CN219088251U - Automatic bread food production line - Google Patents

Abstract

The utility model discloses an automatic bread food production line which comprises a conveying belt assembly, a slitting assembly, an oiling structure, supporting feet and a stirring discharging device, wherein the stirring discharging device is arranged, a movable stirring extruding mechanism is arranged at the top end of a stirring tank of the stirring discharging device, stirring blades are controlled to extend into the stirring tank to stir flour, dough after stirring is completed by controlling auger blades to extend into the stirring tank is extruded and discharged, flour, required water and additives are added into the stirring tank to stir the dough, the dough is extruded and discharged, manual operation of a user is reduced, the bottom of the stirring tank is in threaded connection with an internal threaded pipe on a bottom plate by adopting an external threaded connection pipe, the stirring tank is clamped by a second cylinder control clamping plate, the stirring tank can be disassembled, the inside of the stirring tank is cleaned conveniently, the cleaning effect of the inside of the stirring tank is improved, and the production quality of bread is ensured.

Description

Automatic bread food production line

Technical Field

The utility model relates to the technical field of food self-processing, in particular to an automatic bread food production line.

Background

Along with the continuous progress of science and technology, the food machinery industry is rapidly developed, and automatic production is continuously introduced into the food industry at the present day when the labor cost is continuously increased, and bread is taken as an important food for people at present, so that the demand of people for bread is very large, and the automation of bread production has important significance for the food field.

When the existing bread production line is optimized, most of the bread production line is in the aspect of dough extrusion, for example, chinese patent No. CN202123436855.3 discloses a bread automation production line, when the bread automation production line is used for producing bread, a first cylinder is started to downwards extrude a head, dough in a material box is uniformly extruded from an extrusion pipe to obtain uniform strip dough, the strip dough is conveyed to the lower part of a slitting mechanism through a conveying belt, a second cylinder is started to push a slitting knife to uniformly move up and down to cut the strip dough into uniform small dough, then the uniform strip dough enters a rounding box through the conveying belt and a material guiding mechanism to be rolled into balls and is discharged from a material discharging mechanism.

Although the above-mentioned bread line has a certain advantage in terms of convenience in extrusion of dough, certain drawbacks still exist:

1: the extrusion head is adopted to extrude the dough downwards, but the flour is not convenient to be placed in the material box for stirring, so that the dough needs to be prepared in external equipment, then the dough is put into the material box for extrusion discharging, the use operation is inconvenient, the use procedure of bread is increased, and the manual operation of a user is increased.

2: the dough adhesion is stronger, makes the dough adhere to the workbin inner wall easily, and the workbin adopts fixed knot to be difficult for cleaning the dough of workbin inner wall adhesion, and is poor to the inside clean degree of workbin, leads to the inside bacterium that grows easily of workbin, and then influences the quality of bread.

Disclosure of Invention

Accordingly, in order to solve the above-mentioned shortcomings, the present utility model herein provides an automated bread food production line.

The utility model is realized in such a way that an automatic bread food production line is constructed, and the device comprises a conveying belt assembly, a slitting assembly arranged at the middle part of the top end of the conveying belt assembly, an oiling structure arranged at the left side of the top end of the conveying belt assembly, and supporting feet fixed at the bottom ends of the conveying belt assembly, the slitting assembly and the oiling structure;

the method is characterized in that: further comprises:

and the stirring and discharging device is fixed on the right side of the top end of the conveying belt assembly.

Preferably, the stirring discharging device comprises:

the shell is fixed on the right side of the top end of the conveyor belt assembly;

the movable stirring extrusion mechanism is arranged at the top end inside the shell;

the bottom plate is fixed at the bottom of the inner side of the shell;

the gate valve is arranged in the middle of the bottom end of the bottom plate, and an extrusion pipe is arranged at the bottom end of the gate valve;

the inner screwed connection pipe is arranged in the middle of the top end of the bottom plate;

the stirring tank is provided with an external screwed pipe at the bottom end, and the bottom of the outer wall of the external screwed pipe is screwed and locked with the internal screwed pipe;

the two clamping plates are respectively arranged at the left side and the right side of the stirring tank, the outer sides of the two clamping plates are respectively connected with a first air cylinder for controlling the clamping plates, and the first air cylinders are fixed on the outer wall of the shell;

the sliding groove is formed in the right side of the shell;

wherein, the extrusion pipe sets up in conveyer belt subassembly top right side.

Preferably, the movable stirring extrusion mechanism comprises:

the support plate is used for supporting the support frame;

the polish rod vertically penetrates through the left side of the inside of the support plate;

the screw rod vertically penetrates through the right side of the inside of the support plate, and the inner wall of the support plate is in threaded connection with the screw rod;

the output shaft at the bottom end of the first motor is connected with the screw rod through a coupler;

the support frame is fixed at the top end of the support plate;

the two sliding rails are arranged and are respectively fixed on the front side and the rear side of the inside of the supporting frame;

the movable plate is embedded into the supporting frame, and the front side and the rear side of the movable plate slide along the sliding rail;

the second motor is fixed on the left side of the top end of the movable plate;

the third motor is fixed on the right side of the top end of the movable plate;

the second air cylinder is fixed on the front side of the right end of the supporting frame, and a piston rod at the left end of the second air cylinder extends into the supporting frame and is fixedly connected with the movable plate;

the through hole is formed in the middle of the bottom end of the support plate;

the top end of the first rotating shaft is connected with an output shaft at the bottom end of the second motor through a coupler, and auger blades are welded at the bottom of the outer side of the first rotating shaft;

the top end of the second rotating shaft is connected with an output shaft at the bottom end of the third motor through a coupler, and stirring blades are welded at the bottom of the outer side of the second rotating shaft;

the first motor is fixed on the top end of the shell, the upper end and the lower end of the polish rod are respectively and fixedly connected with the shell and the bottom plate, and the bottom end of the screw rod is rotationally connected with the bottom plate through a bearing.

Preferably, a blanking hole is formed in the middle of the bottom plate, and the upper end and the lower end of the blanking hole are connected with the internal screwed connection pipe and the gate valve.

Preferably, the inner wall of the external screw thread connecting pipe is attached to the auger blade.

Preferably, the splint is arc-shaped, and splint inner wall and agitator tank laminating.

Preferably, the polish rod is parallel to the screw rod, the surface of the polish rod is smooth, and the inner wall of the support plate is attached to the polish rod.

Preferably, the sliding rail is arranged in the horizontal direction, the surface of the sliding rail is smooth, and sliding grooves which are attached to the outer walls of the sliding rail are formed in the front side and the rear side of the movable plate.

Preferably, the first rotating shaft and the second rotating shaft are arranged in parallel, and the first rotating shaft and the center of the stirring tank and the center of the external screw thread connecting pipe are arranged in the same straight line.

The utility model has the following advantages: the present utility model provides an automated breading line by improvement herein, with the following improvements over the same type of equipment:

the advantages are as follows: according to the automatic bread food production line, the stirring discharging device is arranged, the movable stirring extruding mechanism is arranged at the top end of the stirring tank of the stirring discharging device, the auger blade and the stirring blade are arranged at the bottom of the movable stirring extruding mechanism, flour is stirred by controlling the stirring blade to extend into the stirring tank, dough after stirring is completed by controlling the auger blade to extend into the stirring tank is extruded and discharged, flour, required water and additives are added into the stirring tank to be stirred into dough, the dough is extruded and discharged, the bread manufacturing procedure is reduced, manual operation of a user is reduced, and the automatic effect of the bread production line is improved.

The advantages are as follows: according to the automatic bread food production line, the bottom of the stirring tank is in threaded connection with the internal threaded pipe on the bottom plate through the external threaded pipe, the stirring tank is clamped through the second cylinder control clamping plate, the auger blades and the stirring blades can be moved to the top end of the stirring tank, so that the stirring tank can be disassembled, the interior of the stirring tank is conveniently cleaned, the cleaning effect of the interior of the stirring tank is improved, and the production quality of bread is ensured.

Drawings

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

FIG. 2 is a schematic structural view of the stirring and discharging device of the utility model;

FIG. 3 is a cross-sectional view of the structure of the stirring discharging device of the present utility model;

FIG. 4 is a cross-sectional view of the structure of the movable stirring extrusion mechanism of the present utility model;

fig. 5 is a schematic view of the supporting frame structure of the present utility model.

Wherein: the novel automatic stirring device comprises a conveying belt component-1, a slitting component-2, an oiling structure-3, supporting feet-4, a stirring and discharging device-5, a shell-51, a movable stirring and extruding mechanism-52, a bottom plate-53, a gate valve-54, an extruding pipe-55, an internal screwed pipe-56, a stirring tank-57, an external screwed pipe-58, a clamping plate-59, a first cylinder-510, a sliding groove-511, a supporting plate-521, a polished rod-522, a screw-523, a first motor-524, a supporting frame-525, a sliding rail-526, a movable plate-527, a second motor-528, a third motor-529, a second cylinder-5210, a through hole-5211, a first rotating shaft-5212, a second rotating shaft-5213, a screw blade-5214 and a stirring blade-5215.

Detailed Description

The following detailed description of the present utility model will provide further details of the utility model with reference to fig. 1-5, wherein the embodiments are described in a clear and complete manner, and it is apparent that the embodiments described are merely some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiment one;

referring to fig. 1, an automatic bread food production line of the present utility model includes a conveyor belt assembly 1, a slitting assembly 2 mounted on a top portion of the conveyor belt assembly 1, an oiling structure 3 mounted on a left side of a top portion of the conveyor belt assembly 1, and supporting legs 4 fixed to the bottom ends of the conveyor belt assembly 1, the slitting assembly 2 and the oiling structure 3;

the method is characterized in that: further comprises:

and the stirring and discharging device 5 is fixed on the right side of the top end of the conveyor belt assembly 1.

Referring to fig. 2-3, an automatic bread food production line according to the present utility model, a stirring and discharging device 5 includes:

a housing 51, the housing 51 being fixed to the right side of the top end of the conveyor belt assembly 1;

a movable stirring extrusion mechanism 52, wherein the movable stirring extrusion mechanism 52 is arranged at the top end inside the shell 51;

a bottom plate 53, the bottom plate 53 being fixed to the bottom inside the housing 51;

the gate valve 54, the gate valve 54 is installed in the middle of the bottom end of the bottom plate 53, and the extrusion pipe 55 is installed at the bottom end of the gate valve 54;

an internal nipple 56, the internal nipple 56 being disposed in the middle of the top end of the bottom plate 53;

the stirring tank 57, wherein an external screwed pipe 58 is arranged at the bottom end of the stirring tank 57, and the bottom of the outer wall of the external screwed pipe 58 is screwed and locked with the internal screwed pipe 56;

the clamping plates 59, wherein two clamping plates 59 are arranged, the two clamping plates 59 are respectively arranged at the left side and the right side of the stirring tank 57, the outer sides of the two clamping plates 59 are respectively connected with a first air cylinder 510 for controlling the clamping plates 59, and the first air cylinders 510 are fixed on the outer wall of the shell 51;

a chute 511, the chute 511 is arranged on the right side of the housing 51;

wherein, the extrusion tube 55 sets up in conveyer belt subassembly 1 top right side, the blanking hole has been seted up at the middle part in the bottom plate 53, and the upper and lower both ends of blanking hole are connected with internal thread take-over 56 and gate valve 54, make the bread raw materials that stir in the agitator tank 57 drop to the extrusion tube 55 through the inside blanking hole of bottom plate 53 and gate valve 54, external thread take-over 58 inner wall and auger blade 5214 laminating, make first pivot 5212 and auger blade 5214 move down and stretch into in the external thread take-over 58 after, through first pivot 5212 and auger blade 5214, carry downwards the surface fabric raw materials that the stirring of agitator tank 57 is accomplished, splint 59 are the arc form, and splint 59 inner wall and agitator tank 57 laminating, increase the fixed effect to agitator tank 57.

Referring to fig. 4-5, an automated bread product manufacturing line of the present utility model, a mobile stirring extrusion mechanism 52 comprises:

the support plate 521, the support plate 521 is used for supporting the support frame 525;

the polished rod 522, the polished rod 522 vertically penetrates through the left side inside the support plate 521;

the screw 523, the screw 523 vertically penetrates through the right side inside the support plate 521, and the inner wall of the support plate 521 is in threaded connection with the screw 523;

the output shaft at the bottom end of the first motor 524 is connected with the screw 523 through a coupling;

the supporting frame 525, the supporting frame 525 is fixed on the top end of the supporting plate 521;

the two sliding rails 526 are arranged, and the two sliding rails 526 are respectively fixed on the front side and the rear side of the inside of the supporting frame 525;

the movable plate 527, the movable plate 527 is embedded into the supporting frame 525, and the front side and the rear side of the movable plate 527 slide along the sliding rail 526;

the second motor 528, the second motor 528 is fixed on the left side of the top end of the movable plate 527;

a third motor 529, wherein the third motor 529 is fixed to the right side of the top end of the movable plate 527;

the second cylinder 5210, the second cylinder 5210 is fixed on the front side of the right end of the supporting frame 525, and the piston rod of the left end of the second cylinder 5210 extends into the supporting frame 525 and is fixedly connected with the movable plate 527;

the through hole 5211, the through hole 5211 is arranged in the middle of the bottom end of the support plate 521;

the top end of the first rotating shaft 5212 is connected with an output shaft at the bottom end of the second motor 528 through a coupler, and an auger blade 5214 is welded at the bottom of the outer side of the first rotating shaft 5212;

the top end of the second rotating shaft 5213 is connected with an output shaft at the bottom end of the third motor 529 through a coupler, and stirring blades 5215 are welded at the bottom of the outer side of the second rotating shaft 5213;

the first motor 524 is fixed on the top end of the shell 51, the upper end and the lower end of the polish rod 522 are fixedly connected with the shell 51 and the bottom plate 53 respectively, the bottom end of the screw rod 523 is rotationally connected with the bottom plate 53 through a bearing, the polish rod 522 and the screw rod 523 are arranged in parallel, the surface of the polish rod 522 is smooth, the inner wall of the support plate 521 is attached to the polish rod 522, the moving track of the support plate 521 is limited through the polish rod 522, the sliding rail 526 is arranged in the horizontal direction, the surface of the sliding rail 526 is smooth, sliding grooves attached to the outer wall of the sliding rail 526 are formed in the front side and the rear side of the movable plate 527, the moving track of the movable plate 527 is limited through the sliding rail 526, the first rotating shaft 5212 and the second rotating shaft 5213 are arranged in parallel, and the first rotating shaft 5212 is arranged in the same straight line with the center of the stirring tank 57 and the external threaded connection pipe 58, so that the first rotating shaft 5212 and the auger blade 5214 downwards move and extend into the external threaded connection pipe 58, and the auger blade 5214 is driven by the first rotating along the inner wall of the external threaded connection pipe 58.

Embodiment two;

in the automatic bread food production line, after the movable plate 527 moves leftwards, the second rotating shaft 5213 and the center of the stirring tank 57 are arranged in the same vertical line, so that the second rotating shaft 5213 and the stirring blades 5215 move downwards to extend into the stirring tank 57, and then bread raw materials in the stirring tank 57 are stirred.

The utility model provides an automatic bread food production line through improvement, and the working principle is as follows;

firstly, when the device is used, the device is firstly placed in a working area, and then the device is connected with an external power supply, so that the device can provide the required electric energy for the work of the device;

secondly, when the bread dough stirring device is used, firstly flour, required water and additives are added into a stirring tank 57, then a piston rod of a second air cylinder 5210 is controlled to push a movable plate 527 to move leftwards along a sliding rail 526, after the movable plate 527 moves leftwards, a second rotating shaft 5213 and the circle center of the stirring tank 57 are arranged in the same vertical line, then a first motor 524 is controlled to generate power to drive a circle center of the top end of a movable screw 523 to rotate through an output shaft, the screw 523 rotates to drive the support plate 521 to move downwards through threaded fit with the support plate 521, so that the second rotating shaft 5213 and the stirring blade 5215 move downwards to extend into the stirring tank 57, and then a third motor 529 is controlled to generate power to drive the second rotating shaft 5213 and the stirring blade 5215 to rotate, bread raw materials in the stirring tank 57 are stirred to form dough through rotation of the stirring blade 5215, the first rotating shaft 5212 and the auger blade 5214 move downwards to extend into a gap between the stirring tank 57 and a shell 51, and the first rotating shaft 5212 and the auger blade 5214 are arranged on the front side of the first air cylinder 510 connected with the polish rod 522 and the clamping plate 59 to prevent the piston rods from blocking each other;

thirdly, when the stirred dough is extruded, the screw rod 523 is driven to reversely rotate by controlling the first motor 524, the support plate 521 drives the first rotating shaft 5212, the second rotating shaft 5213, the auger blade 5214 and the stirring blade 5215 to move upwards, the piston rod of the second air cylinder 5210 is controlled to drive the movable plate 527 to move leftwards along the sliding rail 526, the first rotating shaft 5212 and the auger blade 5214 are vertically aligned with the center of the stirring tank 57, then the first rotating shaft 5212 and the auger blade 5214 are controlled to move downwards and extend into the external screwed pipe 58 at the bottom of the stirring tank 57, the gate valve 54 is controlled to be opened, then the first motor 527 is controlled to generate power to drive the first rotating shaft 5212 and the auger blade 5214 to rotate through the output shaft, and after the inner wall of the external screwed pipe 58 is attached to the auger blade 5214, the first rotating shaft 5212 and the auger blade 5214 are downwards moved into the external screwed pipe 58, the stirred dough is conveyed downwards through the first rotating shaft 5212 and the auger blade 5214, the stirred dough inside the stirring tank 57 is extruded downwards, and the dough is extruded through the extrusion 55 to form a dough conveying belt 1, and the dough conveying belt is conveyed on the dough conveying belt 1 through the extruding belt 55;

fourth, the dough strip is slit by the slitting assembly 2, and then the surface of the slit dough is oiled by the oiling mechanism 3, and then is transferred to the bread baking apparatus by the conveyor belt assembly 1 for baking.

Fifthly, when the stirring tank 57 needs to be disassembled, the first cylinder 510 is controlled to drive the clamping plate 59 to extend outwards, the first motor 524 is controlled to move the first rotating shaft 5212, the second rotating shaft 5213, the auger blades 5214 and the stirring blades 5215 to the top of the stirring tank 57, and then the stirring tank 57 is rotated, so that the external threaded connection pipe 58 at the bottom of the stirring tank 57 is disconnected with the internal threaded connection pipe 56, the stirring tank 57 can be removed, the inside of the stirring tank 57 is cleaned, the cleaning effect of the inside of the stirring tank 57 is improved, and the production quality of bread is ensured;

sixth, when the stirring tank 57 is installed, the external nipple 58 and the internal nipple 56 at the bottom of the stirring tank 57 are screwed tightly by screw threads, and then the first cylinder 510 is controlled to push the clamping plate 59 to clamp the left and right sides of the stirring tank 57, so that the stirring tank 57 can be installed and fixed.

According to the automatic bread food production line provided by the utility model, through the improvement, the stirring and discharging device 5 is arranged, the movable stirring and extruding mechanism 52 is arranged at the top end of the stirring tank 57 of the stirring and discharging device 5, the auger blade 5214 and the stirring blade 5215 are arranged at the bottom of the movable stirring and extruding mechanism 52, flour is stirred by controlling the stirring blade 5215 to extend into the stirring tank 57, dough after stirring is completed by controlling the auger blade 5214 to extend into the stirring tank 57 is extruded and discharged, flour, required water and additives are added into the stirring tank 57 to be stirred into dough, and the dough is extruded into strips for discharging, so that the bread making process is reduced, manual operation of a user is reduced, the automation effect of the bread production line is improved, the stirring tank 57 is clamped by controlling the clamping plate 59 through the second air cylinder 5210, the auger blade 5214 and the stirring blade 5215 can be moved to the top end of the stirring tank 57, the stirring tank 57 can be conveniently detached, the cleaning effect of the inside the stirring tank 57 is ensured, and the cleaning effect of the inside of the stirring tank 57 is improved.

The basic principle and main characteristics of the utility model and the advantages of the utility model are shown and described above, standard parts used by the utility model can be purchased from market, special-shaped parts can be customized according to the description of the specification and the drawings, the specific connection modes of the parts adopt conventional means such as mature bolt rivets and welding in the prior art, the machinery, the parts and the equipment adopt conventional models in the prior art, and the circuit connection adopts conventional connection modes in the prior art, so that the description is omitted.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. An automatic bread food production line comprises a conveying belt assembly (1), a slitting assembly (2) arranged at the middle part of the top end of the conveying belt assembly (1), an oiling structure (3) arranged at the left side of the top end of the conveying belt assembly (1), and supporting feet (4) fixed at the bottom ends of the conveying belt assembly (1), the slitting assembly (2) and the oiling structure (3);

the method is characterized in that: further comprises:

and the stirring and discharging device (5) is fixed on the right side of the top end of the conveying belt assembly (1).

2. An automated breading line according to claim 1 wherein: the stirring discharging device (5) comprises:

a housing (51), the housing (51) being fixed to the right side of the top end of the conveyor belt assembly (1);

the movable stirring extrusion mechanism (52) is arranged at the top end inside the shell (51);

a bottom plate (53), the bottom plate (53) being fixed to the inside bottom of the housing (51);

the gate valve (54), the gate valve (54) is installed in the middle of the bottom end of the bottom plate (53), and an extrusion pipe (55) is installed at the bottom end of the gate valve (54);

the inner screwed connection pipe (56), the inner screwed connection pipe (56) is arranged in the middle of the top end of the bottom plate (53);

the stirring tank (57), wherein an external screwed connection pipe (58) is arranged at the bottom end of the stirring tank (57), and the bottom of the outer wall of the external screwed connection pipe (58) is in threaded locking with the internal screwed connection pipe (56);

the two clamping plates (59) are arranged, the two clamping plates (59) are respectively arranged at the left side and the right side of the stirring tank (57), the outer sides of the two clamping plates (59) are respectively connected with a first air cylinder (510) for controlling the clamping plates (59), and the first air cylinders (510) are fixed on the outer wall of the shell (51);

the sliding groove (511) is formed in the right side of the shell (51);

wherein the extrusion pipe (55) is arranged on the right side of the top end of the conveying belt assembly (1).

3. An automated breading line according to claim 2 wherein: the movable stirring extrusion mechanism (52) comprises:

a support plate (521), the support plate (521) being used for supporting the support frame (525);

the polish rod (522) vertically penetrates through the left side of the inside of the support plate (521);

the screw rod (523) vertically penetrates through the right side of the inside of the support plate (521), and the inner wall of the support plate (521) is in threaded connection with the screw rod (523);

an output shaft at the bottom end of the first motor (524) is connected with a screw (523) through a coupler;

the supporting frame (525) is fixed at the top end of the supporting plate (521);

the two sliding rails (526) are arranged, and the two sliding rails (526) are respectively fixed on the front side and the rear side of the inside of the supporting frame (525);

the movable plate (527) is embedded into the supporting frame (525), and the front side and the rear side of the movable plate (527) slide along the sliding rail (526);

a second motor (528), wherein the second motor (528) is fixed at the left side of the top end of the movable plate (527);

a third motor (529), wherein the third motor (529) is fixed on the right side of the top end of the movable plate (527);

the second air cylinder (5210), the second air cylinder (5210) is fixed on the front side of the right end of the supporting frame (525), and a piston rod at the left end of the second air cylinder (5210) extends into the supporting frame (525) and is fixedly connected with the movable plate (527);

the through hole (5211) is formed in the middle of the bottom end of the support plate (521);

the first rotating shaft (5212), the top end of the first rotating shaft (5212) is connected with the output shaft at the bottom end of the second motor (528) through a coupler, and an auger blade (5214) is welded at the bottom of the outer side of the first rotating shaft (5212);

the top end of the second rotating shaft (5213) is connected with an output shaft at the bottom end of the third motor (529) through a coupler, and stirring blades (5215) are welded at the bottom of the outer side of the second rotating shaft (5213);

the first motor (524) is fixed at the top end of the shell (51), the upper end and the lower end of the polish rod (522) are respectively and fixedly connected with the shell (51) and the bottom plate (53), and the bottom end of the screw rod (523) is rotationally connected with the bottom plate (53) through a bearing.

4. An automated breading line according to claim 2 wherein: and a blanking hole is formed in the middle in the bottom plate (53), and the upper end and the lower end of the blanking hole are connected with an internal screwed connection pipe (56) and a gate valve (54).

5. An automated breading line according to claim 3 wherein: the inner wall of the external screwed connection pipe (58) is attached to the auger blade (5214).

6. An automated breading line according to claim 2 wherein: the clamping plate (59) is arc-shaped, and the inner wall of the clamping plate (59) is attached to the stirring tank (57).

7. An automated breading line according to claim 3 wherein: the polish rod (522) is parallel to the screw rod (523), the surface of the polish rod (522) is smooth, and the inner wall of the support plate (521) is attached to the polish rod (522).

8. An automated breading line according to claim 3 wherein: the sliding rail (526) is arranged in the horizontal direction, the surface of the sliding rail (526) is smooth, and sliding grooves attached to the outer wall of the sliding rail (526) are formed in the front side and the rear side of the movable plate (527).

9. An automated breading line according to claim 3 wherein: the first rotating shaft (5212) and the second rotating shaft (5213) are arranged in parallel, and the first rotating shaft (5212) and the center of the stirring tank (57) and the outer screwed connection pipe (58) are arranged in the same straight line.

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