CN111972467B - Edible muddy meat processing device - Google Patents

Abstract

The invention provides an edible muddy meat processing device which comprises a stirring container, a stirring mechanism and a driving mechanism for driving the stirring mechanism to operate, wherein the stirring container is arranged in the stirring container; the stirring container comprises a first stirring barrel with a first containing cavity inside and a second stirring barrel with a second containing cavity inside, and stirring overlapped areas which are mutually communicated are arranged between the first containing cavity and the second containing cavity; the stirring mechanism comprises a first stirring block rotationally pivoted in the first containing cavity and a second stirring block rotationally pivoted in the second containing cavity, and the rotation axes of the first stirring block and the second stirring block are parallel to each other. The invention has the advantages that: can enough improve the efficiency of beating mud through beating and the mode that the extrusion combines together, can realize again extruding the cell liquid of materials such as meat, guarantee simultaneously that the fibre is not impaired to the meat mud of assurance processing has more elasticity.

Description

Edible muddy meat processing device

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of intelligent manufacturing, in particular to an edible mashed meat processing device.

[ background of the invention ]

In daily life, people often eat dumplings, chaotic wheaten foods with fillings and the like, wherein most fillings can be used only by processing meat into small particles, generally, the meat is cut manually by a cutter or beaten by a wood stick, the former is simpler to operate compared with the latter, but the cut meat is granular and has poor taste, and the latter is muddy, more elastic and better in taste and is more popular. However, the latter has low efficiency and high cost, and the minced meat is easy to splash during the beating process, so that the waste is serious. Regardless of the manual mode, the efficiency is very low, the cost is also high, so people adopt machines such as a stirrer or a mincing machine to replace manual work, the structure of the stirrer or the mincing machine is known, for example, the Chinese patent application CN 20108372757578.1 discloses a meat grinder, which comprises a shell assembly, a motor assembly, a gearbox and a cutter assembly, wherein the shell assembly comprises an upper shell assembly and a lower shell assembly, the motor assembly and the gearbox are arranged in the upper shell assembly, the motor assembly is arranged above the gearbox and is in transmission connection with the gearbox, the gearbox comprises a gearbox upper cover, a speed change assembly, an output shaft member and a gearbox lower cover, the speed change assembly and the output shaft member are arranged between the gearbox upper cover and the gearbox lower cover, the upper side of the output shaft member is connected with the speed change assembly, the lower side of the output shaft member is provided with an output shaft bulge, the middle part of the gearbox lower cover is provided with a shaft hole, the output shaft bulge downwards penetrates through the shaft hole, the output shaft is provided with a cutter mounting part, the cutter assembly is connected with the cutter mounting part and is arranged in the lower shell assembly, the gearbox also comprises a bearing, the bearing is sleeved outside the output shaft bulge, and an outer ring of the bearing is mounted on the gearbox upper cover. The invention is similar to other meat mincer in the market in structure, and adopts cutting type processing, although the processing efficiency is improved, the processed meat is obviously granular, the elasticity is poor, the taste is poor, and the practicability needs to be improved.

In order to solve the problems, the chinese invention patent CN201810840079.7 discloses a high-efficiency mud-beating machine, which comprises a stirring barrel, a stirring device and a driving device for driving the stirring device to operate; the stirring barrel comprises a first barrel body and a second barrel body, the axis of the first barrel body is parallel to the axis of the second barrel body, the distance between the axes of the first barrel body and the second barrel body is smaller than the sum of the radii of the first barrel body and the second barrel body, and a communication port and a stirring overlapping area are arranged between the first barrel body and the second barrel body; the stirring device comprises a first stirring component and a second stirring component which rotate in the same needle direction; the first stirring part comprises a first rotating shaft coaxial with the first barrel body and a first stirring blade arranged on the first rotating shaft; the second stirring part comprises a second rotating shaft coaxial with the second barrel body and a second stirring blade arranged on the second rotating shaft; the first stirring blades and the second stirring blades are arranged in a staggered mode at the stirring overlapping area.

Compared with the existing stirrer or the existing pulper, the high-elasticity efficient material beating machine can efficiently beat materials such as meat and the like into mud materials such as high-elasticity muddy meat and the like, is low in cost, is not wasted, and is convenient and practical. However, in the actual use process, when the mud is beaten and collided, the resistance is large, the beating efficiency is low, the resistance is increased suddenly in the mud beating process, the smoothness and the stability of mud beating are affected due to uneven resistance, and the motor is damaged to a certain extent; meanwhile, the structure of the invention is not easy to manufacture in real life, and is not beneficial to wide popularization and use.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

[ summary of the invention ]

The invention aims to solve the technical problem of providing an edible muddy meat processing device which is used for improving beating efficiency of materials such as meat and improving smoothness and stability of beating.

The invention is realized by the following steps: an edible muddy meat processing device comprises a stirring container, a stirring mechanism and a driving mechanism for driving the stirring mechanism to operate; the stirring container comprises a first stirring barrel with a first containing cavity inside and a second stirring barrel with a second containing cavity inside, and stirring overlapped areas which are mutually communicated are arranged between the first containing cavity and the second containing cavity;

the stirring mechanism comprises a first stirring block rotatably pivoted in the first containing cavity and a second stirring block rotatably pivoted in the second containing cavity, and the rotating axes of the first stirring block and the second stirring block are parallel to each other; one end of the first stirring block is provided with a first mud-beating head, and the other end of the first stirring block is provided with a second mud-beating head; one end of the second stirring block is provided with a third mud-beating head, and the other end of the second stirring block is provided with a fourth mud-beating head; one side of the middle part of the first stirring block is provided with a first mud making abdicating concave part which is used for matching with the third mud making head to make mud in the stirring overlapping area, and the other side of the middle part of the first stirring block is provided with a second mud making abdicating concave part which is used for matching with the fourth mud making head to make mud in the stirring overlapping area; and one side of the middle part of the second stirring block is provided with a third mud beating yielding concave part which is used for matching with the first mud beating head in the stirring overlapping region to beat mud, and the other side of the middle part of the second stirring block is provided with a fourth mud beating yielding concave part which is used for matching with the second mud beating head in the stirring overlapping region to beat mud.

Further, the cross section of the first cavity is circular.

Further, the cross section of the second cavity is circular.

Furthermore, the circle centers of the first accommodating cavity and the second accommodating cavity are axially parallel.

Furthermore, the circle radiuses of the first containing cavity and the second containing cavity are equal, and the distance between the circle centers of the first containing cavity and the second containing cavity is smaller than the diameter of a circle.

Furthermore, the center of the first stirring block is rotatably pivoted on the first stirring barrel through a first rotating shaft, and the rotating axis of the first stirring block is superposed with the circle center line of the first accommodating cavity.

Furthermore, the center of the second stirring block is rotatably pivoted on the second stirring barrel through a second rotating shaft, and the rotating axis of the second stirring block is superposed with the circle center line of the second accommodating cavity.

Furthermore, the end surface of the first mud-removing head is a first arc-shaped end surface.

Further, the first arc-shaped end face is a first arc-shaped end face.

Further, the arc radius of the first arc-shaped end face is equal to one half of the circle radius of the first accommodating cavity.

Furthermore, a first rotating side face is arranged on the end face of the first mud beating head, and first mud beating teeth are arranged on the first rotating side face.

Furthermore, the first rotating side surface is provided with more than two first mud teeth at equal intervals.

Furthermore, the end face of the second mud-beating head is a second arc-shaped end face.

Further, the second arc-shaped end face is a second arc-shaped end face.

Further, the arc radius of the second arc-shaped end surface is equal to one half of the circle radius of the first accommodating cavity.

Furthermore, a second rotating side face is arranged on the end face of the second mud beating head, and second mud beating teeth are arranged on the second rotating side face.

Furthermore, more than two second mud beating teeth are arranged on the second rotating side face at equal intervals.

Furthermore, the end face of the third mud-beating head is a third arc-shaped end face.

Further, the third arc-shaped end face is a third arc-shaped end face.

Further, the arc radius of the third arc-shaped end surface is equal to one half of the circle radius of the second cavity.

Furthermore, a third rotating side surface is arranged on the end surface of the third mud-beating head, and third mud-beating teeth are arranged on the third rotating side surface.

Furthermore, more than two third mud beating teeth are arranged on the third rotating side face at equal intervals.

Furthermore, the end face of the fourth mud-beating head is a fourth arc-shaped end face.

Further, the fourth arc-shaped end surface is a fourth arc-shaped end surface.

Further, the arc radius of the fourth arc-shaped end surface is equal to one half of the circle radius of the second cavity.

Furthermore, a fourth rotating side surface is arranged on the end surface of the fourth mud-beating head, and fourth mud-beating teeth are arranged on the fourth rotating side surface.

Furthermore, more than two fourth mud beating teeth are arranged on the fourth rotating side face at equal intervals.

Furthermore, the distance between the end point on the end surface of the first mud-beating head and the inner wall of the first stirring barrel is 0.1-1 mm.

Further, the distance between the end point on the end surface of the first mud-applying head and the inner wall of the first stirring barrel is 0.2-0.5 mm.

Furthermore, the distance between the end point on the end face of the second mud stirring head and the inner wall of the first stirring barrel is 0.1-1 mm.

Furthermore, the distance between the end point on the end face of the second mud beating head and the inner wall of the first stirring barrel is 0.2-0.5 mm.

Furthermore, the distance between the end point on the end face of the third mud beating head and the inner wall of the second stirring barrel is 0.1-1 mm.

Furthermore, the distance between the end point on the end face of the third mud beating head and the inner wall of the second stirring barrel is 0.2-0.5 mm.

Furthermore, the distance between the end point on the end face of the fourth mud stirring head and the inner wall of the second stirring barrel is 0.1-1 mm.

Furthermore, the distance between the end point on the end face of the fourth mud stirring head and the inner wall of the second stirring barrel is 0.2-0.5 mm.

Furthermore, the first mud abdicating concave part is a first arc abdicating concave part.

Furthermore, the first arc-shaped abdicating concave part is a first arc-shaped abdicating concave part, and the arc radius of the first arc-shaped abdicating concave part is equal to the circle radius of the first accommodating cavity.

Furthermore, the second mud-beating yielding concave part is a second arc-shaped yielding concave part.

Furthermore, the second arc-shaped abdicating concave part is a second arc-shaped abdicating concave part, and the arc radius of the second arc-shaped abdicating concave part is equal to the circle radius of the first accommodating cavity.

Furthermore, the third mud-beating yielding concave part is a third arc-shaped yielding concave part.

Furthermore, the third arc-shaped abdicating concave part is a third arc-shaped abdicating concave part, and the arc radius of the third arc-shaped abdicating concave part is equal to the circle radius of the second accommodating cavity.

Furthermore, the fourth mud-beating yielding concave part is a fourth arc-shaped yielding concave part.

Furthermore, the fourth arc-shaped abdicating concave part is a fourth arc-shaped abdicating concave part, and the arc radius of the fourth arc-shaped abdicating concave part is equal to the circle radius of the second accommodating cavity.

Furthermore, two side surfaces of the first stirring block are provided with first arc convex patterns from the rotating center to the periphery.

Furthermore, two side faces of the second stirring block are provided with second arc-shaped convex patterns from the rotating center to the periphery.

Further, the thickness of the first stirring block along the axial direction is 6-10 cm.

Further, the thickness of the first stirring block in the axial direction is 8cm.

Further, the thickness of the second stirring block along the axial direction is 6-10 cm.

Further, the thickness of the second stirring block in the axial direction is 8cm.

Further, the first stirring block is a solid metal stirring block.

Further, the first stirring block is a solid stainless steel stirring block.

Further, the second stirring block is a solid metal stirring block.

Further, the second stirring block is a solid stainless steel stirring block.

Furthermore, the top of the stirring container is provided with a feed inlet communicated with the first cavity and the second cavity.

Furthermore, the bottom of the stirring container is provided with a discharge hole communicated with the first cavity and the second cavity.

Further, the discharge hole is provided with a discharge door.

Further, the discharge door includes the flashboard body, and the upper surface of flashboard body includes first arcwall face and second arcwall face, first arcwall face flushes with the inner wall of first agitator mutually, the second arcwall face flushes with the inner wall of second agitator mutually.

Further, the first arc-shaped surface is a first arc-shaped surface, and the arc radius of the first arc-shaped surface is equal to the circle radius of the first accommodating cavity.

Further, the second arc-shaped surface is a second arc-shaped surface, and the arc radius of the second arc-shaped surface is equal to the circle radius of the second accommodating cavity.

Furthermore, one side of the flashboard body is provided with an upward first oblique inserting surface, and the other side of the flashboard body is provided with an upward second oblique inserting surface; the first stirring barrel is provided with a third oblique inserting face matched with the first oblique inserting face at the discharge outlet, and the second stirring barrel is provided with a fourth oblique inserting face matched with the second oblique inserting face at the discharge outlet.

Furthermore, a detachable material containing container is arranged below the discharge port.

Furthermore, the bottom of the stirring container is provided with a slot, and the top of the material containing container is provided with an inserting piece matched with the slot; or the top of the material containing container is provided with a slot, and the bottom of the stirring container is provided with an inserting piece matched with the slot.

Further, the driving mechanism comprises a first gear arranged on the first rotating shaft, a second gear arranged on the second rotating shaft, a first motor used for providing rotating power, a motor gear connected with the rotating shaft of the first motor and a reduction gear meshed with the motor gear; the first gear is meshed with the second gear, and any one of the first gear and the second gear is meshed with the reduction gear.

Furthermore, the stirring device also comprises a support frame, and the stirring container is fixedly arranged on the support frame.

Furthermore, a material taking space is reserved between the discharge hole and the support frame.

Further, the motor control system also comprises a controller used for controlling the motor.

The invention has the advantages that:

1. the mixing device comprises a mixing container, a first mixing tank and a second mixing tank, wherein the first mixing tank is provided with a first containing cavity, the second mixing tank is provided with a second containing cavity, a mixing overlapping area is formed between the first containing cavity and the second containing cavity, a first mixing block is rotatably pivoted in the first containing cavity, and a second mixing block is rotatably pivoted in the second containing cavity, so that when a driving mechanism drives the first mixing block and the second mixing block to synchronously rotate along opposite directions, the first mixing block and the second mixing block can beat and extrude materials such as meat and the like put into the mixing container, the beating efficiency can be improved by the combination of beating and extruding, the cell sap of the materials such as meat and the like can be extruded, meanwhile, fibers are not damaged, and the processed meat mud is ensured to be more elastic;

2. the two end faces of the first stirring block and the second stirring block are arc-shaped faces, the inner surfaces of the first stirring barrel and the second stirring barrel are also arc-shaped faces, the receding concave parts on the two sides of the middle parts of the first stirring block and the second stirring block are arc-shaped concave parts, the arc-shaped faces are arranged on the upper surface of the gate plate body, and resistance in rotating and striking can be greatly reduced through the various arc-shaped designs, so that the mud striking efficiency is further improved;

3. the first stirring block and the second stirring block are designed to have certain thicknesses, so that the rotation can be assisted by the gravity inertia of the first stirring block and the second stirring block in the rotating process, the smoothness and the stability of mud beating can be further ensured, and a motor can be protected;

4. the processing device disclosed by the invention is simple in overall structure, easy to manufacture, high in efficiency and suitable for wide popularization and use.

[ description of the drawings ]

The invention will be further described with reference to the following examples with reference to the accompanying drawings.

Fig. 1 is a front perspective view of an apparatus for processing mashed edible meat according to the present invention.

Fig. 2 is a back perspective view of the edible mashed meat processing device according to the present invention.

FIG. 3 is a schematic diagram of the construction of the mixing container of the present invention supported on a support frame.

FIG. 4 is a longitudinal sectional view of the agitation vessel of the present invention.

Fig. 5 is one of longitudinal sectional views of an apparatus for processing mashed edible meat according to the present invention.

Fig. 6 is a second longitudinal sectional view of the apparatus for processing mashed meat according to the present invention.

FIG. 7 is a schematic view of the structure of the stirring mechanism of the present invention.

Fig. 8 is a perspective view of the first agitating block according to the present invention.

Fig. 9 is a front view of the first stirring block in the present invention.

FIG. 10 is a perspective view of a second stirring block of the present invention.

FIG. 11 is a front view of the second stirring block in the present invention.

Fig. 12 is a longitudinal cross-sectional view of the discharge door of the present invention.

Fig. 13 is a schematic view of the structure of the material container of the present invention.

Description of the reference numerals:

1-stirred vessel, 11-first receptacle, 12-first stirred tank, 121-third inclined insert face, 13-second receptacle, 14-second stirred tank, 141-fourth inclined insert face, 15-stirred overlap region, 16-feed inlet, 17-discharge outlet, 18-discharge door, 181-shutter body, 1811-first arc face, 1812-second arc face, 1813-first inclined insert face, 1814-second inclined insert face, 1815-first rack, 182-second motor, 183-first transmission gear, 2-stirring mechanism, 21-first stirring block, 211-first beater, 2111-first arc end face, 2112-first rotational side face, 2113-first beater tooth, 212-second beater, 2121-second arc end face, 2122-second rotational side face, 2123-second digging tooth, 213-first digging abdicating recess, 2131-first arc abdicating recess, 214-second digging abdicating recess, 2141-second arc abdicating recess, 215-first rotating shaft, 216-first arc relief, 22-second stirring block, 221-third digging head, 2211-third arc end face, 2212-third rotating side face, 2213-third digging tooth, 222-fourth digging head, 2221-fourth arc end face, 2222-fourth rotating side face, 2223-fourth digging tooth, 223-third digging abdicating recess, 2231-third arc abdicating recess, 224-fourth digging abdicating recess, 2241-fourth arc abdicating recess, 225-second rotating shaft, 226-second arc relief, 3-a driving mechanism, 31-a first gear, 32-a second gear, 33-a motor, 34-a motor gear, 35-a reduction gear, 4-a material container, 5-a supporting frame, 6-a material taking space, 71-a hopper, 711-a straight pipe section, 712-a first drawing door, 713-a second drawing door, 714-a second rack, 715-a third rack, 72-a third motor, 73-a second transmission gear, 74-a fourth motor and 75-a third transmission gear.

[ detailed description ] embodiments

Referring to fig. 1 to 13, an apparatus for processing mashed edible meat comprises a mixing container 1, a mixing mechanism 2, and a driving mechanism 3 for driving the mixing mechanism 2 to operate; the stirring container 1 comprises a first stirring barrel 12 with a first cavity 11 inside and a second stirring barrel 14 with a second cavity 13 inside, and a stirring overlapping area 15 which is communicated with the first cavity 11 and the second cavity 13 is arranged between the first cavity 11 and the second cavity 13;

the stirring mechanism 2 comprises a first stirring block 21 rotatably pivoted in the first cavity 11 and a second stirring block 22 rotatably pivoted in the second cavity 13, and the rotation axes of the first stirring block 21 and the second stirring block 22 are parallel to each other; one end of the first stirring block 21 is provided with a first mud-beating head 211, and the other end is provided with a second mud-beating head 212; one end of the second stirring block 22 is provided with a third mud head 221, and the other end is provided with a fourth mud head 222; a first mud making abdicating concave part 213 used for matching and making mud with the third mud making head 221 in the stirring overlapping area 15 is arranged on one side of the middle part of the first stirring block 21, and a second mud making abdicating concave part 214 used for matching and making mud with the fourth mud making head 222 in the stirring overlapping area 15 is arranged on the other side; one side of the middle part of the second stirring block 22 is provided with a third mud-beating abdicating concave part 223 for mutually matching and beating mud with the first mud-beating head 211 in the stirring overlapping area 15, and the other side is provided with a fourth mud-beating abdicating concave part 224 for mutually matching and beating mud with the second mud-beating head 212 in the stirring overlapping area 15. In operation, the driving mechanism 3 drives the first stirring block 21 and the second stirring block 22 to synchronously rotate along opposite directions, and the first mud head 211, the second mud head 212, the third mud head 221 and the fourth mud head 222 can hit meat and other materials in the rotating process; meanwhile, in the stirring overlapping area 15, the extrusion of materials such as meat can be realized through the matching of the third mud-beating head 221 and the first mud-beating abdicating concave part 213, the matching of the fourth mud-beating head 222 and the second mud-beating abdicating concave part 214, the matching of the first mud-beating head 211 and the third mud-beating abdicating concave part 223 and the matching of the second mud-beating head 212 and the fourth mud-beating abdicating concave part 224; materials such as meat can be squeezed between the end portions of the first and second mud heads 211 and 212 and the inner wall of the first mixing tank 12, and materials such as meat can be squeezed between the end portions of the third and fourth mud heads 221 and 222 and the inner wall of the second mixing tank 14.

According to the invention, the first stirring barrel 12 with the first containing cavity 11 and the second stirring barrel 14 with the second containing cavity 13 are arranged in the stirring container 1, the mutually communicated stirring overlapping area 15 is arranged between the first containing cavity 11 and the second containing cavity 13, the first stirring block 21 is rotationally pivoted in the first containing cavity 11, and the second stirring block 22 is rotationally pivoted in the second containing cavity 13, so that in the process of driving the first stirring block 21 and the second stirring block 22 to synchronously rotate along opposite directions by the driving mechanism 3, the first stirring block 21 and the second stirring block 22 can beat and extrude materials such as meat and the like which are put into the stirring container 1, the beating efficiency can be improved by combining the beating and the extrusion, the cell sap of the materials such as meat and the like can be extruded, meanwhile, the fibers are not damaged, and the processed meat paste is ensured to be more elastic.

In the present invention, the cross section of the first cavity 11 is circular. First agitator 12 is cylindrical agitator promptly for the material can be hugged closely the convex inner wall of first agitator 12 in first agitator 12 and rotated, is beaten and extrudees, can make material mixing even, and it is effectual to beat mud, and convex inner wall has reduced the rotation resistance.

In the present invention, the cross section of the second cavity 13 is circular. Second agitator 14 is cylindrical agitator promptly for the material can be hugged closely the convex inner wall of second agitator 14 in second agitator 14 and rotated, hit and beat and extrude, can make material mixing even, and it is effectual to beat the mud, and convex inner wall has reduced the rotation resistance.

In the present invention, in order to effectively avoid mutual collision between the first stirring block 21 and the second stirring block 22 and reduce the design difficulty, the circle centers of the first receiving cavity 11 and the second receiving cavity 13 are axially parallel, that is, the first receiving cavity 11 and the second receiving cavity 13 are axially symmetrically arranged.

In the present invention, the circle radii of the first containing cavity 11 and the second containing cavity 13 are equal, and the distance between the centers of the circles of the first containing cavity 11 and the second containing cavity 13 is smaller than the diameter of the circle, so that a stirring overlapping region 15 is formed between the first containing cavity 11 and the second containing cavity 13. Because the circle centers of the first accommodating cavity 11 and the second accommodating cavity 13 are axially parallel and the circle radii are equal, the materials can be more smoothly rotated, beaten and extruded in the first stirring barrel 12 and the second stirring barrel 14.

In the present invention, in order to effectively avoid mutual collision between the first stirring block 21 and the inner wall of the first stirring barrel 12 and reduce the design difficulty, the center of the first stirring block 21 is pivotally connected to the first stirring barrel 12 through the first rotating shaft 215, and the rotating axis of the first stirring block 21 coincides with the circle center line of the first accommodating cavity 11, that is, the first rotating shaft 215 is disposed on the circle center line of the first accommodating cavity 11.

In the present invention, in order to effectively avoid the mutual collision between the second stirring block 22 and the inner wall of the second stirring barrel 14 and reduce the design difficulty, the center of the second stirring block 22 is pivotally connected to the second stirring barrel 14 through the second rotating shaft 225, the rotating axis of the second stirring block 11 coincides with the circle center line of the second containing cavity 13, that is, the second rotating shaft 225 is disposed on the circle center line of the second containing cavity 13.

In the present invention, the end surface of the first mud-ejecting head 211 is a first arc-shaped end surface 2111. Through the terminal surface design with first mud head 211 for the arc terminal surface for at the in-process of beating mud, the convex inner wall of the first agitator 12 of cooperation that can be better is beaten the material and is pushed, has also reduced the resistance of beating mud in-process simultaneously.

In the invention, in order to better match the circular arc inner wall of the first stirring barrel 12 to hit and extrude the material, the first arc end surface 2111 is a first circular arc end surface.

In the present invention, the arc radius of the first arc-shaped end surface is equal to one half of the circle radius of the first cavity 11. When the arc radius of the first arc-shaped end surface is equal to one half of the circle radius of the first accommodating cavity 11, the end point of the first arc-shaped end surface is just inscribed in the circle of the first accommodating cavity 11, so that the material extrusion effect is best.

In the present invention, the end surface of the first mud-ejecting head 211 has a first rotating side surface 2112, and the first rotating side surface 2112 is provided with first mud-ejecting teeth 2113. By arranging the first mud beating teeth 2113 on the first rotating side surface 2112, the first mud beating head 211 can stir and break up the materials in the rotating process.

In the present invention, in order to achieve a better stirring and scattering effect, the first rotating side surface 2112 is provided with two or more first mashing teeth 2113 at equal intervals.

In the present invention, the end surface of the second mud-striking head 212 is a second arc-shaped end surface 2121. Through the terminal surface design with second head 212 of beating mud for at the in-process of beating mud, the convex inner wall of the first agitator 12 of cooperation that can be better is beaten the material and is squeezed, has also reduced the resistance of beating the mud in-process simultaneously.

In the present invention, in order to better match the arc-shaped inner wall of the first stirring barrel 12 to strike and extrude the material, the second arc-shaped end surface 2121 is a second arc-shaped end surface.

In the present invention, the arc radius of the second arc-shaped end surface is equal to one half of the circle radius of the first cavity 11. When the circular radius of the second circular arc-shaped end surface is equal to half of the circular radius of the first accommodating cavity 11, the end point of the second circular arc-shaped end surface is just inscribed in the circle of the first accommodating cavity 11, so that the material extrusion effect is best.

In the present invention, the end surface of the second mud-beating head 212 has a second rotating side surface 2122, and the second rotating side surface 2122 is provided with second mud-beating teeth 2123. By arranging the second mud-beating teeth 2123 on the second rotating side face 2122, the second mud-beating head 212 can stir and break up the materials in the rotating process.

In the present invention, in order to achieve a better stirring and breaking effect, more than two second mashing teeth 2123 are equally spaced on the second rotating side surface 2122.

In the present invention, the end surface of the third mud-ejecting head 221 is a third arc-shaped end surface 2211. Through the design of the terminal surface with third mud head 221 for the arc terminal surface for at the in-process of beating mud, the convex inner wall of cooperation second agitator 14 that can be better beats and extrudees the material, has also reduced the resistance of beating mud in-process simultaneously.

In the present invention, in order to better match the circular arc-shaped inner wall of the second stirring barrel 14 to hit and extrude the material, the third arc-shaped end surface 2211 is a third circular arc-shaped end surface.

In the invention, the arc radius of the third arc-shaped end surface is equal to one half of the circle radius of the second cavity. When the radius of the third arc-shaped end surface is equal to one half of the radius of the second containing cavity 13, the end point of the third arc-shaped end surface is just inscribed with the circle of the second containing cavity 13, so that the material extrusion effect is best.

In the present invention, the end surface of the third dredging head 221 has a third rotating side surface 2212, and the third rotating side surface 2212 is provided with a third dredging tooth 2213. Through set up third beating teeth 2213 on third side 2212 for third beating head 221 can stir the material at rotatory in-process and break up.

In the present invention, in order to achieve a better stirring and breaking effect, more than two third stirring teeth 2213 are arranged on the third rotating side 2212 at equal intervals.

In the present invention, the end surface of the fourth mud-ejecting head 222 is a fourth arc-shaped end surface 2221. Through the terminal surface design with fourth mud head 222 for arc terminal surface, at the in-process of beating mud, the convex inner wall of cooperation second agitator 14 that can be better beats and extrudees the material, has also reduced the resistance of beating mud in-process simultaneously.

In the present invention, in order to better match the circular arc inner wall of the second stirring barrel 14 to hit and extrude the material, the fourth arc end surface 2221 is a fourth circular arc end surface.

In the present invention, the arc radius of the fourth arc-shaped end surface is equal to one half of the circle radius of the second cavity 13. When the radius of the arc of the fourth arc-shaped end surface is equal to half of the radius of the second containing cavity 13, the end point of the fourth arc-shaped end surface is just inscribed in the circle of the second containing cavity 13, so that the material extrusion effect is best.

In the present invention, the end surface of the fourth mud-striking head 222 has a fourth rotating side surface 2222, and the fourth rotating side surface 2222 is provided with a fourth mud-striking tooth 2223. Through set up fourth beat mud tooth 2223 on fourth rotational side 2222 for fourth mud head 222 can stir the material at rotatory in-process and break up.

In the present invention, in order to achieve a better stirring and breaking effect, more than two fourth mudjacking teeth 2223 are equally spaced on the fourth rotating side surface 2222.

In the invention, in order to enable materials to smoothly pass through the end surface of the first stirring barrel 12 and the end surface of the first stirring head 211, the distance between the end point on the end surface of the first stirring head 211 and the inner wall of the first stirring barrel 12 is 0.1-1 mm.

In the invention, in order to ensure that the materials can smoothly pass through and ensure the extrusion effect of the materials, the distance between the end point on the end surface of the first mud-beating head 211 and the inner wall of the first stirring barrel 12 is 0.2-0.5 mm. In specific implementation, the distance between the end point of the end face of the first mud-beating head 211 and the inner wall of the first stirring barrel 12 is any one of 0.2mm, 0.3mm, 0.4mm and 0.5mm.

In the invention, in order to enable materials to smoothly pass through the end surface of the second mud head 212 and the inner wall of the first stirring barrel 12, the distance between the end point on the end surface of the second mud head 212 and the inner wall of the first stirring barrel 12 is 0.1-1 mm.

In the invention, in order to ensure the smooth passing of the material and the extrusion effect of the material, the distance between the end point on the end surface of the second mud head 212 and the inner wall of the first stirring barrel 12 is 0.2-0.5 mm. In specific implementation, the distance between the end point on the end surface of the second mud-beating head 212 and the inner wall of the first stirring barrel 12 is any one of 0.2mm, 0.3mm, 0.4mm and 0.5mm.

In the invention, in order to enable materials to smoothly pass through the end surface of the third mud head 221 and the inner wall of the second stirring barrel 14, the distance between the end point on the end surface of the third mud head 221 and the inner wall of the second stirring barrel 14 is 0.1-1 mm.

In the invention, in order to ensure that the materials can smoothly pass through and ensure the extrusion effect of the materials, the distance between the end point of the end surface of the third mud-beating head 221 and the inner wall of the second stirring barrel 14 is 0.2-0.5 mm. In specific implementation, the distance between the end point of the third mud-beating head 221 and the inner wall of the second stirring barrel 14 is any one of 0.2mm, 0.3mm, 0.4mm and 0.5mm.

In the invention, in order to enable materials to smoothly pass through the end surface of the fourth mud head 222 and the inner wall of the second stirring barrel 14, the distance between the end point on the end surface of the fourth mud head 222 and the inner wall of the second stirring barrel 14 is 0.1-1 mm.

In the invention, in order to ensure that the materials can smoothly pass through and ensure the extrusion effect of the materials, the distance between the end point on the end surface of the fourth mud-beating head 222 and the inner wall of the second stirring barrel 14 is 0.2-0.5 mm. In specific implementation, the distance between the end point on the end surface of the fourth mud-beating head 222 and the inner wall of the second stirring barrel 14 is any one of 0.2mm, 0.3mm, 0.4mm and 0.5mm.

In the invention, in order to match the third arc-shaped end face 2211 of the third mud head 221 to hit and extrude a material and reduce resistance in a mud hitting process on the basis of yielding, the first mud yielding concave portion 213 is a first arc-shaped yielding concave portion 2131.

In the present invention, in order to cooperate with the third arc-shaped end of the third mud-ejecting head 221 to more effectively strike and extrude the material, the first arc-shaped abdicating concave portion 2131 is a first arc-shaped abdicating concave portion, and the arc radius of the first arc-shaped abdicating concave portion is equal to the circle radius of the first receiving cavity 11.

In the present invention, in order to match the fourth arc-shaped end surface 2221 of the fourth mud head 222 to hit and extrude the material and reduce the resistance in the mud digging process on the basis of yielding, the second mud yielding concave portion 214 is a second arc-shaped yielding concave portion 2141.

In the present invention, in order to cooperate with the fourth circular arc-shaped end surface of the fourth mud head 222 to more effectively strike and extrude the material, the second arc-shaped receding concave portion 2141 is a second circular arc-shaped receding concave portion, and the circular arc radius of the second circular arc-shaped receding concave portion is equal to the circular radius of the first accommodating cavity 11.

In the invention, in order to match the first arc-shaped end face 2111 of the first mud head 211 to hit and extrude a material and reduce resistance in a mud hitting process on the basis of yielding, the third mud hitting yielding concave portion 223 is a third arc-shaped yielding concave portion 2231.

In the present invention, in order to cooperate with the first arc-shaped end surface of the first mud-ejecting head 211 to more effectively strike and extrude the material, the third arc-shaped abdicating concave portion 2231 is a third arc-shaped abdicating concave portion, and the arc radius of the third arc-shaped abdicating concave portion is equal to the circle radius of the second receiving cavity 13.

In the invention, in order to match the second arc-shaped end face 2121 of the second mud-striking head 212 to strike and extrude a material and reduce resistance in a mud-striking process on the basis of yielding, the fourth mud-striking yielding concave part 224 is a fourth arc-shaped yielding concave part 2241.

In the invention, in order to match the second arc-shaped end surface of the second mud head 212 to more effectively strike and extrude the material, the fourth arc-shaped abdicating concave part 2241 is a fourth arc-shaped abdicating concave part, and the arc radius of the fourth arc-shaped abdicating concave part is equal to the circle radius of the second accommodating cavity 13.

In the present invention, in order to bring out the material falling into the gap between the side surface of the first stirring block 21 and the inner side wall of the first stirring barrel 12, so as to avoid the material being jammed in the gap and causing waste, the first arc convex patterns 216 are arranged on the two side surfaces of the first stirring block 21 from the rotation center to the periphery. Through the design of the first arc-shaped convex ridge 216, the first stirring block 21 can throw out the muddy flesh in the gap under the action of the rotating force. In addition, the first arc-shaped convex ridge 216 can contact with the inner side wall of the first stirring barrel 12 in specific design, and can also have a certain clearance, for example, the clearance can be designed to be 0.1-0.3 mm.

In the present invention, in order to conveniently take out the material falling into the gap between the side surface of the second stirring block 22 and the inner side wall of the second stirring barrel 14, so as to avoid the material from being jammed in the gap and causing waste, the two side surfaces of the second stirring block 22 are provided with second arc convex grains 226 from the rotation center to the periphery. Through the design of the second arc-shaped convex grains 226, the second stirring block 22 can throw out the muddy flesh in the gap under the action of the rotating force. In addition, the second arc-shaped rib 226 can contact with the inner sidewall of the second stirring barrel 14 in specific design, and can have a certain gap, for example, the gap can be designed to have a gap of 0.1-0.3 mm.

In the invention, in order to ensure that the first stirring block 21 can utilize the gravity inertia of the first stirring block to assist the rotation in the rotation process, further ensure the smoothness and the stability of mud beating and protect the motor, the thickness of the first stirring block along the axial direction is 6-10 cm.

In the present invention, the thickness of the first stirring block in the axial direction is designed to be 8cm in consideration of both the auxiliary effect and the cost.

In the invention, in order to make the second stirring block 22 rotate in an auxiliary manner by using the gravity inertia of the second stirring block in the rotating process, thereby ensuring the smoothness and stability of mud beating and protecting the motor, the thickness of the second stirring block 22 along the axial direction is 6-10 cm.

In the present invention, the thickness of the second stirring block 22 in the axial direction is designed to be 8cm in consideration of both the auxiliary effect and the cost.

In the present invention, in order to fully utilize the gravity inertia of the first stirring block 21, and improve the beating and extrusion force degrees, and further improve the efficiency, the first stirring block 21 is a solid metal stirring block.

In the present invention, the first stirring block 21 is a solid stainless stirring block to prevent metal from rusting and affecting the materials.

In the present invention, in order to fully utilize the gravity inertia of the second stirring block 22, and improve the beating and extrusion force degrees, and further improve the efficiency, the second stirring block 22 is a solid metal stirring block.

In the present invention, the second stirring block 22 is a solid stainless steel stirring block to prevent metal from rusting and affecting the materials.

In the present invention, the top of the agitation vessel 1 has an inlet 16 communicating with the first and second chambers 11 and 13. By providing the feed inlet 16 at the top of the stirred vessel 1, feeding can be facilitated.

In the present invention, the bottom of the stirring container 1 has a discharge port 17 communicating with the first and second cavities 11 and 13. By arranging the discharge port 17 at the bottom of the stirring container 1, the discharge can be facilitated.

In the invention, in order to prevent the materials from falling out during the beating and stirring processes, the discharge port 17 is provided with a discharge door 18.

In the present invention, the discharge door 18 includes a shutter body 181, an upper surface of the shutter body 181 includes a first arc surface 1811 and a second arc surface 1812, the first arc surface 1811 is flush with the inner wall of the first mixing barrel 12, and the second arc surface 1812 is flush with the inner wall of the second mixing barrel 14. By making the first arc surface 1811 flush with the inner wall of the first mixing drum 12 and making the second arc surface 1812 flush with the inner wall of the second mixing drum 14, it can be ensured that no material falls down from the discharge port 17 and cannot be hit and mixed; while the first and second arcuate surfaces 1811 and 1812 can match the arcuate surfaces at the ends of the first and second agitator blocks 21 and 22 to strike and squeeze the material.

In the present invention, in order to better match the arc surface at the end of the first stirring block 21 to strike and extrude the material, the first arc surface 1811 is a first arc surface, and the arc radius of the first arc surface is equal to the arc radius of the first accommodating cavity 11.

In the present invention, in order to better match the arc surface at the end of the second stirring block 22 to strike and extrude the material, the second arc surface 1812 is a second arc surface, and the arc radius of the second arc surface is equal to the arc radius of the second receiving cavity 12.

In the present invention, the shutter body 181 has a first upward inclined insertion surface 1813 on one side and a second upward inclined insertion surface 1814 on the other side; the first mixing barrel 12 is provided with a third inclined insertion surface 121 matched with the first inclined insertion surface 1813 at the discharge port 17, and the second mixing barrel 14 is provided with a fourth inclined insertion surface 141 matched with the second inclined insertion surface 1814 at the discharge port 17. Through the oblique spigot surface on flashboard body 181 and the inseparable combination of the oblique spigot surface of discharge gate 17, guaranteed that the material can not run out from the gap.

In the invention, in order to take materials conveniently, a detachable material containing container 4 is arranged below the discharge port 17. When materials need to be taken, the material container 4 is arranged below the material outlet 17, and after the materials are taken out, the materials and the material container 4 are taken down together.

In the invention, in order to realize the quick assembly and disassembly of the material container 4, the bottom of the stirring container 4 is provided with a slot (not shown), and the top of the material container 4 is provided with an inserting sheet (not shown) matched with the slot; or the top of the material containing container 4 is provided with a slot, and the bottom of the stirring container 4 is provided with an inserting piece matched with the slot. When the rapid dismounting device is used, the rapid dismounting of the material containing container 7 is realized through the matching of the slot and the inserting sheet.

In the present invention, the driving mechanism 3 includes a first gear 31 provided on the first rotating shaft 215, a second gear 32 provided on the second rotating shaft 225, a first motor 33 for providing a rotating power, a motor gear 34 connected with the rotating shaft of the first motor 33, and a reduction gear 35 engaged with the motor gear 34; the first gear 31 is engaged with the second gear 32, and either one of the first gear 31 and the second gear 32 is engaged with the reduction gear 35. When the stirring device works, the first motor 33 outputs rotary power to drive the motor gear 34 to rotate, the motor gear 34 drives the reduction gear 35 to rotate, and the reduction gear 35 is reduced by the reduction gear 35 and then is linked with the first gear 31 and the second gear 32 to synchronously rotate, so that the first stirring block 21 and the second stirring block 22 are driven to synchronously rotate along opposite directions.

In the invention, in order to support the stirring container 1, the stirring container further comprises a support frame 5, and the stirring container 1 is fixedly arranged on the support frame 5.

In the invention, in order to take out materials conveniently, a material taking space 6 is reserved between the discharge port 17 and the support frame 5.

In the present invention, a controller (not shown) for controlling the first motor 33 is further included, that is, the controller is electrically connected to the first motor 33. During specific work, when materials such as muddy flesh are just added into the stirring container 1, the first motor 33 is controlled by the controller to drive the first stirring block 21 and the second stirring block 22 to beat and stir the materials at a slower rotating speed; after the materials are smashed, the controller controls the first motor 33 to drive the first stirring block 21 and the second stirring block 22 at a faster rotation speed to rapidly hit and stir the materials, so as to improve the stirring efficiency.

In the invention, in order to improve the automation degree and realize automatic discharging, the automatic discharging device also comprises a second motor 182 and a first transmission gear 183; the bottom of the shutter body 181 is provided with a first rack 1815, the first transmission gear 183 is engaged with the first rack 1815, the second motor 182 is coupled with the first transmission gear 183, and the second motor 182 is electrically connected with the controller. In operation, the second motor 182 is controlled by the controller to drive the first transmission gear 183 to rotate, so as to realize automatic opening and closing of the discharge door 18.

In the invention, in order to realize quantitative automatic processing of materials, the automatic processing equipment further comprises a hopper 71, a third motor 72, a second transmission gear 73, a fourth motor 74 and a third transmission gear 75 which are connected above the feeding hole 16, wherein the lower part of the hopper 71 is a straight pipe section 711; the upper part of the straight pipe section 711 is provided with a first pull-out door 712, and the lower part of the straight pipe section 711 is provided with a second pull-out door 713; the bottom of the first drawing door 712 is provided with a second rack 714, a second transmission gear 73 is engaged with the second rack 714, and a third motor 72 is connected with the second transmission gear 73; a third rack 715 is arranged at the bottom of the second sliding door 713, the third transmission gear 75 is meshed with the third rack 715, and the fourth motor 74 is connected with the third rack 715; the third motor 72 and the fourth motor 74 are both electrically connected to the controller. When quantitative automatic processing of materials is required, the controller firstly controls the fourth motor 74 to drive the second sliding door 713 to close; then the controller controls the third motor 72 to drive the first sliding door 712 to open, so that the material falls down into the straight pipe section 711; then, when the material is fully piled up to the position of the first pull door 712, the controller controls the third motor 72 to drive the first pull door 712 to close, so that the material does not fall into the straight pipe section 711 any more; and finally, the controller controls the fourth motor 74 to drive the second sliding door 713 to open, so that the material falls into the stirring container 1 for automatic processing. It should be noted that: the hopper 71 and the feeding hole 16 are detachably connected, so that the hopper 71 can be detached when quantitative automatic processing is not required, and the detachable connection can be realized by matching a clamping block with a clamping groove and the like when the hopper 71 is specifically connected. In addition, the first drawing door 712 and the second drawing door 713 may be replaced with solenoid valves.

The processing device has the advantages of simple integral structure, easy manufacture and high mud beating efficiency, so that the processing device can be applied to places such as families, restaurants, sausage manufacturing plants, ball manufacturing plants and the like for processing materials such as meat and the like, and is particularly suitable for popularization and application.

Although specific embodiments of the invention have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the invention, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the invention, which is to be limited only by the appended claims.

Claims (44)

1. An edible mashed meat processing device comprises a stirring container, a stirring mechanism and a driving mechanism for driving the stirring mechanism to operate; the method is characterized in that: the stirring container comprises a first stirring barrel with a first containing cavity inside and a second stirring barrel with a second containing cavity inside, and stirring overlapped areas which are mutually communicated are arranged between the first containing cavity and the second containing cavity;

the stirring mechanism comprises a first stirring block rotatably pivoted in the first containing cavity and a second stirring block rotatably pivoted in the second containing cavity, and the rotating axes of the first stirring block and the second stirring block are parallel to each other; one end of the first stirring block is provided with a first mud-beating head, and the other end of the first stirring block is provided with a second mud-beating head; one end of the second stirring block is provided with a third mud-beating head, and the other end of the second stirring block is provided with a fourth mud-beating head; one side of the middle part of the first stirring block is provided with a first mud making abdicating concave part which is used for matching with the third mud making head in the stirring overlapping area for making mud, and the other side of the middle part of the first stirring block is provided with a second mud making abdicating concave part which is used for matching with the fourth mud making head in the stirring overlapping area for making mud; a third mud beating abdicating concave part which is matched with the first mud beating head for beating mud in the stirring overlapping area is arranged on one side of the middle part of the second stirring block, and a fourth mud beating abdicating concave part which is matched with the second mud beating head for beating mud in the stirring overlapping area is arranged on the other side of the second stirring block;

the cross section of the first accommodating cavity is circular, the cross section of the second accommodating cavity is circular, the circle centers of the first accommodating cavity and the second accommodating cavity are axially parallel, the circle radii of the first accommodating cavity and the second accommodating cavity are equal, the distance between the circle centers of the first accommodating cavity and the second accommodating cavity is smaller than the diameter of a circle, the center of the first stirring block is rotatably pivoted on the first stirring barrel through a first rotating shaft, the rotating axis of the first stirring block is superposed with the circle center line of the first accommodating cavity, the center of the second stirring block is rotatably pivoted on the second stirring barrel through a second rotating shaft, and the rotating axis of the second stirring block is superposed with the circle center line of the second accommodating cavity;

the end face of the first mud-beating head is a first arc-shaped end face, the end face of the second mud-beating head is a second arc-shaped end face, the end face of the third mud-beating head is a third arc-shaped end face, and the end face of the fourth mud-beating head is a fourth arc-shaped end face;

two side surfaces of the first stirring block are provided with first arc convex patterns from the rotating center to the periphery, two side surfaces of the second stirring block are provided with second arc convex patterns from the rotating center to the periphery, and a gap is formed between the first arc convex patterns and the second arc convex patterns and the inner side of the first stirring barrel; the first stirring block and the second stirring block are both solid metal stirring blocks, and the thicknesses of the first stirring block and the second stirring block along the axial direction are both 6-10 cm;

the bottom of the stirring container is provided with a discharge port communicated with the first containing cavity and the second containing cavity, the discharge port is provided with a discharge door in a matching mode, the discharge door comprises a flashboard body, the upper surface of the flashboard body comprises a first arc-shaped surface and a second arc-shaped surface, the first arc-shaped surface is flush with the inner wall of the first stirring barrel, and the second arc-shaped surface is flush with the inner wall of the second stirring barrel; the first arc-shaped surface is a first arc-shaped surface, and the arc radius of the first arc-shaped surface is equal to the circle radius of the first accommodating cavity; the second arc-shaped surface is a second arc-shaped surface, and the arc radius of the second arc-shaped surface is equal to the circle radius of the second accommodating cavity; one side of the flashboard body is provided with an upward first inclined insertion surface, and the other side of the flashboard body is provided with an upward second inclined insertion surface; the first stirring barrel is provided with a third oblique inserting surface matched with the first oblique inserting surface at the discharge port, and the second stirring barrel is provided with a fourth oblique inserting surface matched with the second oblique inserting surface at the discharge port; the device also comprises a second motor and a first transmission gear; the bottom of flashboard body is provided with first rack, first drive gear meshes with first rack mutually, and the second motor links with first drive gear.

2. The apparatus for processing mashed edible meat according to claim 1, wherein: the first arc-shaped end face is a first arc-shaped end face.

3. An apparatus for processing mashed edible meat according to claim 2, wherein: the arc radius of the first arc-shaped end face is equal to one half of the circle radius of the first accommodating cavity.

4. An apparatus for processing mashed edible meat according to claim 3, wherein: the end face of the first mud beating head is provided with a first rotating side face, and first mud beating teeth are arranged on the first rotating side face.

5. The apparatus for processing mashed edible meat according to claim 4, wherein: the first rotating side face is provided with more than two first mud beating teeth at equal intervals.

6. An apparatus for processing mashed edible meat according to claim 5, wherein: the second arc-shaped end face is a second arc-shaped end face.

7. An apparatus for processing mashed edible meat according to claim 6, wherein: the arc radius of the second arc-shaped end surface is equal to one half of the circle radius of the first accommodating cavity.

8. An apparatus for processing mashed edible meat according to claim 7, wherein: and a second rotating side surface is arranged on the end surface of the second mud-pumping head, and second mud-pumping teeth are arranged on the second rotating side surface.

9. An apparatus for processing mashed edible meat according to claim 8, wherein: the second rotating side face is provided with more than two second mud beating teeth at equal intervals.

10. An apparatus for processing mashed edible meat according to claim 9, wherein: the third arc-shaped end face is a third arc-shaped end face.

11. An apparatus for processing mashed edible meat according to claim 10, wherein: the arc radius of the third arc-shaped end surface is equal to one half of the circle radius of the second accommodating cavity.

12. An apparatus for processing mashed edible meat according to claim 11, wherein: and a third rotating side surface is arranged on the end surface of the third mud beating head, and third mud beating teeth are arranged on the third rotating side surface.

13. The apparatus for processing mashed edible meat according to claim 12, wherein: and more than two third mud beating teeth are arranged on the third rotating side surface at equal intervals.

14. The apparatus for processing mashed edible meat according to claim 13, wherein: the fourth arc-shaped end face is a fourth arc-shaped end face.

15. An apparatus for processing mashed edible meat according to claim 14, wherein: the arc radius of the fourth arc-shaped end surface is equal to one half of the circle radius of the second accommodating cavity.

16. An apparatus for processing mashed edible meat according to claim 15, wherein: and a fourth rotating side surface is arranged on the end surface of the fourth mud-pumping head, and fourth mud-pumping teeth are arranged on the fourth rotating side surface.

17. An apparatus for processing mashed edible meat according to claim 16, wherein: and more than two fourth mud beating teeth are arranged on the fourth rotating side surface at equal intervals.

18. The apparatus for processing mashed edible meat according to claim 17, wherein: the distance between the end point on the end face of the first mud-beating head and the inner wall of the first stirring barrel is 0.1-1 mm.

19. The apparatus for processing mashed edible meat according to claim 18, wherein: the distance between the end point on the end surface of the first mud-beating head and the inner wall of the first stirring barrel is 0.2-0.5 mm.

20. The apparatus for processing mashed edible meat according to claim 19, wherein: the distance between the end point on the end surface of the second mud stirring head and the inner wall of the first stirring barrel is 0.1-1 mm.

21. The apparatus for processing mashed edible meat according to claim 20, wherein: the distance between the end point on the end surface of the second mud beating head and the inner wall of the first stirring barrel is 0.2-0.5 mm.

22. The apparatus for processing mashed edible meat according to claim 21, wherein: the distance between the end point on the end surface of the third mud beating head and the inner wall of the second stirring barrel is 0.1-1 mm.

23. The apparatus for processing mashed edible meat according to claim 22, wherein: the distance between the end point on the end surface of the third mud beating head and the inner wall of the second stirring barrel is 0.2-0.5 mm.

24. The apparatus for processing mashed edible meat according to claim 23, wherein: the distance between the end point on the end surface of the fourth mud-beating head and the inner wall of the second stirring barrel is 0.1-1 mm.

25. The apparatus for processing mashed edible meat according to claim 24, wherein: the distance between the end point on the end surface of the fourth mud-beating head and the inner wall of the second stirring barrel is 0.2-0.5 mm.

26. The apparatus for processing mashed edible meat according to claim 25, wherein: the first mud abdicating concave part is a first arc abdicating concave part.

27. The apparatus for processing mashed edible meat according to claim 26, wherein: the first arc-shaped abdicating concave part is a first arc-shaped abdicating concave part, and the arc radius of the first arc-shaped abdicating concave part is equal to the circle radius of the first accommodating cavity.

28. The apparatus for processing mashed edible meat according to claim 27, wherein: the second mud-beating yielding concave part is a second arc-shaped yielding concave part.

29. The apparatus for processing mashed edible meat according to claim 28, wherein: the second arc-shaped abdicating concave part is a second arc-shaped abdicating concave part, and the arc radius of the second arc-shaped abdicating concave part is equal to the circle radius of the first accommodating cavity.

30. The apparatus for processing mashed edible meat according to claim 29, wherein: the third mud-beating yielding concave part is a third arc-shaped yielding concave part.

31. An apparatus for processing mashed edible meat according to claim 30, wherein: the third arc-shaped abdicating concave part is a third arc-shaped abdicating concave part, and the arc radius of the third arc-shaped abdicating concave part is equal to the circle radius of the second accommodating cavity.

32. The apparatus for processing mashed edible meat according to claim 31, wherein: the fourth mud-beating yielding concave part is a fourth arc-shaped yielding concave part.

33. The apparatus for processing mashed edible meat according to claim 32, wherein: the fourth arc-shaped abdicating concave part is a fourth arc-shaped abdicating concave part, and the arc radius of the fourth arc-shaped abdicating concave part is equal to the circle radius of the second accommodating cavity.

34. The apparatus for processing mashed edible meat according to claim 1, wherein: the thickness of the first stirring block in the axial direction was 8cm.

35. The apparatus for processing mashed edible meat according to claim 34, wherein: the thickness of the second stirring block in the axial direction was 8cm.

36. The apparatus for processing mashed edible meat according to claim 35, wherein: the first stirring block is a solid stainless steel stirring block.

37. The apparatus for processing mashed edible meat according to claim 36, wherein: the second stirring block is a solid stainless steel stirring block.

38. An apparatus for processing mashed edible meat according to any one of claims 1 to 37, wherein: the top of the stirring container is provided with a feed inlet communicated with the first cavity and the second cavity.

39. The apparatus for processing mashed edible meat according to claim 38, wherein: and a detachable material container is arranged below the discharge hole.

40. An apparatus for processing mashed edible meat according to claim 39, wherein: the bottom of the stirring container is provided with a slot, and the top of the material containing container is provided with an inserting piece matched with the slot; or the top of the material containing container is provided with a slot, and the bottom of the stirring container is provided with an inserting piece matched with the slot.

41. An apparatus for processing mashed edible meat according to claim 40, wherein: the driving mechanism comprises a first gear arranged on the first rotating shaft, a second gear arranged on the second rotating shaft, a first motor used for providing rotating power, a motor gear connected with the rotating shaft of the first motor and a reduction gear meshed with the motor gear; the first gear is meshed with the second gear, and any one of the first gear and the second gear is meshed with the reduction gear.

42. An apparatus for processing mashed edible meat according to claim 41, wherein: the stirring device is characterized by further comprising a support frame, and the stirring container is fixedly arranged on the support frame.

43. An apparatus for processing mashed edible meat according to claim 42, wherein: and a material taking space is reserved between the discharge port and the support frame.

44. An apparatus for processing mashed edible meat according to claim 43, wherein: a controller for controlling the motor is also included.

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