wheel disc and a movable connecting rod piece; the rotary wheel disc is rotatably arranged on the hammering base and drives the elastic bearing rod to reciprocate along the vertical direction through the movable connecting rod piece;

the exercise bicycle is in driving connection with the rotating wheel disc, and the exercise bicycle drives the rotating wheel disc to rotate.

The vibrating beating mechanism with the body building function for meat paste production can improve the capacity of meat balls on one hand, can obtain meat balls with superior quality on the other hand, and can also achieve body building in the working process on the other hand.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural diagram of a vibration-type beating mechanism for meat slurry production with exercise function according to an embodiment of the present invention;

FIG. 2 is a partial schematic structural view of the vibratory beating mechanism for meat slurry production shown in FIG. 1 with a body-building function;

FIG. 3 is a front view of the rotary loading and unloading apparatus shown in FIG. 2;

FIG. 4 is a top view of the rotary loading and unloading apparatus shown in FIG. 3;

FIG. 5 is a schematic structural view of a positioning structure of a tank body of the rotary loading and unloading device shown in FIG. 3;

FIG. 6 is a schematic view of the vibration type hammering device shown in FIG. 1;

fig. 7 is a schematic view illustrating a structure of a vibration generating elastic member of the vibration hammering device shown in fig. 6.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 and 2, the present invention discloses a vibrating beating mechanism 10 for meat slurry production with fitness function, which comprises a vibrating beating device 100 and a rotary feeding and discharging device 200 cooperating with the vibrating beating device 100.

The vibratory beating device 100 is used to beat meat pieces to obtain meat slurry. The rotary feeding and discharging device 200 is used for feeding meat pieces to the vibrating beating device 100 and discharging the internal mud in the vibrating beating device 100. It should be noted that the vibrating beating mechanism 10 for meat paste production with fitness function of the present invention employs the vibrating beating device 100, and the vibrating beating device 100 beats the meat mass, so that the production capacity of meat balls can be greatly increased on the basis of the ancient method.

Further, the vibratory beating mechanism 10 for meat paste production with exercise function further comprises an exercise bicycle 300 (as shown in fig. 1), and the exercise bicycle 300 is drivingly connected with the vibratory beating device 100. By arranging the exercise bicycle 300 and driving the vibration type beating device 100 to beat the meat cubes by using the exercise bicycle 300, a master worker can do labor to complete a production task and exercise to obtain a healthy body, and the effect of killing two birds with one stone is achieved.

Next, a specific structure of the rotary loading and unloading apparatus 200 will be described:

as shown in fig. 3 and 4, the rotary loading and unloading apparatus 200 includes: the rotary support base comprises a rotary support base 210, a rotary annular rail 220, a material containing tank 230 and a rotary driving part. The rotary annular rail 220 is arranged on the rotary support base 210 in an end-to-end surrounding manner, the material containing tank 230 is arranged on the rotary annular rail 220 in a sliding manner, and the rotary driving part is in driving connection with the material containing tank 230 so that the material containing tank 230 performs rotary motion along the rotary annular rail 220. In this embodiment, the material containing tanks 230 are plural in number, and the plural material containing tanks 230 are sequentially distributed at intervals along the track of the revolving circular track 220.

Specifically, as shown in fig. 4, the swing drive unit includes: a rotary driving motor (not shown), a rotary driving roller 241, a rotary driven roller 242, and a rotary belt 243.

As shown in fig. 4, the rotary driving roller 241 and the rotary driven roller 242 are rotatably disposed on the rotary support base 210, the rotary conveyor belt 243 is wound around the rotary driving roller 241 and the rotary driven roller 242 in an end-to-end manner, and the rotary driving motor is drivingly connected to the rotary driving roller 241.

As shown in fig. 4, the rotary conveyor 243 is located at an inner ring of the rotary endless track 220, the rotary conveyor 243 extends along a track of the rotary endless track 220, and the rotary conveyor 243 is connected to the material accommodating tank 230.

The operation principle of the rotary loader/unloader 200 will be described below:

the rotation driving motor drives the rotation driving roller 241 to rotate, and the rotation driving roller 241 drives the rotation driven roller 242 to rotate through the rotation transmission belt 243 as the rotation transmission belt 243 is wound between the rotation driving roller 241 and the rotation driven roller 242 in an end-to-end manner;

the rotary conveyor belt 243 is connected to the material accommodating tank 230, so that the rotary conveyor belt 243 for conveying motion drives the material accommodating tank 230 to move along the rotary circular track 220;

the material containing tank 230 is used for loading materials, on one hand, the material containing tank 230 can be used for loading meat pieces which are not beaten yet, and conveying the meat pieces to the vibration type beating device 100 for beating to obtain meat pulp, and on the other hand, the material containing tank 230 can also be used for conveying the meat pulp at the vibration type beating device 100 to the next station, so that the blanking operation of the meat pulp is realized;

therefore, the rotary conveyor belt 243 drives the material accommodating tank 230 to perform an annular rotary motion along the rotary annular track 220, so as to realize uninterrupted feeding and uninterrupted discharging of the material, and the operation is repeated in a continuous cycle.

During the operation of the above-mentioned rotary charging and discharging device 200, the material container 230 reaches the vibration-type hammering device 100, and the vibration-type hammering device 100 hammers the meat mass in the material container 230. It can be seen that the material accommodating tank 230 is vibrated and displaced during the hammering operation of the meat mass in the material accommodating tank 230 by the vibration-type hammering device 100, and for this reason, it is necessary to fix the material accommodating tank 230 on the revolving endless track 220.

To solve the technical problem, the rotary loading and unloading device 200 further includes a tank positioning structure. As shown in fig. 5, the can positioning structure includes: walking base 251, location pivot 252, intermediate link 253, locating piece 254, location cylinder 255.

The walking base 251 is provided with a clamping wheel set 256, and the clamping wheel set 256 is clamped on the rotary circular track 220. The positioning rotating shaft 252 is rotatably disposed on the rotary supporting seat 251, and the output end of the positioning cylinder 255 is drivingly connected to the positioning rotating shaft 252 through an intermediate connecting rod 253. The positioning block 254 is mounted on the positioning shaft 252, the positioning block 254 has a positioning clip end 257, and the walking base 251 is provided with a positioning clip groove 258 matched with the positioning clip end 257. The material container 230 is fixed on the walking base 251.

The working principle of the above-described can body positioning structure is explained below:

when the material containing tank 230 reaches the vibrating hammering device 100, the output end of the positioning cylinder 255 extends out and drives the positioning rotating shaft 252 to rotate through the middle connecting rod 253, and as the positioning block 254 is installed on the positioning rotating shaft 252, the rotating positioning rotating shaft 252 further drives the positioning block 254 to rotate, so that the positioning clamping end 257 on the positioning block 254 is clamped in the positioning clamping groove 258 of the walking base 251, the walking base 251 is fixed, and the material containing tank 230 on the walking base 251 is fixed;

after the vibrating type hammering device 100 finishes hammering the meat blocks in the material accommodating tank 230, the output end of the positioning cylinder 255 contracts and drives the positioning rotating shaft 252 to rotate reversely through the intermediate connecting rod 253, so that the positioning clamping end 257 on the positioning block 254 can be separated from the positioning clamping groove 258 of the walking base 251, the walking base 251 is in an unconstrained free state, and the material accommodating tank 230 on the walking base 251 can continue to walk along the rotary annular rail 220 and reach the next station.

In this embodiment, the number of the tank positioning structures is plural, and the plurality of tank positioning structures are sequentially distributed at intervals along the track of the revolving circular track 220. The positioning structure of the tank can be provided in plural, and it can be known that the positioning structure of the tank can be provided not only at the position of the vibration type hammering device 100, but also at other positions where positioning is required.

Further, the positioning clamp end 257 of the positioning block 254 is provided with a clamp-in-place adjusting roller 259 (as shown in fig. 5). Through setting up the joint and adjusting gyro wheel 259 that targets in place, can make the more smooth entering into of location joint end 257 in location joint groove 258, prevent the emergence of jamming phenomenon.

Next, a specific structure of the vibration hammering device 100 will be described:

as shown in fig. 2 and 6, the vibration hammering device 100 includes: a hammering base 110, a hammering driving part 120, a hammering vibration generating part 130, and a hammering hammer 140.

The hammering driving part 120 is installed on the hammering base 110, the hammering hammer 140 is slidably installed on the hammering base 110 along the vertical direction, and the hammering driving part 120 drives the hammering hammer 140 to perform vibration type lifting motion along the vertical direction through the hammering vibration generating part 130.

As shown in fig. 6, the hammering vibration generating portion 130 includes: the elastic carrying bar 131, the left-side linkage bar 132, the right-side linkage bar 133 and the clamping guide frame 134. The clamping guide frame 134 has a clamping cavity 135, and the clamping guide frame 134 has a left guide slot 136 and a right guide slot 137, and the left guide slot 136 and the right guide slot 137 are respectively located at two sides of the clamping cavity 135. The knocking hammer 140 is accommodated in the holding and accommodating cavity 135 in a lifting and sliding manner. One end of the left-side linkage 132 and one end of the right-side linkage 133 are respectively hinged to two ends of the elastic bearing rod 131, the other end of the left-side linkage 132 penetrates through the left-side guide groove 136 and is hinged to the knocking hammer 140, and the other end of the right-side linkage 133 penetrates through the right-side guide groove 137 and is hinged to the knocking hammer 140.

The power output end of the hammering driving part 120 is connected with the middle part of the elastic bearing rod 131.

As shown in fig. 6, the cavity wall of the clamping accommodating cavity 135 is provided with a plurality of vibration generating elastic members 138, the plurality of vibration generating elastic members 138 are arranged in a rectangular array along the vertical direction, the knocking hammer 140 is provided with a plurality of vibration generating protrusions 141, the plurality of vibration generating protrusions 141 are arranged in a rectangular array along the vertical direction, and the plurality of vibration generating protrusions 141 and the plurality of vibration generating elastic members 138 are abutted or separated. Specifically, as shown in fig. 7, the vibration generating elastic member 138 includes a spring 1381 and a floating protrusion 1382 connected to the spring 1381, a receiving hole 1351 is formed on a cavity wall of the holding receiving cavity 135, the spring 1381 is received in the receiving hole 1351, and a portion of the floating protrusion 1382 received in the receiving hole 1351 is exposed outside the receiving hole 1351.

The operation principle of the vibration hammering apparatus 100 will be explained below:

the material accommodating tank 230 reaches the vibration type hammering device 100, and the vibration type hammering device 100 hammers the meat blocks in the material accommodating tank 230;

the hammering driving part 120 directly drives the elastic bearing rod 131 to perform lifting motion, and the elastic bearing rod 131 drives the hammering hammer 140 to perform lifting motion through the left-side linkage rod 132 and the right-side linkage rod 133;

since the knocking hammer 140 is accommodated in the holding accommodating cavity 135 in a lifting and sliding manner, and the wall of the holding accommodating cavity 135 is provided with a plurality of vibration generation elastic members 138 corresponding to the vibration generation elastic members 138, and the knocking hammer 140 is provided with a plurality of vibration generation convex blocks 141, in this way, during the lifting movement of the knocking hammer 140, the vibration generation convex blocks 141 can be abutted against or separated from the vibration generation elastic members 138, at the moment of continuous abutting or separation, the elastic potential energy accumulated by the elastic bearing rod 131 can be instantaneously exploded, and the instantaneously exploded elastic potential energy can act on the knocking hammer 140, so that the knocking hammer 140 can continuously generate elastic vibration type movement during the descending process, so as to beat the meat particles in the material accommodating tank 230, so that the meat particles in the material accommodating tank 230 can be quickly beaten into meat pulp, and the production efficiency is greatly improved.

It is also important to note that this structural design of the clamping guide frame 134 also provides the necessary conditions for the resilient vibratory movement of the hammer 140. The clamping and guiding frame 134 has a clamping and accommodating cavity 135, the clamping and accommodating cavity 135 clamps the knocking hammer 140 in the cavity, and the knocking hammer 140 can perform a lifting motion in the cavity of the clamping and accommodating cavity 135 very stably.

Next, a specific configuration of the hammering drive part 120 will be described:

as shown in fig. 6, the hammering driving part 120 includes: a rotary wheel disc 121 and a movable connecting rod piece 122. The rotary wheel disc 121 is rotatably disposed on the hammering base 110, and the rotary wheel disc 121 drives the elastic bearing rod 131 to reciprocate along the vertical direction through the movable connecting rod 122. The exercise bicycle 300 is in driving connection with the rotating wheel disc 121, and the exercise bicycle 300 drives the rotating wheel disc 121 to rotate. Specifically, as shown in fig. 1, the wheels of the exercise bicycle 300 are connected to the wheel disc 121 via a belt. Thus, a worker can beat the meat cubes by driving the vibration type beating device 100 by the exercise bicycle 300, work is done to complete a production task, and exercise is performed to obtain a healthy body, so that the effect of killing two birds with one stone is achieved.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. A vibrating beating mechanism with a body-building function for meat paste production is characterized by comprising a vibrating beating device and a rotary feeding and discharging device matched with the vibrating beating device;

the vibratory beating device is used for beating the meat pieces to obtain meat pulp; the rotary feeding and discharging device is used for feeding meat pieces to the vibrating beating device and discharging the inner mud at the vibrating beating device;

the vibration type beating mechanism with the body building function for meat paste production further comprises a body building bicycle, and the body building bicycle is in driving connection with the vibration type beating device.

2. The vibrating beating mechanism with body building function for meat paste production of claim 1, wherein said rotary charging and discharging device comprises: the rotary supporting seat, the rotary annular track, the material containing tank and the rotary driving part are arranged on the rotary supporting seat;

the rotary annular rail is connected end to end and is arranged on the rotary supporting seat in a surrounding manner; the material containing tank is arranged on the rotary annular track in a sliding manner; the rotary driving part is in driving connection with the material containing tank so that the material containing tank can do rotary motion along the rotary annular rail.

3. The vibratory beating mechanism with exercise function for meat slurry production of claim 2, wherein said rotary drive comprises: a rotary driving motor, a rotary driving roller, a rotary driven roller and a rotary conveying belt;

the rotary driving roller and the rotary driven roller are rotatably arranged on the rotary supporting seat, the rotary conveying belt is wound between the rotary driving roller and the rotary driven roller in an end-to-end manner, and the rotary driving motor is in driving connection with the rotary driving roller;

the rotary conveyor belt is positioned on the inner ring of the rotary annular track, extends along the track of the rotary annular track, and is connected with the material accommodating tank.

4. The vibratory beating mechanism with body building function for meat slurry production of claim 3 wherein said material holding tanks are in plurality, and a plurality of said material holding tanks are sequentially spaced along the track of said revolving circular track.

5. The vibratory beating mechanism with body building function for meat slurry production of claim 3, wherein said rotary charging and discharging device further comprises a tank positioning structure; jar body location structure includes: the device comprises a walking base, a positioning rotating shaft, a middle connecting rod, a positioning block and a positioning cylinder;

a clamping wheel set is arranged on the walking base and clamped on the rotary annular track;

the positioning rotating shaft is rotatably arranged on the rotary supporting seat, and the output end of the positioning air cylinder is in driving connection with the positioning rotating shaft through the middle connecting rod;

the positioning block is arranged on the positioning rotating shaft and provided with a positioning clamping end, and a positioning clamping groove matched with the positioning clamping end is formed in the walking base;

the material containing tank is fixed on the walking base.

6. The vibratory beating mechanism with body building function for meat slurry production of claim 5 wherein said plurality of can positioning structures are sequentially spaced along the trajectory of said circular track.

7. The vibrating beating mechanism with body building function for meat slurry production according to claim 5, wherein the positioning clamping end of the positioning block is provided with a clamping in-place adjusting roller.

8. The vibratory beating mechanism with fitness function for meat slurry production of claim 1, wherein said vibratory beating device comprises: a beating base, a beating driving part, a beating vibration generating part and a beating hammer;

the hammering driving part is arranged on the hammering base, the hammering hammer is arranged on the hammering base in a sliding mode along the vertical direction, and the hammering driving part drives the hammering hammer to do vibrating type lifting motion along the vertical direction through the hammering vibration generating part;

the hammering vibration generating portion includes: the elastic bearing rod, the left side linkage rod, the right side linkage rod and the clamping guide frame; the clamping guide frame is provided with a clamping accommodating cavity, a left side guide groove and a right side guide groove are formed in the clamping guide frame, and the left side guide groove and the right side guide groove are respectively positioned on two sides of the clamping accommodating cavity; the knocking hammer is accommodated in the clamping accommodating cavity in a lifting and sliding manner; one end of the left-side linkage rod and one end of the right-side linkage rod are respectively hinged with two ends of the elastic bearing rod, the other end of the left-side linkage rod penetrates through the left-side guide groove and is hinged with the knocking hammer, and the other end of the right-side linkage rod penetrates through the right-side guide groove and is hinged with the knocking hammer;

the power output end of the hammering driving part is connected with the middle part of the elastic bearing rod;

the cavity wall of chamber is acceptd in the centre gripping is equipped with a plurality of vibrations and takes place the elastic component, and is a plurality of vibrations take place the elastic component and be rectangular array along vertical direction and arrange, strike and be equipped with a plurality of vibrations on the hammer and take place the lug, it is a plurality of vibrations take place the lug and a plurality of vibrations take place the elastic component and support and hold or separate.

9. The vibratory beating mechanism with fitness function for meat slurry production of claim 8, wherein said beating drive comprises: a rotary wheel disc and a movable connecting rod piece; the rotary wheel disc is rotatably arranged on the hammering base and drives the elastic bearing rod to reciprocate along the vertical direction through the movable connecting rod piece;

the exercise bicycle is in driving connection with the rotating wheel disc, and the exercise bicycle drives the rotating wheel disc to rotate.

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