CN112586527A

CN112586527A - Automatic change high-speed shaping processing equipment of filling material food

Info

Publication number: CN112586527A
Application number: CN202011436508.8A
Authority: CN
Inventors: 郑家旺
Original assignee: Shanghai Shengyi Mechanical Equipment Co ltd
Current assignee: Shanghai Shengyi Mechanical Equipment Co ltd
Priority date: 2020-12-11
Filing date: 2020-12-11
Publication date: 2021-04-02

Abstract

The invention discloses automatic high-speed forming and processing equipment for stuffing food, which solves the problem of equipment transportation through a folding technology, meets the requirement of processing stuffing food with different volumes by freely adjusting blanking stroke, and greatly improves the processing speed of the stuffing food on the premise of not obviously increasing the volume of the equipment; the stuffing shunting device is arranged at the upper part of the main frame, the conveying device is arranged at the middle part of the main frame, the flower kneading transmission device is arranged between the stuffing shunting device and the conveying device, and the flower kneading transmission device conveys away the inner stuffing and the outer skin output by the stuffing shunting device after the flower kneading forming; the synchronous work of the two pattern pinching mechanisms is realized, and the processing efficiency of the stuffing food is greatly improved; through setting up two way outsourcing material feed components, improved the machining efficiency of filling material food greatly, the gate valve satisfies the demand of different outsourcing materials and outsourcing material ejection of compact speed through the flow of filling in the adjustment moreover, has improved production efficiency greatly.

Description

Automatic change high-speed shaping processing equipment of filling material food

Technical Field

The invention discloses automatic high-speed forming and processing equipment for stuffing food, and belongs to the technical field of stuffing food processing.

Background

Among present filling material food processing, receive the influence of equipment structure volume, machining efficiency receives very big restriction, seriously influence filling material food's process velocity, and occupation space is big in the transportation, consequently in the transportation, need carry out the dismouting transportation to the front and back of equipment, filling material food is at the blanking in-process in addition, if the blanking stroke is too high then make filling material food warp the damage easily, filling material food blanking stroke of equidimension not the same moreover, these technical problems are hardly solved to present filling material equipment.

Disclosure of Invention

The invention overcomes the defects of the prior art, provides automatic high-speed forming and processing equipment for stuffing food, solves the problem of equipment transportation through a folding technology, meets the requirement of processing stuffing food with different volumes by freely adjusting the blanking stroke, and greatly improves the processing speed of the stuffing food on the premise of not obviously increasing the equipment volume.

In order to solve the technical problems, the invention adopts the technical scheme that: an automatic high-speed forming and processing device for stuffing food comprises a conveying device, a stuffing shunting device, a flower pinching transmission device and a main frame, wherein the stuffing shunting device is arranged at the upper part of the main frame;

the structure of the conveying device is as follows: the bending device comprises a frame, a conveying belt, a driving roller, a driven roller and a supporting roller, wherein the frame is movably arranged on a vertical guide rail, the driven roller is arranged at the rear end of the frame, two ends of the driven roller are hinged to the frame, the front end of the frame is hinged to a bending plate, one end of the bending plate is hinged to the frame, the other end of the bending plate is movably provided with a conveying belt tongue plate for correcting deviation, two sides of the bending plate are fixedly provided with bending pieces, two ends of a hinged shaft of the bending plate and the frame are both inserted into the bending pieces, the bending pieces are provided with arc-shaped sliding grooves, the sliding grooves are provided with screw fasteners, the screw fasteners are connected with the frame to clamp and fix the bending pieces on the frame, the driving roller is arranged on the lower side of the frame, and two ends of the; the conveyer belt bypasses the driving roller, the driven roller, the upper side of the frame, the upper side of the bending plate, the conveyer belt deviation correcting tongue plate and the supporting roller and then winds back to the driving roller to form a closed loop; the bending plate can rotate above the frame around a hinge shaft of the bending plate and the frame, the bending sheet synchronously rotates along with the bending plate, and the screw fasteners are matched and relatively slide along the sliding grooves; the number of the conveying belts is two, and the two conveying belts are symmetrically and transversely arranged on the frame;

the structure of the stuffing shunting device is as follows: the stuffing filling machine comprises an inner stuffing feeding assembly, an outer packing material feeding assembly, quantitative distribution assemblies, distribution pipelines, gate valves and a discharge die cavity, wherein the two outer packing material feeding assemblies are symmetrically arranged at two sides of the inner stuffing feeding assembly, the discharge ports of the inner stuffing feeding assembly and the outer packing material feeding assembly are respectively provided with the quantitative distribution assemblies, the discharge port of the inner stuffing feeding assembly is provided with the distribution pipeline, the distribution pipeline is a T-shaped three-way pipe, the vertical pipe end of the distribution pipeline is communicated with the discharge port of the quantitative distribution assembly of the inner stuffing feeding assembly, the two horizontal pipe ends of the distribution pipeline are respectively connected with the discharge die cavity through pipelines, the inner cavity of the discharge die cavity is communicated with the horizontal pipe end of the distribution pipeline, the outer cavity of the discharge die cavity is communicated with the discharge port of the quantitative distribution assembly of the outer packing material feeding assembly through a pipeline, and the gate valve is arranged on the pipeline, the gate valve is used for controlling the flow of the stuffing entering the inner cavity of the discharging die cavity;

the structure of the kneading flower transmission device is as follows: including drive bracket, blade disc drive shaft, eccentric shaft, blade disc drive plate, pull rod, knee, blade disc and limiting plate, transversely be provided with the blade disc drive shaft on the drive bracket, the blade disc drive shaft passes through the chain wheel chain structure drive through the motor of fixing on the drive bracket, the equal parallel arrangement in both ends of blade disc drive shaft has the eccentric shaft, two all set up the sprocket on the eccentric shaft, all be connected through the chain between the sprocket of eccentric shaft and the setting at the blade disc drive epaxial sprocket, and two the eccentric shaft keeps synchronous rotation, the both ends of drive bracket all set up the limiting plate, be provided with curved spacing hole on the limiting plate, the one end or the both ends correspondence of eccentric shaft set up in spacing downthehole, blade disc drive plate activity suit is on the eccentric shaft, just the blade disc drive plate sets up between drive bracket, when the eccentric shaft rotates along the outline of the limiting hole, the cutter head driving plate longitudinally reciprocates, one end of the bent rod is connected to the upper end of the cutter head driving plate through the pull rod, the other end of the bent rod is connected with the cutter head, and the cutter head is driven to open and clamp the kneading flower through the longitudinal reciprocating movement of the cutter head driving plate.

The eccentric shaft is of a roller structure with a cam arranged at part, a cam follower is arranged at the position of the eccentric shaft in the limiting hole, and the cam follower is movably sleeved on the eccentric shaft, so that rolling friction is formed between the eccentric shaft and the limiting hole.

Be provided with blade disc drive plate guide block between drive support and the limiting plate, the blade disc drive plate matches the activity and sets up on blade disc drive plate guide block.

The quantitative distribution assembly comprises a quantitative distribution rotor and a shifting piece assembly.

The ejection of compact die cavity includes mould fixing base, outsourcing material forming die, interior filling forming die and forming die gland, interior filling forming die passes through threaded connection at the inner chamber discharge end, outsourcing material forming die compresses tightly through the forming die gland and fixes on the mould fixing base, wherein, pass through screw thread fixed connection between forming die gland and the mould fixing base.

The lower side of the frame is provided with a lifting mechanism, and the lifting mechanism is used for pushing the frame to move up and down along the guide rail so as to adjust the blanking stroke of the stuffing food; the lifting mechanism is in a structure that a worm gear is matched with a screw rod nut.

The guide rail is fixedly arranged on the filling food rack, the filling food rack is provided with an indicating scale in the direction along the guide rail, the end part of the frame corresponding to the indicating scale is provided with an indicating needle, and the blanking stroke of the filling food is indicated through the indicating needle and the indicating scale.

All be provided with the conveyer belt on the bending plate of conveyer belt both sides and prevent inclined to one side baffle, the conveyer belt prevents inclined to one side baffle and is used for injecing the traffic direction of conveyer belt on the bending plate.

The waste material collecting box is arranged on the frame below the bending plate, a scraping plate is arranged on the rear side of the waste material collecting box or the frame on the rear side of the waste material collecting box, and the scraping plate is used for scraping sticky waste materials on the conveying belt into the waste material collecting box.

The two ends of the driving roller are provided with conveying belt tensioning adjusting plates, the conveying belt tensioning adjusting plates are fixedly arranged on the frame, elongated slots are formed in the conveying belt tensioning adjusting plates in the vertical direction, and the driving roller can move up and down along the elongated slots to tension and adjust the conveying belt.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention adjusts the height of the frame through the lifting mechanism, and meanwhile, in the transportation process, the conveyer of the equipment is not required to be detached for transportation, and only the screw fastening piece is required to be loosened. The bending plate is lifted up to rotate around the hinge shaft of the frame, when the bending sheet rotates along with the bending plate synchronously, the sliding groove of the bending sheet slides through the screw fastener, and after the bending sheet rotates to the position, the bending sheet is pressed on the frame and fixed through the screw fastener.

2. The two eccentric shafts are driven to synchronously rotate through the chain wheel and chain structure, the cam structure is arranged at one end or two ends of each eccentric shaft, the end parts of the eccentric shafts roll along the outline of the limiting hole in the arc-shaped limiting hole of the limiting plate through the cam followers, and the cutter head driving plate is driven to longitudinally reciprocate, so that the cutter head connected with the cutter head driving plate is driven to open and clamp the kneading flower, the synchronous work of the two kneading flower mechanisms is realized, and the processing efficiency of stuffing food is greatly improved.

3. According to the invention, two paths of outer packing material feeding assemblies are arranged, so that the processing efficiency of the stuffing food is greatly improved, the gate valve can meet the requirements of different outer packing materials and the discharging speed of the outer packing materials by adjusting the flow of inner stuffing, and the production efficiency is greatly improved.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a perspective view of the present invention.

Fig. 3 is a schematic structural view of the conveying device of the present invention.

Fig. 4 is a perspective view of the conveying device of the present invention.

FIG. 5 is a schematic view of the filling diversion device according to the present invention.

FIG. 6 is a cross-sectional view of the filling diversion apparatus of the present invention.

FIG. 7 is a schematic structural diagram of the kneading flower driving device of the present invention.

FIG. 8 is an internal view of the twist pinching driver of the present invention.

In the figure: 1 is a conveying device, 11 is a frame, 12 is a conveying belt, 13 is a driving roller, 14 is a driven roller, 15 is a supporting roller, 16 is a lifting mechanism, 17 is a guide rail, 18 is a conveying belt deviation rectifying tongue plate, 19 is a bending plate, 110 is a bending sheet, 111 is a chute, 112 is a stuffing food rack, 113 is an indicating scale, 114 is an indicating needle, 115 is a conveying belt deviation preventing baffle, 116 is a waste receiving box, 117 is a scraping plate, 118 is a screw fastener, 119 is a conveying belt tensioning adjusting plate, 2 is a stuffing shunting device, 21 is an inner stuffing feeding assembly, 22 is an outer stuffing feeding assembly, 23 is a quantitative shunting assembly, 231 is a quantitative shunting rotor, 232 is a shifting sheet assembly, 24 is a shunting pipeline, 25 is a gate valve, 26 is a discharging die cavity, 261 is a die fixing seat, 262 is an outer stuffing forming die, 263 is an inner stuffing forming die, 264 is a forming die gland, 3 is a flower pinching transmission device, 31 is a driving bracket, A cutter head driving shaft 32, an eccentric shaft 33, a cutter head driving plate 34, a pull rod 35, a bent rod 36, a cutter head 37, a limit plate 38, a cam follower 39, a cutter head driving plate guide block 310 and a main frame 4.

Detailed Description

As shown in fig. 1 to 8, the automatic high-speed forming and processing equipment for stuffing food comprises a conveying device 1, a stuffing shunting device 2, a kneading flower transmission device 3 and a main frame 4, wherein the stuffing shunting device 2 is arranged at the upper part of the main frame 4, the conveying device 1 is arranged at the middle part of the main frame 4, the kneading flower transmission device 3 is arranged between the stuffing shunting device 2 and the conveying device 1, and the kneading flower transmission device 3 conveys away the inner stuffing and the outer skin output by the stuffing shunting device 2 through the conveying device 1 after kneading flower forming;

the structure of the conveying device 1 is as follows: the bending device comprises a frame 11, a conveying belt 12, a driving roller 13, a driven roller 14 and a supporting roller 15, wherein the frame 11 is movably arranged on a vertical guide rail 17, the driven roller 14 is arranged at the rear end of the frame 11, two ends of the driven roller 14 are hinged on the frame 11, the front end of the frame 11 is hinged with a bending plate 19, one end of the bending plate 19 is hinged on the frame 11, the other end of the bending plate 19 is movably provided with a conveying belt deviation rectifying tongue plate 18, two sides of the bending plate 19 are both fixedly provided with bending pieces 110, two ends of a hinged shaft of the bending plate 19 and the frame 11 are both inserted on the bending pieces 110, the bending pieces 110 are provided with arc-shaped sliding grooves 111, the sliding grooves 111 are provided with screw fasteners 118, the screw fasteners 118 are connected with the frame 11 to clamp and fix the bending pieces 110 on the frame 11, and the driving roller 13 and the supporting roller 15 are, and the two ends of the driving roller 13 and the supporting roller 15 are hinged on the frame 11; the conveyer belt 12 bypasses the driving roller 13, the driven roller 14, the upper side of the frame 11, the upper side of the bending plate 19, the conveyer belt deviation rectifying tongue plate 18 and the supporting roller 15 and then bypasses the driving roller 13 to form a closed loop; the bending plate 19 can rotate above the frame 11 around the hinge shaft of the bending plate and the frame 11, the bending sheet 110 rotates synchronously with the bending plate 19, and the screw fasteners 118 slide relatively along the sliding grooves 111; the number of the conveying belts 12 is two, and the two conveying belts 12 are symmetrically and transversely arranged on the frame 11;

the structure of the stuffing shunting device 2 is as follows: the filling machine comprises an inner filling feeding assembly 21, an outer packing material feeding assembly 22, a quantitative distribution assembly 23, a distribution pipeline 24, a gate valve 25 and a discharge die cavity 26, wherein the two outer packing material feeding assemblies 22 are symmetrically arranged at two sides of the inner filling feeding assembly 21, the quantitative distribution assembly 23 is arranged on discharge ports of the inner filling feeding assembly 21 and the outer packing material feeding assembly 22, the distribution pipeline 24 is arranged on the discharge port of the inner filling feeding assembly 21, the distribution pipeline 24 is a T-shaped three-way pipe, a vertical pipe end of the distribution pipeline 24 is communicated with a discharge port of the quantitative distribution assembly 23 of the inner filling feeding assembly 21, two horizontal pipe ends of the distribution pipeline 24 are respectively connected with the discharge die cavity 26 through pipelines, an inner cavity of the discharge die cavity 26 is communicated with a horizontal pipe end of the distribution pipeline 24, and an outer cavity of the discharge die cavity 26 is communicated with a discharge port of the quantitative distribution assembly 23 of the outer, a gate valve 25 is arranged on a pipeline connecting the horizontal pipe end of the diversion pipeline 24 and the discharge die cavity 26, and the gate valve 25 is used for controlling the flow of the stuffing entering the inner cavity of the discharge die cavity 26;

the kneading flower transmission device 3 has the structure that: including drive bracket 31, blade disc drive shaft 32, eccentric shaft 33, blade disc drive plate 34, pull rod 35, knee 36, blade disc 37 and limiting plate 38, transversely be provided with blade disc drive shaft 32 on the drive bracket 31, blade disc drive shaft 32 passes through the chain wheel chain structure drive through the motor of fixing on drive bracket 31, the equal parallel arrangement in both ends of blade disc drive shaft 32 has eccentric shaft 33, two all set up the sprocket on the eccentric shaft 33, all be connected through the chain between the sprocket on the eccentric shaft 33 and the sprocket of setting on blade disc drive shaft 32, and two eccentric shaft 33 keeps synchronous rotation, the both ends of drive bracket 31 all set up limiting plate 38, be provided with curved spacing hole on the limiting plate 38, the one end or the both ends correspondence of eccentric shaft 33 set up spacing downthehole, blade disc drive plate 34 activity suit is on eccentric shaft 33, just the blade disc drive plate 34 sets up between drive bracket 31 and limiting plate 38, eccentric shaft 33 is when rotating along spacing hole profile, the vertical reciprocating motion of blade disc drive plate 34, the upper end at blade disc drive plate 34 is passed through pull rod 35 to the one end of knee lever 36, the other end and the blade disc 37 of knee lever 36 are connected, drive blade disc 37 through the vertical reciprocating motion of blade disc drive plate 34 and open and the chucking is held between the fingers the flower.

The eccentric shaft 33 is a roller structure with a cam arranged on a local part, a cam follower 39 is arranged on the part of the eccentric shaft 33 in the limiting hole, and the cam follower 39 is movably sleeved on the eccentric shaft 33, so that rolling friction is formed between the eccentric shaft 33 and the limiting hole.

A cutterhead driving plate guide block 310 is arranged between the driving support 31 and the limiting plate 38, and the cutterhead driving plate 34 is movably arranged on the cutterhead driving plate guide block 310 in a matched mode.

The quantitative distribution assembly 23 includes a quantitative distribution rotor 231 and a dial assembly 232.

Discharge die cavity 26 includes mould fixing base 261, outsourcing material forming die 262, interior filling forming die 263 and forming die gland 264, interior filling forming die 263 passes through threaded connection at the inner chamber discharge end, outsourcing material forming die 262 compresses tightly through forming die gland 264 and fixes on mould fixing base 261, wherein, pass through screw thread fixed connection between forming die gland 264 and the mould fixing base 261.

The lower side of the frame 11 is provided with a lifting mechanism 16, and the lifting mechanism 16 is used for pushing the frame 11 to move up and down along a guide rail 17 so as to adjust the blanking stroke of the stuffing food; the lifting mechanism 16 is a structure that a worm gear and a worm are matched with a screw rod nut.

The guide rail 17 is fixedly arranged on the filling food rack 112, the filling food rack 112 is provided with an indication scale 113 along the direction of the guide rail 17, the end part of the frame 11 corresponding to the indication scale 113 is provided with an indication needle 114, and the indication needle 114 and the indication scale 113 indicate the blanking stroke of the filling food.

The bending plates 19 on two sides of the conveying belt 12 are provided with conveying belt deviation preventing baffles 115, and the conveying belt deviation preventing baffles 115 are used for limiting the running direction of the conveying belt 12 on the bending plates 19.

A waste receiving box 116 is arranged on the frame 11 below the bending plate 19, a scraping plate 117 is arranged on the rear side of the waste receiving box 116 or the frame 11 behind the waste receiving box 116, and the scraping plate 117 is used for scraping the sticky waste on the conveying belt 12 into the waste receiving box 116.

The two ends of the driving roller 13 are provided with a conveyor belt tensioning adjusting plate 119, the conveyor belt tensioning adjusting plate 119 is fixedly arranged on the frame 11, a long groove is formed in the conveyor belt tensioning adjusting plate 119 in the vertical direction, and the driving roller 13 can move up and down along the long groove to tension and adjust the conveyor belt.

According to the invention, the height of the frame 11 is adjusted through the lifting mechanism 16, specifically, the worm wheel is driven to rotate through the rotation of the hand wheel, the worm wheel drives the worm to rotate, the worm and the screw are coaxial, the nut is sleeved on the screw, the upper end of the nut is connected with the frame 11, when the screw rotates, the nut drives the frame 11 to move up and down, the blanking stroke of the stuffing food is adjusted, and the requirements of different blanking strokes of different stuffing foods are met.

In the transportation process, the conveyor of the equipment does not need to be detached for transportation, and only the screw fasteners 118 need to be loosened. When the bending plate 19 is lifted to rotate around the hinge shaft of the frame 11, and the bending plate 110 rotates synchronously with the bending plate 19, the sliding groove of the bending plate 110 slides over the screw fastening member 118, and after the bending plate 110 rotates to the position, the bending plate 110 is pressed against the frame 11 and fixed by the screw fastening member 118.

The inner stuffing feeding assembly 21 and the outer packing material feeding assembly 22 related in the invention are both in the prior art, two outer packing material feeding assemblies 22 are arranged, the processing efficiency of stuffing food is greatly improved, the gate valve 25 meets the requirements of different outer packing materials and the discharging speed of the outer packing materials by adjusting the flow of inner stuffing, and the production efficiency is greatly improved.

The two eccentric shafts 33 are driven to synchronously rotate through a chain wheel and chain structure, a cam structure is arranged at one end or two ends of each eccentric shaft 33, the end part of each eccentric shaft 33 rolls along the outline of the limiting hole in the arc-shaped limiting hole of the limiting plate 38 through the cam follower 39, and the cutter head driving plate 34 is driven to longitudinally reciprocate, so that the cutter head 37 connected with the cutter head driving plate is driven to open and clamp the kneading flower, the synchronous work of the two kneading flower mechanisms is realized, and the processing efficiency of stuffing food is greatly improved.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims

1. The automatic high-speed forming and processing equipment for the stuffing food is characterized by comprising a conveying device (1), a stuffing distribution device (2), a kneading flower transmission device (3) and a main frame (4), wherein the stuffing distribution device (2) is arranged on the upper part of the main frame (4), the conveying device (1) is arranged in the middle of the main frame (4), the kneading flower transmission device (3) is arranged between the stuffing distribution device (2) and the conveying device (1), and the kneading flower transmission device (3) conveys away the inner stuffing and the outer skin output by the stuffing distribution device (2) after kneading flower forming through the conveying device (1);

the structure of the conveying device (1) is as follows: the bending device comprises a frame (11), a conveying belt (12), a driving roller (13), a driven roller (14) and a supporting roller (15), wherein the frame (11) is movably arranged on a vertical guide rail (17), the driven roller (14) is arranged at the rear end of the frame (11), two ends of the driven roller (14) are hinged on the frame (11), a bending plate (19) is hinged at the front end of the frame (11), one end of the bending plate (19) is hinged on the frame (11), a conveying belt deviation rectifying tongue plate (18) is movably arranged at the other end of the bending plate (19), bending sheets (110) are fixedly arranged on two sides of the bending plate (19), two ends of hinged shafts of the bending plate (19) and the frame (11) are respectively inserted on the bending sheets (110), a circular arc-shaped sliding groove (111) is arranged on each bending sheet (110), and a screw fastening piece (118) is arranged on each sliding groove (111), the screw fasteners (118) are connected with the frame (11) to clamp and fix the bending sheet (110) on the frame (11), the driving roller (13) and the supporting roller (15) are arranged on the lower side of the frame (11), and two ends of the driving roller (13) and the supporting roller (15) are hinged to the frame (11); the conveyer belt (12) bypasses the driving roller (13), the driven roller (14), the upper side of the frame (11), the upper side of the bending plate (19), the conveyer belt deviation rectifying tongue plate (18) and the supporting roller (15) and then bypasses the driving roller (13) to form a closed loop; the bending plate (19) can rotate above the frame (11) around a hinge shaft of the bending plate and the frame (11), the bending sheet (110) synchronously rotates along with the bending plate (19), and the screw fastening piece (118) is matched and relatively slides along the sliding groove (111); the number of the conveying belts (12) is two, and the two conveying belts (12) are symmetrically and transversely arranged on the frame (11);

the structure of the stuffing shunting device (2) is as follows: comprises an inner stuffing feeding assembly (21), an outer packing material feeding assembly (22), quantitative shunt assemblies (23), shunt pipes (24), a gate valve (25) and a discharge die cavity (26), wherein the two outer packing material feeding assemblies (22) are symmetrically arranged at two sides of the inner stuffing feeding assembly (21), the quantitative shunt assemblies (23) are respectively arranged on discharge ports of the inner stuffing feeding assembly (21) and the outer packing material feeding assembly (22), the shunt pipes (24) are arranged on the discharge port of the inner stuffing feeding assembly (21), the shunt pipes (24) are T-shaped three-way pipes, the vertical pipe ends of the shunt pipes (24) are communicated with the discharge port of the quantitative shunt assembly (23) of the inner stuffing feeding assembly (21), the two horizontal pipe ends of the shunt pipes (24) are respectively connected with the discharge die cavity (26) through pipe ends, the inner cavity of the discharge die cavity (26) is communicated with the horizontal pipe ends of the shunt pipes (24), the outer cavity of the discharging die cavity (26) is communicated with the discharge hole of the quantitative flow distribution assembly (23) of the outer coating material feeding assembly (22) through a pipeline, a gate valve (25) is arranged on the pipeline connecting the horizontal pipe end of the flow distribution pipeline (24) and the discharging die cavity (26), and the gate valve (25) is used for controlling the flow of inner stuffing entering the inner cavity of the discharging die cavity (26);

the kneading flower transmission device (3) is structurally characterized in that: comprises a driving support (31), a cutter head driving shaft (32), an eccentric shaft (33), a cutter head driving plate (34), a pull rod (35), a bent rod (36), a cutter head (37) and a limiting plate (38), wherein the cutter head driving shaft (32) is transversely arranged on the driving support (31), the cutter head driving shaft (32) is driven by a motor fixed on the driving support (31) through a chain wheel and chain structure, the eccentric shaft (33) is arranged at the two ends of the cutter head driving shaft (32) in parallel, chain wheels are arranged on the two eccentric shafts (33), the chain wheels on the eccentric shafts (33) are connected with the chain wheels arranged on the cutter head driving shaft (32) through chains, the two eccentric shafts (33) keep synchronous rotation, the limiting plates (38) are arranged at the two ends of the driving support (31), and arc-shaped limiting holes are formed in the limiting plates (38, the one end or the both ends of eccentric shaft (33) correspond and set up spacing downthehole, blade disc drive plate (34) activity suit is on eccentric shaft (33), just blade disc drive plate (34) set up between drive support (31) and limiting plate (38), eccentric shaft (33) are when rotating along spacing hole profile, vertical reciprocating motion of blade disc drive plate (34), the upper end at blade disc drive plate (34) is connected through pull rod (35) to the one end of knee (36), the other end and blade disc (37) of knee (36) are connected, drive blade disc (37) through vertical reciprocating motion of blade disc drive plate (34) and open and the chucking holds between the fingers the flower.

2. The automatic high-speed stuffing food forming and processing equipment according to claim 1, wherein the eccentric shaft (33) is a roller structure with a cam partially arranged, a cam follower (39) is arranged at the position of the eccentric shaft (33) in the limiting hole, and the cam follower (39) is movably sleeved on the eccentric shaft (33) so that rolling friction is formed between the eccentric shaft (33) and the limiting hole.

3. The automatic high-speed stuffing food forming and processing equipment according to claim 1, wherein a cutter head drive plate guide block (310) is arranged between the drive bracket (31) and the limit plate (38), and the cutter head drive plate (34) is movably arranged on the cutter head drive plate guide block (310) in a matching manner.

4. The automated filled food product high speed forming processing equipment according to claim 1, wherein the quantitative diversion assembly (23) comprises a quantitative diversion rotor (231) and a shifting piece assembly (232).

5. The automatic stuffing food high-speed forming processing equipment according to claim 1, wherein the discharging die cavity (26) comprises a die fixing seat (261), an outer packing material forming die (262), an inner stuffing forming die (263) and a forming die gland (264), the inner stuffing forming die (263) is connected to the discharging end of the inner cavity through threads, the outer packing material forming die (262) is pressed and fixed on the die fixing seat (261) through the forming die gland (264), and the forming die gland (264) is fixedly connected with the die fixing seat (261) through threads.

6. The automatic high-speed forming processing equipment for the filled food according to claim 1, wherein a lifting mechanism (16) is arranged at the lower side of the frame (11), and the lifting mechanism (16) is used for pushing the frame (11) to move up and down along a guide rail (17) to adjust the blanking stroke of the filled food; the lifting mechanism (16) is in a structure that a worm gear is matched with a screw rod nut.

7. The automatic high-speed forming and processing equipment for the filled food according to claim 1, wherein the guide rail (17) is fixedly arranged on a filled food rack (112), the filled food rack (112) is provided with an indication scale (113) along the direction of the guide rail (17), the end part of the frame (11) corresponding to the indication scale (113) is provided with an indication needle (114), and the indication needle (114) and the indication scale (113) indicate the blanking stroke of the filled food.

8. The automatic high-speed forming and processing equipment for the stuffing food according to claim 1, wherein the bending plates (19) at both sides of the conveyer belt (12) are provided with conveyer belt deviation-preventing baffles (115), and the conveyer belt deviation-preventing baffles (115) are used for limiting the running direction of the conveyer belt (12) on the bending plates (19).

9. The automatic high-speed forming and processing equipment for the filled food according to claim 1, wherein a waste receiving box (116) is arranged on the frame (11) below the bending plate (19), a scraping plate (117) is arranged on the rear side of the waste receiving box (116) or the frame (11) on the rear side of the waste receiving box (116), and the scraping plate (117) is used for scraping the waste adhered on the conveying belt (12) into the waste receiving box (116).

10. The automatic high-speed forming and processing equipment for the stuffing food according to claim 1, wherein two ends of the driving roller (13) are provided with a conveyer belt tensioning adjusting plate (119), the conveyer belt tensioning adjusting plate (119) is fixedly arranged on the frame (11), a long groove is vertically arranged on the conveyer belt tensioning adjusting plate (119), and the driving roller (13) can move up and down along the long groove to tension and adjust the conveyer belt.