CN217431471U - Animal protein heating and separating device - Google Patents

Abstract

The utility model relates to an animal protein adds thermal separation device, the on-line screen storage device comprises a base, be equipped with heating device on it, centrifugal device and conveyer belt, heating device includes the heating urceolus through falling L shape support frame, be equipped with the heating inner tube in the heating urceolus upper portion, heating inner tube top links firmly with the heating urceolus, leave around being equipped with first heating resistor silk in clearance and this clearance between the outside and the heating urceolus inboard, the bottom is equipped with row's material pipe, heating urceolus top is equipped with inlet pipe and second motor, second motor output shaft has linked firmly the stirring subassembly, all be equipped with electric putter on the uncovered and two lateral walls at this end in heating urceolus bottom, two electric putter free ends carry on the back mutually and have all linked firmly vertical extension board, two vertical extension board relative one side all is equipped with the closure plate, all be equipped with a plurality of fluid-discharge tubes on two closure plates. The utility model discloses can effectively strengthen the effect of heating stirring, directly discharge the mixture to the centrifuge drum after the heating, can empty solid-state material on the conveyer belt fast again after the separation, it is more practical.

Description

Animal protein heating and separating device

Technical Field

The utility model belongs to the technical field of animal protein production, concretely relates to animal protein heating separator.

Background

The animal protein mainly comes from meat, eggs and milk of poultry, livestock, fish, insects and the like, and the protein mainly comprises 78-85% of casein, and can be well absorbed and utilized by adults. At present, the production process flow of animal protein powder mainly comprises raw material crushing, closed heating, solid-liquid separation, vacuum drying, packaging and the like. Wherein, the closed heating is a procedure of heating and stirring the crushed small particle raw materials to form a water-oil residue mixture, and the solid-liquid separation is a procedure of performing solid-liquid separation on the water-oil residue mixture by adopting a centrifugal separation mode and the like so as to obtain a solid intermediate and performing vacuum drying to form the protein powder. However, in the actual production process, the heating equipment used in the heating process generally has the problems of low heating and stirring efficiency and non-uniformity, and the mixture cannot be quickly fed into the centrifugal separation equipment after heating, and the solid intermediate left in the centrifugal cylinder cannot be quickly and conveniently taken out and conveyed to the subsequent process by the centrifugal separation equipment used in the solid-liquid separation, so that the overall production efficiency and quality of the protein powder are low and need to be improved.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides an animal protein heating and separating device, which can greatly enhance the heating and stirring effect during heating, directly discharge the mixture into a centrifuge tube after heating, and quickly dump the solid material onto a conveyor belt after separation, so as to solve the above-mentioned problems.

In order to achieve the above purpose, the utility model adopts the technical scheme that: an animal protein heating and separating device comprises a base, wherein a heating device, a centrifugal device and a conveying belt are arranged on the top surface of the base, the heating device comprises a heating outer barrel erected on the base through an inverted L-shaped support, a heating inner barrel is arranged in the upper portion of the heating outer barrel, the top of the heating inner barrel is open, a gap is reserved between the inner top of the heating outer barrel and the inner side wall of the heating outer barrel, a first heating resistance wire is wound in the gap, the bottom of the heating inner barrel is inverted cone-shaped and communicated with a discharging pipe with an electromagnetic valve, one end of the top of the heating outer barrel is provided with a feeding pipe with a feeding valve, the other end of the top of the heating outer barrel is provided with a first motor, the bottom of the feeding pipe and an output shaft of the first motor both extend into the heating inner barrel and are coaxially and fixedly connected with a stirring shaft of the output shaft of the first motor, a cavity is arranged in the stirring shaft, and a support rod is vertically arranged in the cavity, the centrifugal device comprises a second motor arranged on a base, an output shaft of the second motor faces upwards and is coaxially and fixedly connected with a supporting column, and both sides of the top end of the supporting column are respectively provided with a third motor, the output shaft of two third motors sets up and equal horizontal fixedly connected with backup pad mutually, the vertical hydro-cylinder that is equipped with on the tail end of backup pad, the piston rod of hydro-cylinder up and fixedly connected with fourth motor, the output shaft of fourth motor up and coaxial fixedly connected with centrifuge bowl, the uncovered, the lateral part equipartition in top of centrifuge bowl has a plurality of separation holes, the centrifuge bowl can be located the conveyer belt top, also can stretch into heating urceolus and two shutoff board butt and accessible two semicircle draw-in groove cover this moment outside the output shaft of fourth motor by heating urceolus bottom.

Preferably, the outer side of the heating outer cylinder is provided with a controller, the inner top corresponding to the heating inner cylinder is provided with a temperature sensor, and the first heating resistance wire, the second heating resistance wire and the temperature sensor are all electrically connected with the controller.

Preferably, an exhaust pump is arranged on the outer top of the heating outer cylinder, an air inlet of the exhaust pump is communicated with the heating inner cylinder through an exhaust pipe, and an air outlet of the exhaust pump is connected with a waste gas treatment system.

Preferably, the cross-sectional area of the blocking plate is larger than half of the cross-sectional area of the heating outer cylinder, and a semicircular clamping groove on the blocking plate is matched with an output shaft of the fourth motor.

Preferably, the outer diameter of the centrifugal cylinder is smaller than the inner diameter of the heating outer cylinder, and the cylinder height of the centrifugal cylinder is smaller than the vertical distance between the bottom end of the discharge pipe and the bottom of the heating outer cylinder.

Preferably, the first motor, the second motor, the third motor and the fourth motor are all provided with a protective box made of sound insulation damping felt.

Preferably, the bottom of the supporting plate is provided with a vibrator.

Preferably, the bottom surface of base is the rectangle array interval equipartition and has a plurality of landing legs, the bottom fixedly connected with damper assembly of landing leg, damper assembly includes last shock attenuation extension board and lower shock attenuation extension board of being made by foamed aluminium material, go up shock attenuation extension board and correspond landing leg fixed connection, the shock attenuation extension board is located down and is gone up shock attenuation extension board below and fixedly connected with telescopic link and damping spring between the two, the damping spring cover is established in the outside of telescopic link, the bottom of shock attenuation extension board is equipped with the rubber slipmat down.

The utility model has the advantages that: the utility model relates to a rationally, compact structure, before the use, can move the second motor earlier, utilize the power that the second motor provided alright drive the pillar and rotate certain angle to can be with a centrifuge tube to under the heating urceolus. Then, the oil cylinder located below the heating outer cylinder is operated to extend the piston rod of the oil cylinder, so that the corresponding centrifugal cylinder is pushed to move upwards and is extended into the heating outer cylinder from the bottom of the heating outer cylinder to the position below the discharge pipe. Then, the two electric push rods are operated to enable the free ends of the two electric push rods to contract, and then the two plugging plates can be driven to move relatively until the two plugging plates are abutted. At the moment, the two plugging plates can completely plug the bottom of the heating outer cylinder and wrap the outer side of the output shaft of the fourth motor through the two semicircular clamping grooves, so that the smooth proceeding of subsequent centrifugal separation operation is not influenced;

when the heating inner cylinder is used, the feeding valve on the feeding pipe is opened, and the small-particle materials crushed in the previous procedure are fed into the heating inner cylinder through the feeding pipe. After the feeding is accomplished, close the feed valve once more to guarantee the seal of heating inner tube, and switch on the circuit of first heating resistor silk and second heating resistor silk, make through the cooperation that sets up of two heating resistor silk, can heat simultaneously from the outside and the center of heating inner tube, heating efficiency is higher, the effect is better and more even. When the heating, the first motor of operation, through the power that first motor provided alright drive (mixing) shaft and the epaxial horizontal puddler of stirring and the whole rotation of vertical puddler, utilize horizontal puddler and vertical puddler mutually perpendicular's stirring effect direction alright carry out high-efficient high-quality stirring to the material to can cooperate the realization to heat the stirring uniformly to the high efficiency of material, more can guarantee the efficiency and the quality of heating the material. After the heating is finished, the electromagnetic valve on the discharging pipe is controlled to be opened, so that the water-oil residue mixture formed after the heating can be directly and quickly discharged into the corresponding centrifugal cylinder, and the development of the subsequent solid-liquid separation process is facilitated. After discharging is finished, materials can be continuously added into the heating inner cylinder according to the steps for stirring and heating treatment. Meanwhile, a fourth motor is operated, the centrifugal cylinder can be driven to rotate by utilizing power provided by the fourth motor, so that centrifugal separation treatment of the water-oil residue mixture is realized in a matching manner, liquid substances in the mixture can be discharged from the centrifugal cylinder through the separation holes and enter the heating outer cylinder, and the liquid discharge valves on the liquid discharge pipes are opened, so that the separated liquid substances can be discharged and collected through the liquid discharge pipes;

after the centrifugal separation is finished and the liquid substance is completely discharged, the two electric push rods are operated again to extend the free ends of the two electric push rods, so that the two plugging plates can be driven to move back to remove plugging on the bottom of the heating outer cylinder. Then, the corresponding oil cylinder is operated again to make the piston rod contract, so that the corresponding centrifugal cylinder can be driven to move downwards to be out of the heating outer cylinder. Then, the second motor is operated again to drive the support to rotate 180 degrees, so that the separated centrifugal cylinder is rotated to the upper part of the conveying belt, and the other no-load centrifugal cylinder is rotated to the lower part of the heating outer cylinder. At this time, the empty centrifugal cylinder can be sent into the heating outer cylinder again according to the above steps to match the next centrifugal separation operation. Meanwhile, the third motor corresponding to the separated centrifugal cylinder is operated to drive the corresponding support plate and the corresponding centrifugal cylinder to integrally rotate 180 degrees, so that the centrifugal cylinder can be completely inverted, solid materials separated from the centrifugal cylinder can be easily and conveniently poured onto a conveying belt, and finally the solid materials are conveyed to a next process by the conveying belt.

Drawings

Fig. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure of the heating outer cylinder of the present invention;

FIG. 3 is a schematic view of the sectional structure of the stirring shaft of the present invention;

FIG. 4 is a schematic top view of two plugging plates according to the present invention;

fig. 5 is a schematic front sectional view of the centrifugal device of the present invention;

fig. 6 is a schematic view of a usage state of the present invention;

figure 7 is the structural schematic diagram of the shock-absorbing assembly of the present invention.

Reference numbers in the figures: 1 is a base, 2 is an inverted L-shaped bracket, 3 is a heating outer cylinder, 4 is a heating inner cylinder, 5 is a first heating resistance wire, 6 is an electromagnetic valve, 7 is a discharge pipe, 8 is a feed valve, 9 is a feed pipe, 10 is a first motor, 11 is a stirring shaft, 12 is a cavity, 13 is a support rod, 14 is a second heating resistance wire, 15 is a transverse stirring rod, 16 is a transverse support rod, 17 is a vertical stirring rod, 18 is an electric push rod, 19 is a vertical support plate, 20 is a blocking plate, 21 is a liquid discharge valve, 22 is a liquid discharge pipe, 23 is a semicircular clamping groove, 24 is a second motor, 25 is a support column, 26 is a third motor, 27 is a support plate, 28 is an oil cylinder, 29 is a fourth motor, 30 is a centrifugal cylinder, 31 is a separation hole, 32 is a conveying belt, 33 is a controller, 34 is a temperature sensor, 35 is an exhaust pump, 36 is an exhaust pipe, 37 is a protective box, 38 is a vibrator, 39 is a shock absorption component, 40 is a shock absorption component, 4001 is an upper shock-absorbing support plate, 4002 is a lower shock-absorbing support plate, 4003 is a telescopic rod, 4004 is a shock-absorbing spring, and 41 is a rubber non-slip mat.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments:

as shown in figures 1 to 7, the animal protein heating and separating device comprises a base 1, wherein a heating device, a centrifugal device and a conveying belt 32 are arranged on the top surface of the base 1. Heating device includes erects the heating urceolus 3 on base 1 through an L shape of falling support 2, is equipped with heating inner tube 4 in the upper portion of heating urceolus 3, and the top of heating inner tube 4 is uncovered and leaves the clearance and around being equipped with first heating resistor silk 5, the bottom is the back taper and the intercommunication has row material pipe 7 that has solenoid valve 6 in this clearance with the interior top fixed connection of heating urceolus 3, lateral wall and the inside wall of heating urceolus 3 between. The top one end of heating urceolus 3 is equipped with inlet pipe 9 that has feed valve 8, and the other end is equipped with first motor 10, and the coaxial fixedly connected with (mixing) shaft 11 of the output shaft of heating inner tube 4 and first motor 10 is all stretched into to the bottom of inlet pipe 9 and the output shaft of first motor 10. A cavity 12 is arranged in the stirring shaft 11, a supporting rod 13 is vertically arranged in the cavity 12, and a second heating resistance wire 14 is wound on the supporting rod 13. A plurality of transverse stirring rods 15 are distributed on one side of the outer part of the stirring shaft 11 at intervals from top to bottom, two transverse supporting rods 16 are oppositely arranged on the other side of the outer part of the stirring shaft 11 from top to bottom, and a plurality of vertical stirring rods 17 are fixedly connected between the two transverse supporting rods 16. The bottom of the heating outer cylinder 3 is opened, the left outer side wall and the right outer side wall of the end of the heating outer cylinder are horizontally provided with electric push rods 18, the free ends of the electric push rods 18 are oppositely arranged and fixedly connected with vertical support plates 19, and the bottom of one side, opposite to the vertical support plates 19, of each vertical support plate 20 is horizontally provided with a plugging plate. The top surfaces of the two plugging plates 20 are abutted against the bottom end of the heating outer cylinder 3, a plurality of liquid discharge pipes 22 with liquid discharge valves 21 are arranged on the top surfaces of the two plugging plates, and semicircular clamping grooves 23 are arranged in the centers of the opposite ends of the two plugging plates. Centrifugal device is including establishing second motor 24 on base 1, and the output shaft of second motor 24 is up and coaxial fixedly connected with pillar 25, and the both sides on pillar 25 top all are equipped with third motor 26. The output shafts of the two third motors 26 are arranged in a back-to-back mode and are fixedly connected with a supporting plate 27 horizontally, an oil cylinder 28 is vertically arranged at the tail end of the supporting plate 27, a piston rod of the oil cylinder 28 faces upwards and is fixedly connected with a fourth motor 29, and the output shaft of the fourth motor 29 faces upwards and is fixedly connected with a centrifugal cylinder 30 coaxially. The centrifugal cylinder 30 is provided with a plurality of separation holes 31 on the top opening and the side part, the centrifugal cylinder 30 can be positioned above the conveyer belt 32, or the bottom of the heating outer cylinder 3 can extend into the heating outer cylinder 3, and the two plugging plates 20 are abutted and can be sleeved on the outer side of the output shaft of the fourth motor 29 through the two semicircular clamping grooves 23;

before use, the second motor 24 can be operated, and the support 25 can be driven to rotate for a certain angle by the power provided by the second motor 24, so that a centrifugal cylinder 30 can be rotated to a position right below the heating outer cylinder 3. Then, the oil cylinder 28 located below the heating outer cylinder 3 is operated to extend its piston rod, so as to push the corresponding centrifugal cylinder 30 to move upward and make the centrifugal cylinder 30 extend from the bottom of the heating outer cylinder 3 to the lower part of the discharging pipe 7 from the heating outer cylinder 3. Then, the two electric push rods 18 are operated to contract the free ends thereof, so as to drive the two plugging plates 20 to move relatively until the two plugging plates 20 abut against each other. At this time, the two blocking plates 20 can completely block the bottom of the heating outer cylinder 3 and wrap the outer side of the output shaft of the fourth motor 29 through the two semicircular clamping grooves 23, so that the smooth proceeding of the subsequent centrifugal separation operation is not influenced;

when in use, the feeding valve 8 on the feeding pipe 9 is firstly opened, and the small particle materials crushed in the previous procedure are fed into the heating inner cylinder 4 through the feeding pipe 9. After the feeding is accomplished, close the feed valve 8 once more to guarantee the seal of heating inner tube 4, and switch on the circuit of first heating resistor silk 5 and second heating resistor silk 14, make through the cooperation that sets up of two heating resistor silk, can follow the outside and the center of heating inner tube 4 and heat simultaneously, heating efficiency is higher, the effect is better and more even. When the heating, operate first motor 10, the power that provides through first motor 10 alright drive (mixing) shaft 11 and (mixing) epaxial horizontal puddler 15 and vertical puddler 17 whole rotation, utilize horizontal puddler 15 and vertical puddler 17 mutually perpendicular's stirring effect direction alright carry out high-efficient high-quality stirring to the material to can cooperate the realization to heat the stirring uniformly to the high efficiency of material, more can guarantee efficiency and quality to the material heating. After the heating is finished, the electromagnetic valve 6 on the discharging pipe 7 is controlled to be opened, so that the water-oil residue mixture formed after the heating can be directly and quickly discharged into the corresponding centrifugal cylinder 30, and the development of the subsequent solid-liquid separation process is facilitated. After the discharging is finished, the materials can be continuously added into the heating inner cylinder 4 according to the steps for stirring and heating treatment. Meanwhile, the fourth motor 29 is operated, the centrifugal cylinder 30 can be driven to rotate by the power provided by the fourth motor 29, so that the centrifugal separation treatment of the water-oil residue mixture is realized in a matching manner, liquid substances in the mixture can be discharged from the centrifugal cylinder 30 through the separation holes 31 and enter the heating outer cylinder 3, and the liquid discharge valves 21 on the liquid discharge pipes 22 are opened, so that the separated liquid substances can be discharged and collected through the liquid discharge pipes 22;

after the centrifugal separation is completed and the liquid substance is completely discharged, the two electric push rods 18 are operated again to extend the free ends thereof, so that the two plugging plates 20 can be driven to move back and forth, and the plugging to the bottom of the heating outer cylinder 3 is released. Then, the corresponding cylinder 28 is operated again to contract the piston rod, so as to drive the corresponding centrifugal cylinder 30 to move downward out of the heating outer cylinder 3. Then, the second motor 24 is operated again to drive the supporting pillar 25 to rotate 180 degrees, so that the separated centrifugal cylinder 30 is rotated to the upper side of the conveying belt 32, and the other empty centrifugal cylinder 30 is rotated to the lower side of the heating outer cylinder 3. At this time, the empty centrifugal cylinder 30 can be sent into the heating outer cylinder 3 again according to the above steps to match the next centrifugal separation operation. Meanwhile, the third motor 26 corresponding to the separated centrifuge tube 30 is operated to drive the corresponding support plate 27 and the corresponding centrifuge tube 30 to integrally rotate 180 degrees, so that the centrifuge tube 30 can be completely inverted, the solid materials separated from the centrifuge tube 30 can be easily and conveniently poured onto the conveyer belt 32, and finally the solid materials are conveyed to the next process by the conveyer belt 32, the overall operation is simple and convenient, time and labor are saved, and the overall production efficiency and quality of the protein powder can be improved. In practical use, the width of the belt 32 in the front-back direction is large enough to ensure that the belt 32 can completely receive the poured solid material when the centrifuge tube 30 is turned over, so as to avoid material leakage.

In this embodiment, a controller 33 is disposed on the outer side of the heating outer cylinder 3, a temperature sensor 34 is disposed on the inner top portion corresponding to the heating inner cylinder 4, and the first heating resistance wire 5, the second heating resistance wire 14 and the temperature sensor 34 are all electrically connected to the controller 33, so that in the actual stirring and heating process, the temperature sensor 34 can detect the temperature in the heating inner cylinder 4 in real time, and transmit the temperature information to the controller 33. When the temperature information received by the controller 33 reaches a set value, the controller 33 can automatically control the circuit of the first heating resistance wire 5 and the circuit of the second heating resistance wire 14 to be disconnected, so that automatic temperature control is realized in a matching manner, and the heating temperature is appropriate. During practical use, the electromagnetic valve 6 on the discharge pipe 7 can also be electrically connected with the controller 33, so that the opening and closing of the electromagnetic valve 6 are controlled, and the heated discharge is realized in a matching manner. The controller 33 may be an existing conventional PLC controller.

In this embodiment, the outer top of the heating outer cylinder 3 is provided with the exhaust pump 35, the air inlet of the exhaust pump 35 is communicated with the heating inner cylinder 4 through the exhaust pipe 36, the air outlet is connected with the exhaust gas treatment system (not shown in the figure), the exhaust pump 35 can be operated in the heating process, the exhaust gas generated during heating is timely discharged into the exhaust gas treatment system through the cooperation of the exhaust pump 35 and the exhaust pipe 36, the purification treatment is carried out, the smooth proceeding of the heating process is ensured, and the environment pollution caused by the exhaust gas is also avoided. The waste gas treatment system adopts the prior art.

In this embodiment, the cross-sectional area of the blocking plate 20 is greater than half of the cross-sectional area of the heating outer cylinder 3, so as to ensure that the blocking plate 20 can completely block the bottom of the heating outer cylinder 3, and avoid leakage of the separated liquid material. The semicircular clamping groove 23 on the blocking plate 20 is matched with the output shaft of the fourth motor 29, so that the output shaft of the fourth motor 29 can smoothly rotate, and the smooth operation of centrifugal separation operation is not influenced.

In this embodiment, the outer diameter of the centrifugal cylinder 30 is smaller than the inner diameter of the heating outer cylinder 3, and the cylinder height is smaller than the vertical distance between the bottom end of the discharging pipe 7 and the bottom of the heating outer cylinder 3, so as to ensure that the whole centrifugal cylinder 30 can smoothly and completely enter the heating outer cylinder 3, and ensure the smooth implementation of the centrifugal operation.

In this embodiment, the outside of the first motor 10, the second motor 24, the third motor 26 and the fourth motor 29 is provided with a protection box 37 made of a sound-proof damping felt, which can protect the corresponding motors and effectively reduce the noise pollution generated during the operation of the corresponding motors, so that the whole device is more environment-friendly and practical.

In this embodiment, the bottom of the supporting plate 27 is provided with a vibrator 38 for providing a vibrating force when the corresponding centrifuge bowl 30 is turned over for discharging, so as to ensure that the separated solid material can be completely dumped onto the conveying belt 32.

In this embodiment, a plurality of legs 39 are uniformly distributed on the bottom surface of the base 1 in a rectangular array at intervals, and a damping component 40 is fixedly connected to the bottom ends of the legs 39. Shock-absorbing component 40 includes last shock attenuation extension board 4001 and lower shock attenuation extension board 4002 made by foamed aluminum material, go up shock attenuation extension board 4001 and corresponding landing leg 39 fixed connection, shock attenuation extension board 4002 locates the below of going up shock attenuation extension board 4001 and fixedly connected with telescopic link 4003 and damping spring 4004 between the two, damping spring 4004 cover is established in the outside of telescopic link 4003, make when in actual use, accessible landing leg 39 supports and fixes whole device with the cooperation that sets up that corresponds shock-absorbing component 40, still can be through the cooperation of going up shock attenuation extension board 4001 and lower shock attenuation extension board 4002 that is made by foamed aluminum of every shock-absorbing component 40 simultaneously, including telescopic link 4003 and damping spring 4004's effect, strengthen whole device's buffering shock attenuation and shock resistance greatly, more can improve the stationarity of stirring heating and centrifugal separation operation, guarantee the quality of stirring heating and centrifugal separation. The bottom of lower shock attenuation extension 4002 is equipped with rubber slipmat 41, can further increase frictional force, guarantees the spacing support and the fixed action of damper 40.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (8)

1. An animal protein heating and separating device comprises a base and is characterized in that a heating device, a centrifugal device and a conveying belt are arranged on the top surface of the base, the heating device comprises a heating outer barrel erected on the base through an inverted L-shaped support, a heating inner barrel is arranged in the upper portion of the heating outer barrel, the top of the heating inner barrel is open, a gap is reserved between the top of the heating inner barrel and the inner side wall of the heating outer barrel, a first heating resistance wire is wound in the gap, the bottom of the heating inner barrel is inverted cone-shaped and communicated with a discharging pipe with an electromagnetic valve, one end of the top of the heating outer barrel is provided with a feeding pipe with a feeding valve, the other end of the top of the heating outer barrel is provided with a first motor, the bottom of the feeding pipe and an output shaft of the first motor both extend into the heating inner barrel and are coaxially and fixedly connected with a stirring shaft of the output shaft of the first motor, a cavity is arranged in the stirring shaft, a supporting rod is vertically arranged in the cavity, a second heating resistance wire is wound on the supporting rod, a plurality of transverse stirring rods are distributed at intervals from top to bottom on one side of the outer part of the stirring shaft, two transverse supporting rods are oppositely arranged from top to bottom on the other side of the outer part of the stirring shaft, a plurality of vertical stirring rods are fixedly connected between the two transverse supporting rods, an electric push rod is horizontally arranged on the left outer side wall and the right outer side wall of the open bottom of the heating outer cylinder, the free ends of the two electric push rods are oppositely arranged and are respectively and fixedly connected with a vertical supporting plate, a plugging plate is horizontally arranged at the bottom end of one side, opposite to the two vertical supporting plates, a plurality of liquid discharge pipes with liquid discharge valves are respectively abutted against the top surfaces of the two plugging plates, semicircular clamping grooves are respectively arranged at the centers of the two opposite ends of the two plugging plates, the centrifugal device comprises a second motor arranged on the base, and a supporting column is coaxially and fixedly connected with the output shaft of the second motor, the both sides on pillar top all are equipped with the third motor, and the output shaft of two third motors sets up and the equal level fixedly connected with backup pad mutually back on the body, the vertical hydro-cylinder that is equipped with on the tail end of backup pad, the piston rod of hydro-cylinder up and fixedly connected with fourth motor, the output shaft of fourth motor up and coaxial fixedly connected with centrifuge bowl, the uncovered in top of centrifuge bowl, lateral part equipartition have a plurality of separation holes, the centrifuge bowl can be located the conveyer belt top, also can stretch into heating urceolus and two shutoff board butts and the two circular draw-in groove cover of accessible two halves outside the output shaft of fourth motor this moment by heating urceolus bottom.

2. The animal protein heating and separating device as claimed in claim 1, wherein a controller is arranged on the outer side of the heating outer cylinder, a temperature sensor is arranged on the inner top portion corresponding to the heating inner cylinder, and the first heating resistance wire, the second heating resistance wire and the temperature sensor are all electrically connected with the controller.

3. The animal protein heating and separating device according to claim 1, wherein an exhaust pump is arranged on the outer top of the heating outer cylinder, an air inlet of the exhaust pump is communicated with the heating inner cylinder through an exhaust pipe, and an exhaust gas treatment system is connected to an air outlet of the exhaust pump.

4. The animal protein heating and separating device of claim 1, wherein the cross-sectional area of the blocking plate is larger than half of the cross-sectional area of the heating outer cylinder, and a semicircular clamping groove on the blocking plate is matched with the output shaft of the fourth motor.

5. The apparatus for heating and separating animal protein according to claim 1, wherein said centrifuge bowl has an outer diameter smaller than an inner diameter of said heating outer bowl and a bowl height smaller than a vertical distance between a bottom end of said discharge tube and a bottom of said heating outer bowl.

6. The animal protein heating and separating device according to claim 1, wherein a protective box made of sound-proof damping felt is arranged outside each of the first motor, the second motor, the third motor and the fourth motor.

7. The heating separation device for animal protein according to claim 1, wherein a vibrator is provided at the bottom of the support plate.

8. The animal protein heating and separating device of claim 1, wherein a plurality of support legs are uniformly distributed on the bottom surface of the base in a rectangular array at intervals, the bottom ends of the support legs are fixedly connected with shock-absorbing components, each shock-absorbing component comprises an upper shock-absorbing support plate and a lower shock-absorbing support plate, the upper shock-absorbing support plate is fixedly connected with the corresponding support leg, the lower shock-absorbing support plate is arranged below the upper shock-absorbing support plate, a telescopic rod and a shock-absorbing spring are fixedly connected between the upper shock-absorbing support plate and the lower shock-absorbing support plate, the shock-absorbing spring is sleeved outside the telescopic rod, and the bottom of the lower shock-absorbing support plate is provided with a rubber non-slip mat.

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