阅读说明：本技术 一种能高效制作肉丸的机器 (Machine capable of efficiently making meatballs ) 是由 苏明 于 2020-07-08 设计创作，主要内容包括：本发明公开的一种能高效制作肉丸的机器,包括加工机体,所述加工机体内设有开口向上的加工腔,所述加工腔内设有往复填充机构,所述往复填充机构包括固设在所述加工腔底壁上的填充底座,本发明应用于肉类加工生产中肉丸的制作,在加工过程中通过从动轴和主动轴的作用碾碎猪肉,通过推动机构能够使猪肉能够完美的落入混合腔内进行佐料的混合,同时上滑块和下滑块相互配合能够使混合腔内的猪肉能够不浪费,在制作的过程中通过往复填充机构能够使肉丸更加饱满和紧实,同时也不会导致材料的浪费,进而达到了高质量,高效率的完成肉丸的制作,最后通过冷藏腔内的冷藏作用,使落入其中的肉丸不会变味。(The invention discloses a machine capable of efficiently making meatballs, which comprises a processing machine body, wherein a processing cavity with an upward opening is arranged in the processing machine body, a reciprocating filling mechanism is arranged in the processing cavity, the reciprocating filling mechanism comprises a filling base fixedly arranged on the bottom wall of the processing cavity, the machine is applied to the making of meatballs in meat processing production, pork is ground under the action of a driven shaft and a driving shaft in the processing process, the pork can perfectly fall into a mixing cavity through a pushing mechanism to mix seasonings, meanwhile, the pork in the mixing cavity can not be wasted due to the mutual matching of an upper sliding block and a lower sliding block, the meatballs can be fuller and compacter through the reciprocating filling mechanism in the making process, the waste of materials can not be caused, the high quality and the efficient making of the meatballs can be achieved, and finally, the refrigeration function in a refrigeration cavity is adopted, so that the meat balls falling into the meat balls can not be changed in taste.)

1. The utility model provides a machine that can high-efficient preparation meat ball, includes the processing organism, its characterized in that: a processing cavity with an upward opening is arranged in the processing machine body, a reciprocating filling mechanism is arranged in the processing cavity and comprises a filling base fixedly arranged on the bottom wall of the processing cavity, an article placing cavity with an upward opening is arranged at the upper end of the filling base, a round cavity and a sliding cavity with an upward opening are arranged in the filling base, the round cavity is communicated with the lower wall of the sliding cavity, two main forming molds are arranged between the upper wall and the lower wall of the round cavity in a left-right sliding manner, two main forming cavities are arranged in the main forming molds, a through hole is communicated between the two main forming cavities, the openings of the main forming cavities deviate from the through hole, the main forming cavities are bilaterally symmetrical by taking the through hole as a symmetrical center, a supporting block is fixedly arranged at the upper end of each main forming mold and slides leftwards and rightwards between the front wall and the rear wall of the sliding cavity, the upper end of the supporting block is fixedly provided with a pushing block which slides left and right in the storage cavity, the left and right end faces of the filling base are respectively abutted with forming handles, the lower ends of the two forming handles are fixedly provided with auxiliary forming dies, one side of the two auxiliary forming dies, which is close to each other, is provided with an auxiliary forming cavity with opposite openings, the auxiliary forming cavity and the main forming cavity can be communicated with each other, the upper wall of the processing cavity is communicated with a grinding cavity, the grinding cavity is internally provided with a pushing mechanism, the pushing mechanism comprises two inclined blocks fixedly arranged on the left and right walls of the grinding cavity, the upper ends of the inclined blocks are inclined towards the side of the inclined blocks, which is close to each other, the lower ends of the inclined blocks are fixedly provided with guide rails, inclined sliding plates are arranged in the guide rails in a left and right sliding manner, one end faces, which are close to each other, of the two inclined sliding plates are abutted against each other, two the spring block has set firmly on the terminal surface that the atress piece was kept away from each other, the spring block is in the horizontal slip on the diapire in crushing chamber, two the top shoe has set firmly in the one side that the spring block is close to each other, the mutual butt of a terminal surface that the top shoe is close to each other, the fixed block has set firmly between the wall about crushing chamber, fixed block internal rotation connection is equipped with hybrid shell, hybrid shell rotate connect in the top shoe, hybrid shell seted up with the hybrid chamber that the crushing chamber lower wall is linked together, just the lower wall of hybrid chamber with the upper wall in processing chamber communicates mutually.

2. A machine for efficiently making meatballs according to claim 1, wherein: the utility model discloses a grinding chamber, including grinding chamber, motor chamber, worm wheel, the last wall fixed mounting in motor chamber has big motor, the lower terminal surface power of big motor is connected and is equipped with the worm, the meshing is equipped with the worm wheel under the worm on global, the axis of rotation has been linked firmly on the preceding terminal surface of worm wheel, the axis of rotation extends left and runs through the inner wall of hybrid chamber and stretches into in the left wall of grinding chamber, the fixed block rotate connect in the axis of rotation, the axis of rotation with fixed connection between the hybrid shell, two compression spring have been linked firmly on the left and right wall of grinding chamber, the one end that compression spring is close to each other links firmly two on the terminal surface that the spring block kept away from each other.

3. A machine for efficiently making meatballs according to claim 1, wherein: fixed mounting has a small motor on putting the left wall in thing chamber, the right-hand member face power connection of small motor is equipped with the screw rod, the screw rod extends right and runs through promote the piece and stretch into in the right wall of thing chamber, the screw rod with promote threaded connection between the piece.

4. A machine for efficiently making meatballs according to claim 1, wherein: fixed mounting has the air pump on the left and right wall of process chamber respectively, two be equipped with the cylinder on the terminal surface that the air pump is close to each other, two cylinders are close to each other serve and articulate respectively and be equipped with the turning block, be equipped with fixed connection in the turning block fixed axle between the wall around the process chamber, the turning block round the fixed axle left and right sides is rotated, two in the one side that the turning block is close to each other with the upper end of shaping handle is articulated, just the articulated butt pole that is equipped with in upper end of turning block, two the slider down, two has set firmly on the terminal surface that the butt pole is close to each other the mutual butt of one end that the lower slider is close to, just down the slider with rotate between the hybrid case and connect.

5. A machine for efficiently making meatballs according to claim 1, wherein: the grinding device comprises a grinding cavity, a driving shaft, a belt, ten grinding wheels, a driven wheel, a large motor, a belt and a belt, wherein the upper wall of the grinding cavity is communicated with a feeding cavity with an upward opening, the left wall and the right wall of the grinding cavity are rotatably connected and provided with the driven shaft, the peripheral surface of the driven shaft is provided with the ten grinding wheels in an array manner, the left end of the driven shaft is fixedly provided with the driven wheel, the left end surface of the large motor is provided with the driving shaft in a power connection manner, the driving shaft extends leftwards and extends into the left wall of the grinding cavity, the peripheral surface of the driving shaft is provided with the ten grinding wheels in an array manner, the grinding wheels at the upper side are.

6. A machine for efficiently making meatballs according to claim 1, wherein: two refrigerated cabinets are fixedly arranged on the bottom wall of the processing cavity, a refrigerating cavity with an upward opening is formed in each refrigerated cabinet, and the refrigerating cavity is communicated with the processing cavity.

Technical Field

The invention relates to the field of meat processing, in particular to a machine capable of efficiently making meatballs.

Background

The meat balls are indispensable food in daily life, the existing meat ball processing machine only has a processing function, so that excessive waste of materials can be caused, meanwhile, the influence of peculiar smell generated inside the device can be caused, and the meat balls cannot be fully filled in the processing process, so that the taste of the meat balls is influenced.

Disclosure of Invention

In order to solve the problems, the invention provides a machine capable of efficiently making meatballs, which comprises a processing machine body, wherein a processing cavity with an upward opening is arranged in the processing machine body, a reciprocating filling mechanism is arranged in the processing cavity, the reciprocating filling mechanism comprises a filling base fixedly arranged on the bottom wall of the processing cavity, an object placing cavity with an upward opening is arranged at the upper end of the filling base, a round cavity and a sliding cavity with an upward opening are arranged in the filling base, the upper wall of the round cavity is communicated with the lower wall of the sliding cavity, two main forming molds are arranged between the upper wall and the lower wall of the round cavity in a sliding mode, two main forming cavities are arranged in the main forming molds, through holes are communicated between the two main forming cavities, and the openings of the main forming cavities are deviated from the through holes, the main forming cavity is bilaterally symmetrical by taking the through hole as a symmetrical center, a supporting block is fixedly arranged at the upper end of the main forming die, the supporting block slides leftwards and rightwards between the front wall and the rear wall of the sliding cavity, a pushing block is fixedly arranged at the upper end of the supporting block, the pushing block slides leftwards and rightwards in the object placing cavity, forming handles are respectively abutted against the left end surface and the right end surface of the filling base, an auxiliary forming die is fixedly arranged at the lower ends of the two forming handles, an auxiliary forming cavity with opposite openings is arranged in the side, close to each other, of the two auxiliary forming dies, the auxiliary forming cavity is mutually communicated with the main forming cavity, a crushing cavity is communicated in the upper wall of the processing cavity, a pushing mechanism is arranged in the crushing cavity and comprises two inclined blocks fixedly arranged on the left wall and the right wall of the crushing cavity, and the upper ends of the inclined blocks are inclined towards, the lower extreme internal fixation of tilting block has the guide rail, the horizontal slip is equipped with the inclined sliding plate, two in the guide rail the mutual butt of a terminal surface that the inclined sliding plate is close to each other, the lower terminal surface of inclined sliding plate has set firmly the atress piece, two the spring block has set firmly on the terminal surface that the atress piece was kept away from each other, the spring block is in horizontal slip on the diapire of crushing chamber, two the top shoe has set firmly in the one side that the spring block is close to each other, the mutual butt of a terminal surface that the top shoe is close to each other, it has set firmly the fixed block to crush the chamber left and right sides between the wall, fixed block internal rotation connection is equipped with hybrid shell, hybrid shell rotate connect in the top shoe, hybrid shell in seted up with crush the mixing chamber that the chamber lower wall is linked together, just the lower wall of hybrid chamber with the upper.

Preferably, the right wall in crushing chamber has been seted up the motor chamber, the upper wall fixed mounting in motor chamber has big motor, the lower terminal surface power of big motor is connected and is equipped with the worm, the meshing is equipped with the worm wheel on global under the worm, the axis of rotation has been linked firmly on the preceding terminal surface of worm wheel, the axis of rotation extends left and runs through the inner wall of hybrid chamber and stretches into in the left wall in crushing chamber, the fixed block rotate connect in the axis of rotation, the axis of rotation with fixed connection between the hybrid shell, two compression spring have been linked firmly on the left and right wall in crushing chamber, the one end that compression spring is close to each other links firmly two on the terminal surface that the spring block kept away from each other.

Preferably, fixed mounting has a small motor on the left wall of putting the thing chamber, the right end face power connection of small motor is equipped with the screw rod, the screw rod extends right and runs through promote the piece and stretch into in the right wall of putting the thing chamber, the screw rod with promote threaded connection between the piece.

But preferably, on the wall of the left and right sides of process chamber respectively fixed mounting have the air pump, two be equipped with the cylinder on the terminal surface that the air pump is close to each other, two cylinders are close to each other serve and articulate respectively and be equipped with the turning block, be equipped with fixed connection in the turning block between the wall around the process chamber, the turning block round the fixed axle is controlled and is rotated, two in the one side that the turning block is close to each other with the upper end of shaping handle is articulated, just the articulated butt pole that is equipped with in upper end of turning block, two the butt pole has set firmly down the slider, two on being close to each other the terminal surface that the lower slider is close to each other one end can butt each other, just down the slider with rotate between the hybrid housing and connect.

Preferably, the upper wall of the grinding cavity is communicated with a feeding cavity with an upward opening, a driven shaft is rotatably connected between the left wall and the right wall of the grinding cavity, ten grinding wheels are distributed on the circumferential surface of the driven shaft in an array manner, a driven wheel is fixedly arranged at the left end of the driven shaft, a driving shaft is arranged on the left end surface of the large motor in a power connection manner, the driving shaft extends leftwards and extends into the left wall of the grinding cavity, ten grinding wheels are distributed on the circumferential surface of the driving shaft in an array manner, the grinding wheels at the upper side are matched with the grinding wheels at the lower side, a driving wheel is fixedly arranged at the left end of the driving shaft, and a belt is arranged between the driving wheel and the driven wheel in a belt connection manner.

Preferably, two refrigerated cabinets are fixedly arranged on the bottom wall of the processing cavity, a refrigerating cavity with an upward opening is formed in each refrigerated cabinet, and the refrigerating cavity is communicated with the processing cavity.

The invention has the beneficial effects that: the meat ball making machine is applied to making meat balls in meat processing production, pork is ground under the action of the driven shaft and the driving shaft in the processing process, the pork can fall into a mixing cavity perfectly through the pushing mechanism to mix seasonings, meanwhile, the upper sliding block and the lower sliding block are matched with each other to prevent the pork in the mixing cavity from being wasted, the meat balls can be fuller and compacter through the reciprocating filling mechanism in the making process, meanwhile, material waste cannot be caused, the high quality and high efficiency are achieved, the meat balls are made, and finally, the meat balls falling into the refrigerating cavity cannot be changed in flavor through the refrigerating effect in the refrigerating cavity.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a machine for efficiently producing meat balls according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "D" of FIG. 1;

fig. 6 is a schematic view of the structure in the direction "E" of fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a machine capable of efficiently making meat balls, which comprises a processing machine body 11, wherein a processing cavity 56 is arranged in the processing machine body 11, a reciprocating filling mechanism 102 is arranged in the processing cavity 56, the reciprocating filling mechanism 102 comprises a filling base 29 fixedly arranged on the bottom wall of the processing cavity 56, an object placing cavity 58 with an upward opening is arranged at the upper end of the filling base 29, a round cavity 46 with a left-right through structure and a sliding cavity 57 with an upward opening are arranged in the filling base 29, the upper wall of the round cavity 46 is communicated with the lower wall of the sliding cavity 57, two main forming molds 55 are arranged between the upper wall and the lower wall of the round cavity 46 in a left-right sliding mode, two main forming cavities 48 are arranged in the main forming molds 55, a through hole 49 is communicated between the two main forming cavities 48, the openings of the main forming cavities 48 are deviated from the through hole 49, the main forming cavities 48 are symmetrical left-right by taking the through hole 49 as, a supporting block 47 is fixedly arranged at the upper end of the main forming die 55, the supporting block 47 slides left and right between the front wall and the rear wall of the sliding cavity 57, a pushing block 44 is fixedly arranged at the upper end of the supporting block 47, the pushing block 44 slides left and right in the storage cavity 58, the left end surface and the right end surface of the filling base 29 are respectively provided with a forming handle 34 in a butting way, the lower ends of the two forming handles 34 are fixedly provided with an auxiliary forming die 31, one surface, close to each other, of the two auxiliary forming dies 31 is provided with an auxiliary forming cavity 30 with opposite openings, the auxiliary forming cavity 30 can be mutually communicated with the main forming cavity 48, the upper wall of the processing cavity 56 is internally communicated with a grinding cavity 12, a pushing mechanism 101 is arranged in the grinding cavity 12, the pushing mechanism 101 comprises two inclined blocks 22 fixedly arranged on the left wall and the right wall of the grinding cavity 12, the upper ends of the inclined blocks 22 are inclined towards the surface, a guide rail 23 is fixedly arranged in the lower end of the inclined block 22, inclined sliding plates 41 are arranged in the guide rail 23 in a left-right sliding manner, one end faces of the two inclined sliding plates 41, which are close to each other, are abutted against each other, the lower end surface of the inclined sliding plate 41 is fixedly provided with a stress block 39, one end surface of the two stress blocks 39 which are far away from each other is fixedly provided with a spring block 38, the spring blocks 38 slide left and right on the bottom wall of the grinding chamber 12, an upper slide block 37 is fixedly arranged on the surface of the two spring blocks 38 close to each other, one end faces of the upper sliding blocks 37, which are close to each other, are mutually abutted, a fixed block 36 is fixedly arranged between the left wall and the right wall of the grinding cavity 12, a mixing shell 42 is rotatably connected in the fixed block 36, the mixing shell 42 is rotatably connected with the upper sliding block 37, a mixing cavity 35 communicated with the lower wall of the grinding cavity 12 is arranged in the mixing shell 42, and the lower wall of the mixing cavity 35 is communicated with the upper wall of the processing cavity 56.

Advantageously, a motor cavity 24 is provided on the right wall of the grinding cavity 12, a large motor 20 is fixedly mounted on the upper wall of the motor cavity 24, a worm 21 is provided on the lower end surface of the large motor 20 in a power connection manner, a worm wheel 25 is engaged with the lower peripheral surface of the worm 21, a rotating shaft 26 is fixedly connected to the front end surface of the worm wheel 25, the rotating shaft 26 extends leftwards through the inner wall of the mixing cavity 35 and extends into the left wall of the grinding cavity 12, the fixed block 36 is rotatably connected to the rotating shaft 26, the rotating shaft 26 is fixedly connected to the mixing housing 42, two compression springs 40 are fixedly connected to the left and right walls of the grinding cavity 12, the ends of the compression springs 40 close to each other are fixedly connected to the end surfaces of the two spring blocks 38 away from each other, when the ground pork falls on the tilt blocks 22, the pork can roll down onto the tilt slides 41 due to the tilting action of the tilt blocks 22, the pork on the inclined sliding plate 41 is accumulated more and more at the moment, so that the stress block 39 is driven to move, the spring block 38 is driven to move, the compression spring 40 is compressed, the movement of the upper sliding block 37 is driven by the movement of the spring block 38, the two upper sliding blocks 37 are kept away continuously, so that the pork falls into the mixing cavity 35, the large motor 20 starts to drive the worm 21 to rotate at the moment, the worm gear 25 is driven to rotate, the rotating shaft 26 is driven to rotate, the whole mixing shell 42 is driven to rotate, the pork and seasonings in the mixing cavity 35 are fully mixed, when no pork exists on the inclined sliding plate 41, the spring block 38 is driven to return to the initial position under the effect of the rebounding force of the compression spring 40 at the moment, the upper sliding block 37 and the stress block 39 are driven to return to the initial position, and the two inclined sliding.

Beneficially, a small motor 33 is fixedly mounted on the left wall of the storage cavity 58, a screw rod 45 is disposed on the right end face of the small motor 33 in a power connection manner, the screw rod 45 extends through the pushing block 44 to extend into the right wall of the storage cavity 58 rightward, the screw rod 45 is in threaded connection with the pushing block 44, when pork falls into the storage cavity 58, the small motor 33 drives the screw rod 45 to rotate forward, and further drives the pushing block 44 to slide rightward, so that pork in the storage cavity 58 can be pushed into the right side of the sliding cavity 57 by the pushing block 44, the sliding of the pushing block 44 drives the supporting block 47 to slide rightward in the sliding cavity 57, and further drives the main forming mold 55 to slide rightward in the circular cavity 46, so that the main forming mold 55 on the right side can be continuously filled with pork in the sliding cavity 57, when too much pork is in the main forming mold 55, the pork enters the main forming mold 55 on the left side along the through hole 49, until the right main forming die 55 abuts against the right auxiliary forming die 31, so that the right auxiliary forming die 31 can be filled with pork, at this time, the small motor 33 starts to drive the screw 45 to rotate in the reverse direction, at this time, the right main forming die 55 is separated from the right auxiliary forming die 31, the screw 45 rotates to drive the pushing block 44 to slide leftward, so that the pork in the storage cavity 58 can be pushed into the left side of the sliding cavity 57 by the pushing block 44, the sliding of the pushing block 44 drives the supporting block 47 to slide leftward in the sliding cavity 57, and further drives the main forming die 55 to slide leftward in the circular cavity 46, so that the left main forming die 55 can be continuously filled with pork in the sliding cavity 57, when too much pork is in the main forming die 55, the left main forming die 55 will enter the right main forming die 55 along the through hole 49 until the left main forming die 55 abuts against the left auxiliary forming die 31, so that the pork can fill the left auxiliary forming die 31 and continue to reciprocate.

Beneficially, air pumps 52 are fixedly mounted on the left wall and the right wall of the processing cavity 56 respectively, an air cylinder 53 is arranged on one end face of each of the two air pumps 52 close to each other, a rotating block 51 is hinged to one end of each of the two air cylinders 53 close to each other respectively, a fixed shaft 54 fixedly connected between the front wall and the rear wall of the processing cavity 56 is arranged in each rotating block 51, each rotating block 51 rotates left and right around the fixed shaft 54, one face of each rotating block 51 close to each other is hinged to the upper end of the forming handle 34, the upper end of each rotating block 51 is hinged to a connecting rod 50, a lower sliding block 43 is fixedly arranged on one end face of each connecting rod 50 close to each other, one ends of the two lower sliding blocks 43 close to each other can be connected with each other in a mutually abutting mode, the lower sliding block 43 is rotatably connected with the mixing shell 42, when the pork mixed in the mixing cavity 35, at this time, the air pump 52 drives the air cylinder 53 to extend, so as to drive the rotating block 51 to rotate around the fixed shaft 54, further drive the abutting rod 50 to slide, further drive the lower sliding block 43 to slide, so as to enable the pork to fall into the storage cavity 58, and at this time, the rotating block 51 drives the forming handle 34 to slide, thereby driving the auxiliary forming mold 31 to separate from the main forming mold 55.

Advantageously, the upper wall of the grinding chamber 12 is communicated with a feeding chamber 16 with an upward opening, a driven shaft 17 is rotatably connected between the left wall and the right wall of the grinding chamber 12, ten grinding wheels 19 are arranged on the circumferential surface of the driven shaft 17 in an array, a driven wheel 14 is fixedly arranged at the left end of the driven shaft 17, a driving shaft 18 is arranged on the left end surface of the large motor 20 in a power connection manner, the driving shaft 18 extends leftwards and extends into the left wall of the grinding chamber 12, ten grinding wheels 19 are arranged on the circumferential surface of the driving shaft 18 in an array, the grinding wheels 19 at the upper side and the grinding wheels 19 at the lower side are matched with each other, a driving wheel 13 is fixedly arranged at the left end of the driving shaft 18, a belt 15 is arranged between the driving wheel 13 and the driven wheel 14 in a belt connection manner, when pork enters the feeding chamber 16, the pork falls into the upper side of the grinding chamber 12, and the large, thereby driving the lower grinding wheel 19 to rotate, further driving the driving wheel 13 to rotate, further driving the belt 15 to rotate, further driving the driven wheel 14 to rotate, further driving the driven shaft 17 to rotate, further driving the upper grinding wheel 19 to rotate, and further continuously mashing the pork, so that the pork continuously falls onto the inclined block 22 in a fine shape.

Advantageously, two refrigerated cabinets 27 are fixed to the bottom wall of the processing chamber 56, a refrigerated chamber 28 with an upward opening is formed in the refrigerated cabinet 27, the refrigerated chamber 28 is communicated with the processing chamber 56, and when the forming handle 34 drives the secondary forming die 31 to move away from the primary forming die 55, the processed meat balls in the primary forming die 55 fall into the refrigerated chamber 28 for refrigeration.

The steps of the machine for efficiently producing meatballs herein are described in detail below with reference to fig. 1 to 6: in the initial state, the large motor 20 and the small motor 33 do not start to operate, the two inclined sliding plates 41 are in the closed state, the two lower sliding blocks 43 are also in the closed state, the secondary forming die 31 does not abut against the primary forming die 55, the compression spring 40 is not compressed, the pushing block 44 and the supporting block 47 are in the intermediate position, the two air pumps 52 do not start to operate, the air cylinder 53 is in the initial position, the force receiving block 39, the spring block 38, the upper sliding block 37 are in the initial position, and the lower sliding blocks 43, the abutting rod 50, the rotating block 51 and the forming handle 34 are in the initial position.

When pork enters the feeding cavity 16, the pork falls into the upper side of the grinding cavity 12, and then the large motor 20 starts to drive the driving shaft 18 to rotate, further drive the lower side grinding wheel 19 to rotate, further drive the driving wheel 13 to rotate, further drive the belt 15 to rotate, further drive the driven wheel 14 to rotate, further drive the driven shaft 17 to rotate, further drive the upper side grinding wheel 19 to rotate, further continuously smash the pork, and enable the pork to continuously fall onto the inclined block 22 in a fine shape; when the thin pork falls on the inclined block 22, the pork rolls down the inclined sliding plate 41 due to the inclined action of the inclined block 22, the pork on the inclined sliding plate 41 accumulates more until reaching a certain weight, the inclined sliding plate 41 drives the force bearing block 39 to move, the spring block 38 is driven to move, the compression spring 40 is compressed continuously, the movement of the spring block 38 drives the upper sliding block 37 to move, the two upper sliding blocks 37 are opened continuously, the pork falls into the mixing cavity 35 to start mixing, the large motor 20 starts to drive the worm 21 to rotate, the worm wheel 25 is driven to rotate, the rotating shaft 26 is driven to rotate, the mixing shell 42 is driven to rotate integrally, the pork and the seasonings in the mixing cavity 35 are mixed fully, when the inclined sliding plate 41 does not have the pork, the spring block 38 is driven to return to the initial position by the effect of the rebound force of the compression spring 40, thereby driving the upper slide block 37 and the stress block 39 to return to the initial position, and further driving the two inclined slide plates 41 to abut and close; when the pork mixed in the mixing cavity 35 falls onto the lower sliding block 43, the air pump 52 drives the air cylinder 53 to stretch, so as to drive the rotating block 51 to rotate around the fixed shaft 54, further drive the abutting rod 50 to slide, further drive the lower sliding block 43 to slide, so as to enable the pork to fall into the storage cavity 58, at the moment, the rotating block 51 drives the forming handle 34 to slide, so as to drive the auxiliary forming mold 31 to be separated from the main forming mold 55, until the lower sliding block 43 is completely opened, at the moment, the air pump 52 drives the air cylinder 53 to contract, so as to drive the rotating block 51 to rotate reversely, so as to drive the abutting rod 50 and the lower sliding block 43 to move, so as to recover to the initial position, and the rotating block 51 rotates to drive the forming; when pork falls into the storage cavity 58, the small motor 33 drives the screw 45 to rotate in the forward direction, and further drives the pushing block 44 to slide rightward, so that the pork in the storage cavity 58 can be pushed into the right side of the sliding cavity 57 by the pushing block 44, the sliding of the pushing block 44 drives the supporting block 47 to slide rightward in the sliding cavity 57, and further drives the main forming mold 55 to slide rightward in the circular cavity 46, so that the main forming mold 55 on the right side can be continuously filled with pork in the sliding cavity 57, when too much pork is in the main forming mold 55, the too much pork enters the main forming mold 55 on the left side along the through hole 49 until the main forming mold 55 on the right side abuts against the auxiliary forming mold 31 on the right side, so that the pork can also be filled into the auxiliary forming mold 31 on the right side, at this time, the air pump 52 drives the air cylinder 53 to contract, thereby driving the rotating block 51 to rotate, and further driving the forming handle 34 to separate from the main forming mold 55, so that the finished meatballs fall into the refrigerating cavity 28, at the moment, the small motor 33 starts to drive the screw rod 45 to rotate in a reverse direction, at the moment, the main forming die 55 on the right side is separated from the auxiliary forming die 31 on the right side, the screw rod 45 rotates to drive the pushing block 44 to slide leftwards, so that the pork in the storage cavity 58 can be pushed into the left side of the sliding cavity 57 by the pushing block 44, the sliding of the pushing block 44 drives the supporting block 47 to slide leftwards in the sliding cavity 57, and further drives the main forming die 55 to slide leftwards in the circular cavity 46, so that the main forming die 55 on the left side can be continuously filled with pork in the sliding cavity 57, when too much pork is in the main forming die 55, the pork can enter the main forming die 55 on the right side along the through hole 49 until the main forming die 55 on the left side abuts against the auxiliary forming die 31 on the left side, and the pork can also be filled in the auxiliary forming die, at the moment, the air pump 52 drives the air cylinder 53 to contract, so that the rotating block 51 is driven to rotate, the forming handle 34 is driven to be separated from the main forming die 55, and the finished meatballs fall into the refrigerating cavity 28 and continue to reciprocate; the invention has the beneficial effects that: the meat ball making machine is applied to making meat balls in meat processing production, pork is ground under the action of the driven shaft and the driving shaft in the processing process, the pork can fall into a mixing cavity perfectly through the pushing mechanism to mix seasonings, meanwhile, the upper sliding block and the lower sliding block are matched with each other to prevent the pork in the mixing cavity from being wasted, the meat balls can be fuller and compacter through the reciprocating filling mechanism in the making process, meanwhile, material waste cannot be caused, the high quality and high efficiency are achieved, the meat balls are made, and finally, the meat balls falling into the refrigerating cavity cannot be changed in flavor through the refrigerating effect in the refrigerating cavity.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.