CN210520030U - Novel chicken powder production line - Google Patents

Abstract

The utility model discloses a novel chicken powder production line, which comprises an underframe, a drying oven, a discharging device, a discharging pipe, an observation door, an air inlet branch pipe, an air inlet main pipe, a side cover, a heat exchanger, a cyclone separator, an air outlet, a perforated plate, a control switch and a power cord, wherein the discharging device is embedded at the right side of the drying oven, a feeding mechanism of the novel chicken powder production line rotates an auger inside the drying oven through a first belt under the action of a motor, the auger rotates to ensure that the moist chicken powder inside a material pouring port uniformly falls into a vibration mechanism inside the drying oven through a columnar groove, the vibration mechanism drives a cam to rotate to move up and down through a second belt under the action of the motor, the chicken powder is vibrated to fall down along with the up-and-down movement of a blanking plate on a compression spring, and the semicircular lug on the blanking plate can accelerate the efficiency of scattering the chicken powder, so that the chicken powder is uniformly discharged and scattered in the material pouring port, quickening the production efficiency, reducing the workload of manual material pouring and lowering the production cost of enterprises.

Description

Novel chicken powder production line

Technical Field

The invention relates to the field related to chicken powder production, in particular to a novel chicken powder production line.

Background

The production line is a multi-variety production organization form which takes a certain type of part group as an object organization; the production line does not strictly produce according to the beat like a production line, special efficient equipment and tools cannot be adopted in large quantity, the high continuity of the technological process cannot be ensured, but the production line has greater flexibility and can meet the requirements of various production; in the production and preparation process of the chicken powder, a horizontal boiling dryer in a production line is required to be used for drying, granulating and powdering the chicken powder; the horizontal boiling dryer in the prior art needs to manually stir up the wet chicken powder before use, and then pour the wet chicken powder into the boiling dryer in order for drying, so that the labor cost of enterprises is high, and the production efficiency is poor.

Disclosure of Invention

Therefore, in order to solve the above-mentioned defects, the invention provides a novel chicken powder production line.

The invention is realized in such a way, a novel chicken powder production line is constructed, the novel chicken powder production line comprises an underframe, a drying box, a blanking device, a discharge pipe, an observation door, an air inlet branch pipe, an air inlet main pipe, a side cover, a heat exchanger, a cyclone separator, an exhaust port, a porous plate, a control switch and a power cord, the drying box is welded on the outer side of the top of the underframe, the discharge pipe is transversely embedded in the bottom side of the left part of the drying box, three observation doors are transversely embedded in the bottom side of the left part of the drying box at equal intervals, the bottom of the drying box is integrally connected with ten air inlet branch pipes, the bottom of each air inlet branch pipe is connected with the air inlet main pipe, the left side of the air inlet main pipe is hinged with the side cover, the heat exchanger is locked on the right side of the air inlet main pipe through bolts, the cyclone separator, the bottom of the inner side of the drying box is provided with a perforated plate, the blanking device is embedded on the right side of the drying box and consists of a mounting seat, a motor, a first belt pulley, a first belt, a feeding mechanism, a second belt pulley, a second belt, a steering mechanism and a vibration scattering mechanism, the left side of the mounting seat is connected with the drying box, the inside of the mounting seat is fastened with a motor through a bolt, a first belt pulley is fastened in the middle of an output shaft on the left side of the motor and is in running fit with the middle of the inner side of the feeding mechanism through a first belt, the feeding mechanism is embedded on the right side of the drying box, the second belt pulley is fastened on the left part of the output shaft on the left side of the motor, and the second belt pulley is in running fit with the steering mechanism through a second belt, the front side of the steering mechanism is in running fit with the vibration mechanism, and the right side of the bottom of the vibration mechanism is fixed with the inner wall of the drying box.

Preferably, control switch sets up in the anterior right side of drying cabinet, the control switch front side is provided with first button, second button and third button, the power cord sets up in the drying cabinet right side, heat exchanger, cyclone, first button, second button and third button all are connected with the power cord electricity, heat exchanger is connected with first button electricity, cyclone is connected with the second button electricity, third button and power cord all are connected with the motor electricity.

Preferably, feed mechanism comprises hopper, pouring hole, column groove, carousel, auger, bearing bar and belt opening, the hopper inlays in the drying cabinet right side, the pouring hole has been seted up on hopper top right side, the inside column groove that transversely digs of pouring hole, connecting rod and column groove top normal running fit are passed through to the carousel top, the carousel right side is the integral type with the auger and is connected to the axis of auger coincides mutually with the axis in column groove, auger right side tip passes through the bearing bar and the rotatory cooperation in column groove top side, the belt opening has been seted up in the anterior left side of hopper to first belt pulley runs through in belt opening and carousel normal running fit.

Preferably, the steering mechanism comprises a box body, a first bevel gear, a rotating rod, a second bevel gear and a connecting rod, the right side of the box body is locked and fixed with the rotating disc, the first bevel gear is arranged on the right side inside the box body, the right side of the first bevel gear is integrally connected with the rotating rod, the right side of the rotating rod penetrates through the drying box and is in running fit with the second belt, the left side of the front portion of the first bevel gear is meshed with the second bevel gear, the rear side of the second bevel gear is in running fit with the box body through a stand column, the front portion of the second bevel gear is integrally connected with the connecting rod, and the connecting rod penetrates through the front side of the box body.

Preferably, shake scattered mechanism and constitute by cam, third belt, blanking plate, semicircle lug, compression spring, slide bar, sliding sleeve and bottom plate, cam middle part and connecting rod fastening connection, the cam top side is through the anterior pivot normal running fit in third belt and blanking plate right side, semicircle lug has been inlayed at the blanking plate top, blanking plate bottom is through compression spring and bottom plate elasticity butt to the bottom plate right side is connected with the drying cabinet, compression spring wraps up in the sliding sleeve outside to the sliding sleeve bottom is fixed mutually with the bottom plate, inside and slide bar sliding fit in the sliding sleeve to the slide bar top is fixed through bolt and blanking plate locking.

Preferably, an air filter is arranged on the right side of the heat exchanger.

Preferably, the exhaust port and the air outlet at the top of the cyclone separator are both connected with external dust removal equipment.

Preferably, the number of the semicircular lugs is nine, and the nine semicircular lugs are equidistantly distributed on the top side of the blanking plate.

Preferably, the turntable is hollowed out, and the distance between the bottom of the turntable and the bottom of the inner side of the columnar groove is 5 cm.

Preferably, regularly distributed air vents are formed in the top side of the blanking plate.

Preferably, the sliding rod and the sliding sleeve are made of tungsten steel.

Preferably, the third belt is made of silicone rubber.

Preferably, the material used for the hopper is an aluminum alloy.

The invention has the following advantages: the invention provides a novel chicken powder production line by improvement, and compared with the same type of equipment, the novel chicken powder production line has the following improvements and advantages;

the advantages are that: according to the novel chicken powder production line, the feeding device is embedded in the right side of the drying box, the feeding mechanism of the feeding device rotates the auger inside the drying box through the first belt under the action of the motor, the auger rotates to enable the wet chicken powder inside the material pouring port to uniformly fall onto the vibration scattering mechanism inside the drying box through the columnar groove, the vibration scattering mechanism enables the steering mechanism to drive the cam to rotate to move up and down through the second belt under the action of the motor, the chicken powder is vibrated to fall along with the up-and-down movement of the blanking plate on the compression spring, the semicircular lug on the blanking plate can accelerate the efficiency of scattering the chicken powder, so that the chicken powder is uniformly discharged and scattered in the material pouring port, the production efficiency of the chicken powder is accelerated, the workload of manual material pouring is reduced, and the production cost of enterprises is reduced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the inside structure of the drying box of the present invention;

FIG. 3 is a schematic structural view of the blanking device of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 according to the present invention;

FIG. 5 is a schematic structural view of the feed mechanism of the present invention;

FIG. 6 is a schematic view of the internal structure of the hopper of the present invention;

FIG. 7 is a schematic view of the structural vibration dissipating mechanism of the present invention;

fig. 8 is a schematic structural view of the steering mechanism of the present invention.

Wherein: a bottom frame-1, a drying box-2, a blanking device-3, a discharge pipe-4, an observation door-5, an air inlet branch pipe-6, an air inlet main pipe-7, a side cover-8, a heat exchanger-9, a cyclone separator-10, an exhaust port-11, a porous plate-12, a control switch-13, a power cord-14, a mounting seat-31, a motor-32, a first belt pulley-33, a first belt-34, a feeding mechanism-35, a second belt pulley-36, a second belt-37, a steering mechanism-38, a vibration and dispersion mechanism-39, a first button-131, a second button-132, a third button-133, a hopper-351, a material pouring port-352, a columnar groove-353, a turntable-354, a packing auger-355, a vibration and dispersion mechanism-39, The device comprises a bearing rod-356, a belt through hole-357, a box-381, a first bevel gear-382, a rotating rod-383, a second bevel gear-384, a connecting rod-385, a cam-390, a third belt-391, a blanking plate-392, a semicircular bump-393, a compression spring-394, a sliding rod-395, a sliding sleeve-396 and a bottom plate-397.

Detailed Description

The present invention will be described in detail below with reference to fig. 1 to 8, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a novel chicken powder production line through improvement, which comprises an underframe 1, a drying box 2, a blanking device 3, a discharge pipe 4, an observation door 5, an air inlet branch pipe 6, an air inlet main pipe 7, side covers 8, a heat exchanger 9, a cyclone separator 10, an exhaust port 11, a porous plate 12, a control switch 13 and a power cord 14, wherein the drying box 2 is welded on the outer side of the top of the underframe 1, the discharge pipe 4 is transversely embedded on the bottom side of the left part of the drying box 2, the three observation doors 5 are transversely embedded on the front side of the drying box 2 at equal intervals, the bottom of the drying box 2 is integrally connected with ten air inlet branch pipes 6, the bottom of the air inlet branch pipe 6 is connected with the air inlet main pipe 7, the side cover 8 is hinged on the left side of the air inlet main pipe 7, the heat exchanger 9 is locked on the right side of the air inlet main pipe 7 through bolts, the cyclone, the top side of the drying box 2 is provided with an exhaust port 11, the bottom of the inner side of the drying box 2 is provided with a porous plate 12, a blanking device 3 is embedded on the right side of the drying box 2, the blanking device 3 comprises a mounting seat 31, a motor 32, a first belt pulley 33, a first belt 34, a feeding mechanism 35, a second belt pulley 36, a second belt 37, a steering mechanism 38 and a vibration scattering mechanism 39, the left side of the mounting seat 31 is connected with the drying box 2, the motor 32 is fastened in the mounting seat 31 through bolts, the first belt pulley 33 is fastened in the middle of an output shaft on the left side of the motor 32, the first belt pulley 33 is fastened in the middle of an inner side of the feeding mechanism 35 through the first belt 34, the feeding mechanism 35 is embedded on the right side of the drying box 2, the second belt pulley 36 is fastened in the left part of the output shaft on the left side of the motor 32, the second belt pulley 36 is rotatably matched with the steering, and the right side of the bottom of the vibration dispersion mechanism 39 is fixed to the inner wall of the drying box 2.

Further, the control switch 13 is disposed on the right side of the front portion of the drying box 2, the first button 131, the second button 132 and the third button 133 are disposed on the front side of the control switch 13, the power cord 14 is disposed on the right side of the drying box 2, the heat exchanger 9, the cyclone separator 10, the first button 131, the second button 132 and the third button 133 are all electrically connected to the power cord 14, the heat exchanger 9 is electrically connected to the first button 131, the cyclone separator 10 is electrically connected to the second button 132, and the third button 133 and the power cord 14 are all electrically connected to the motor 32.

Further, feed mechanism 35 comprises hopper 351, pouring hole 352, column groove 353, carousel 354, auger 355, bearing rod 356 and belt opening 357, hopper 351 inlays in 2 right sides of drying cabinet, pouring hole 352 has been seted up on hopper 351 top right side, the inside column groove 353 that transversely digs of pouring hole 352, the carousel 354 top is through connecting rod and column groove 353 top normal running fit, carousel 354 right side is connected with auger 355 is the integral type to the axis of auger 355 coincides mutually with the axis of column groove 353, auger 355 right side tip passes through bearing rod 356 and column groove 353 top side normal running fit, belt opening 357 has been seted up on the anterior left side of hopper 351 to first belt pulley 33 runs through in belt opening 357 and carousel 354 normal running fit.

Further, the steering mechanism 38 is composed of a case 381, a first bevel gear 382, a rotating rod 383, a second bevel gear 384 and a connecting rod 385, the right side of the case 381 is locked and fixed with the rotating disk 354, the first bevel gear 382 is arranged on the right side inside the case 381, the right side of the first bevel gear 382 is integrally connected with the rotating rod 383, the right side of the rotating rod 383 penetrates through the drying box 2 to be rotatably matched with the second belt 37, the left side of the front part of the first bevel gear 382 is meshed with the second bevel gear 384, the rear side of the second bevel gear 384 is rotatably matched with the case 381 through a vertical column, the front part of the second bevel gear 384 is integrally connected with the connecting rod 385, and the connecting rod 385 penetrates through the front side of the case 381 to be rotatably matched with the vibration.

Further, the vibration dispersion mechanism 39 is composed of a cam 390, a third belt 391, a blanking plate 392, a semicircular lug 393, a compression spring 394, a sliding rod 395, a sliding sleeve 396 and a bottom plate 397, the middle part of the cam 390 is fixedly connected with the connecting rod 385, the top side of the cam 390 is rotatably matched with the rotating shaft at the front part of the right side of the blanking plate 392 through the third belt 391, the semicircular lug 393 is embedded at the top part of the blanking plate 392, the bottom part of the blanking plate 392 is elastically abutted to the bottom plate 397 through the compression spring 394, the right side of the bottom plate 397 is connected with the drying box 2, the compression spring is wrapped outside the sliding sleeve 396, the bottom part of the sliding sleeve 396 is fixed to the bottom plate 397, the middle inside of the sliding sleeve 396 is slidably matched with the sliding rod 395, and the top part of the sliding rod.

Further, an air filter is arranged on the right side of the heat exchanger 9 and used for filtering air flow blown by the fan.

Further, the air outlet 11 and the air outlet at the top of the cyclone separator 10 are both connected with external dust removing equipment to adsorb the waste gas generated after drying.

Furthermore, nine semicircular convex blocks 393 are arranged, and the nine semicircular convex blocks 393 are distributed on the top side of the blanking plate 392 at equal intervals, so that the moist chicken powder can be favorably collided and dispersed.

Further, the turntable 354 is hollow, and the distance between the bottom of the turntable 354 and the bottom of the inner side of the columnar groove 353 is 5cm, so that the chicken powder is discharged from the columnar groove 353 conveniently.

Further, the blanking plate 392 is provided with regularly distributed air vents on the top side, which is beneficial to the circulation of air flow and the drying.

Further, the sliding rod 395 and the sliding sleeve 396 are made of tungsten steel.

Further, the material used for the third belt 391 is silicone rubber.

Further, the material used for the hopper 351 is aluminum alloy.

According to the table, the sliding rod 395 and the sliding sleeve 396 are made of tungsten steel, so that the sliding rod has high thermal conductivity;

according to the above table, the third belt 391 of the present invention is made of a silica gel material, which has a strong heat resistance;

as shown in the above table, the hopper 351 of the present invention is made of aluminum alloy, and has high corrosion resistance.

The invention provides a novel chicken powder production line by improvement, and the working principle is as follows;

firstly, a user firstly installs the design at a position where chicken powder needs to be dried in a production process, then connects a power line 14 with an external power supply, butt-joints a blowing fan at the right side of a heat exchanger 9, and then connects an exhaust port 11 and an air outlet at the top of a cyclone separator 10 with external dust removal equipment;

secondly, the heat exchanger 9, the cyclone separator 10 and the motor 32 are started after being electrified by pressing the first button 131, the second button 132 and the third button 133, and after the heat exchanger 9 is started, airflow with hot air passes through the air inlet main pipe 7 under the action of the air supply fan and then enters the drying box 2 from the air inlet branch pipe 6;

thirdly, after the motor 32 is started, the first belt 34 drives the packing auger 355 to rotate and the second belt 37 drives the rotating rod 383 to rotate through the first belt pulley 33 and the second belt pulley 36 respectively, then the user pours the chicken powder to be dried into the pouring hole 352, and the chicken powder is discharged into the vibration scattering mechanism 39 in the drying oven 2 through the columnar groove 353 under the rotation of the packing auger;

fourthly, the rotating rod 383 rotates to make the first bevel gear 382 drive the second bevel gear 384 to rotate, so that the connecting rod 385 drives the lug 390 to rotate, and the third belt 391 drives the blanking plate 392 to move up and down under the action of the compression spring 394;

fifthly, the chicken powder falls on the blanking plate 392 and is vibrated along with the up-and-down movement of the blanking plate 392 and then falls, and is scattered after impacting the semicircular convex blocks 393 on the blanking plate 392, so that the drying efficiency of the chicken powder is improved;

sixthly, the chicken powder falls on the porous plate 12 after being scattered, and is dried along with the injection of hot air flow, and the dried chicken powder is discharged from the discharge pipe 4;

seventhly, the cyclone separator 10 sucks the chicken powder dust particles in the drying oven 2 after being started, the chicken powder with larger volume falls into the drying oven 2 again under the action of the cyclone separator 10, and the exhaust gas discharged from the exhaust port 11 and the air outlet at the top of the cyclone separator 10 is discharged into the external environment after being settled under the action of external dust removal equipment.

The invention provides a novel chicken powder production line through improvement, a blanking device 3 is embedded at the right side of a drying box 2, a feeding mechanism 35 of the novel chicken powder production line rotates an auger 355 in the drying box through a first belt 34 under the action of a motor 32, the auger 355 rotates to enable the wet chicken powder in a material pouring port 352 to uniformly fall onto a vibration and dispersion mechanism 39 in the drying box 2 through a columnar groove 353, the vibration and dispersion mechanism 39 enables a steering mechanism 38 to drive a cam 390 to rotate to move up and down through a second belt 37 under the action of the motor 32, the chicken powder is vibrated to fall again along with the up-and-down movement of a material falling plate 392 on a compression spring 394, a semicircular lug 393 on the material falling plate 392 can accelerate the efficiency of scattering the chicken powder, so that the chicken powder is uniformly discharged and scattered in the material pouring port, the production efficiency of the novel chicken powder production line is accelerated, the workload of manual material pouring is reduced, and the production cost.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. 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 invention. Thus, the present invention 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 (10)

1. A novel chicken powder production line comprises a chassis (1), a drying box (2), a discharging pipe (4), an observation door (5), an air inlet branch pipe (6), an air inlet main pipe (7), a side cover (8), a heat exchanger (9), a cyclone separator (10), an exhaust port (11), a porous plate (12), a control switch (13) and a power line (14), wherein the drying box (2) is welded on the outer side of the top of the chassis (1), the discharging pipe (4) is transversely embedded at the bottom side of the left part of the drying box (2), three observation doors (5) are embedded at the front side of the drying box (2) at transverse equal intervals, the bottom of the drying box (2) is integrally connected with ten air inlet branch pipes (6), the bottom of each air inlet branch pipe (6) is connected with the air inlet main pipe (7), the side cover (8) is hinged to the left side of the air inlet main pipe (7), the right side of the air inlet, the cyclone separator (10) is embedded in the top of the right side of the drying box (2), an air inlet and a discharge port of the cyclone separator (10) are communicated with the inner side of the drying box (2), an exhaust port (11) is formed in the top side of the drying box (2), and a porous plate (12) is distributed at the bottom of the inner side of the drying box (2); the method is characterized in that: the automatic drying machine is characterized by further comprising a blanking device (3), the blanking device (3) is embedded in the right side of the drying box (2), the blanking device (3) is composed of a mounting seat (31), a motor (32), a first belt pulley (33), a first belt (34), a feeding mechanism (35), a second belt pulley (36), a second belt (37), a steering mechanism (38) and a vibration dissipation mechanism (39), the left side of the mounting seat (31) is connected with the drying box (2), the motor (32) is fastened in the mounting seat (31) through bolts, the first belt pulley (33) is fastened in the middle of the left output shaft of the motor (32), the first belt pulley (33) is in rotating fit with the middle of the inner side of the feeding mechanism (35) through the first belt pulley (34), the feeding mechanism (35) is embedded in the right side of the drying box (2), and the second belt pulley (36) is fastened in the left portion of the left output shaft of the motor (32, and the second belt wheel (36) is in running fit with a steering mechanism (38) through a second belt (37), the front side of the steering mechanism (38) is in running fit with a vibration scattering mechanism (39), and the right side of the bottom of the vibration scattering mechanism (39) is fixed with the inner wall of the drying box (2).

2. The novel chicken powder production line as claimed in claim 1, wherein: control switch (13) set up in drying cabinet (2) front portion right side, control switch (13) front side is provided with first button (131), second button (132) and third button (133), power cord (14) set up in drying cabinet (2) right side, heat exchanger (9), cyclone (10), first button (131), second button (132) and third button (133) all are connected with power cord (14) electricity, heat exchanger (9) are connected with first button (131) electricity, cyclone (10) are connected with second button (132) electricity, third button (133) and power cord (14) all are connected with motor (32) electricity.

3. The novel chicken powder production line as claimed in claim 1, wherein: the feeding mechanism (35) consists of a hopper (351), a material pouring port (352), a cylindrical groove (353), a turntable (354), a packing auger (355), a bearing rod (356) and a belt through port (357), the hopper (351) is embedded at the right side of the drying box (2), a material pouring port (352) is arranged at the right side of the top of the hopper (351), a cylindrical groove (353) is transversely dug in the material reversing port (352), the top of the turntable (354) is in running fit with the top of the cylindrical groove (353) through a connecting rod, the right side of the turntable (354) is integrally connected with a packing auger (355), the central axis of the packing auger (355) is coincided with the central axis of the columnar groove (353), the right end part of the auger (355) is rotationally matched with the top side of the columnar groove (353) through a bearing rod (356), the left side of the front part of the hopper (351) is provided with a belt through hole (357), and the first pulley (33) is engaged with the rotary table (354) through the belt through hole (357).

4. The novel chicken powder production line as claimed in claim 1, wherein: the steering mechanism (38) comprises a box body (381), a first bevel gear (382), a rotating rod (383), a second bevel gear (384) and a connecting rod (385), the right side of the box body (381) is locked and fixed with the rotating disc (354), the right side inside the box body (381) is provided with the first bevel gear (382), the right side of the first bevel gear (382) is connected with the rotating rod (383) in an integrated mode, the right side of the rotating rod (383) penetrates through the drying box (2) to be in running fit with the second belt (37), the left side of the front portion of the first bevel gear (382) is meshed with the second bevel gear (384), the rear side of the second bevel gear (384) is in running fit with the box body (381) through a stand column, the front portion of the second bevel gear (384) is connected with the connecting rod (385), and the connecting rod (385) penetrates through the front side of the box body (381) to be in.

5. The novel chicken powder production line as claimed in claim 1, wherein: the vibration dispersion mechanism (39) consists of a cam (390), a third belt (391), a blanking plate (392), a semicircular lug (393), a compression spring (394), a sliding rod (395), a sliding sleeve (396) and a bottom plate (397), the middle part of the cam (390) is tightly connected with the connecting rod (385), the top side of the cam (390) is rotationally matched with the rotating shaft at the front part of the right side of the blanking plate (392) through a third belt (391), the top of the blanking plate (392) is embedded with a semicircular lug (393), the bottom of the blanking plate (392) is elastically abutted with the bottom plate (397) through a compression spring (394), the right side of the bottom plate (397) is connected with the drying box (2), the compression spring (394) is wrapped outside the sliding sleeve (396), the bottom of the sliding sleeve (396) is fixed with the bottom plate (397), the inner side of the sliding sleeve (396) is in sliding fit with the sliding rod (395), and the top of the sliding rod (395) is locked and fixed with the blanking plate (392) through bolts.

6. The novel chicken powder production line as claimed in claim 1, wherein: an air filter is arranged on the right side of the heat exchanger (9).

7. The novel chicken powder production line as claimed in claim 1, wherein: and the air outlet at the top of the air outlet (11) and the top of the cyclone separator (10) are connected with external dust removal equipment.

8. A novel chicken powder production line as claimed in claim 5, wherein: nine semicircular convex blocks (393) are arranged in total, and the nine semicircular convex blocks (393) are equidistantly distributed on the top side of the blanking plate (392).

9. A novel chicken powder production line as claimed in claim 3, characterized in that: the turntable (354) is hollow, and the distance between the bottom of the turntable (354) and the bottom of the inner side of the columnar groove (353) is 5 cm.

10. A novel chicken powder production line as claimed in claim 5, wherein: and regularly distributed air vents are arranged on the top side of the blanking plate (392).

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