CN117772055A - Hydrolysis tannic acid low temperature condensation spraying coating device - Google Patents

Abstract

The utility model belongs to the technical field of feed additive processing equipment, and particularly relates to a low-temperature condensation spray coating device for hydrolyzing tannic acid, which comprises a treatment bin, a drain outlet communicated with the inside of the treatment bin, a feeding component fixedly arranged at the top of the treatment bin, a discharging component arranged outside the treatment bin, a receiving component fixedly arranged inside the treatment bin and a driving component assembled at the bottom of the inside of the treatment bin. According to the utility model, the hole at the top of the annular tube is sprayed, the fan is started to rotate to inject air upwards, the spray moves upwards under the action of wind force to uniformly penetrate through the screen plate and contact with pills at the top, meanwhile, in the process that the air moves upwards in the rubber sleeve, the rubber sleeve is blown to form a wavy shape under the action of the air flow, so that the screen plate is driven to shake, the pills at the top of the screen plate are driven to roll, the contact between the spray and the surfaces of the pills is more uniform, the pills are prevented from being accumulated at the top of the screen plate, and the quality of pill coating is improved.

Description

Hydrolysis tannic acid low temperature condensation spraying coating device

Technical Field

The utility model belongs to the technical field of feed additive processing equipment, and particularly relates to a low-temperature condensation spray coating device for hydrolyzed tannic acid.

Background

Tannic acid has a relatively complex chemical composition and is commonly hydrolyzed. The main component of tannic acid is hydrolyzed tannic acid, and the tannic acid is subjected to spray condensation, coating and other processes to ensure that the tannic acid is stable in a neutral state in a feed and is directionally released in the rear section of an animal intestinal tract, so that the coated hydrolyzed tannic acid can improve the action efficiency of active ingredients, the addition amount is low, the tannic acid has obvious antibacterial effect on gram-negative pathogenic bacteria, and the risk of intestinal tract infection is reduced.

The Chinese patent with publication number of CN219051211U discloses a low-temperature condensation spray coating device for hydrolyzing tannic acid, which comprises a bottom plate, a coating cylinder, a spray assembly and a condensation assembly; a bottom plate: the upper surface of the cover plate is symmetrically provided with an electric push rod, the top end of the push rod of the electric push rod is fixedly connected with the lower surface of the cover plate, the upper surface of the cover plate is provided with a feed hopper, the middle part of the cover plate is rotationally connected with a rotating shaft, the bottom end of the rotating shaft is in threaded connection with a threaded ring, the outer cambered surface of the rotating shaft is in sliding connection with a spiral sheet, and the lower end of the spiral sheet is in contact with the upper surface of the threaded ring; and (3) coating a cylinder: the lower end of the outer cambered surface is provided with a supporting plate, the lower surface of the supporting plate is symmetrically provided with supporting legs, the bottom ends of the supporting legs are fixedly connected with the upper surface of the bottom plate, and the spiral sheet is in sliding connection with the inner wall of the coating cylinder; condensing assembly: the low-temperature condensation spray coating device for the hydrolyzed tannic acid is symmetrically arranged on the outer cambered surface of the coating cylinder, uniformly coats pills, improves working efficiency and is convenient for later maintenance.

Above-mentioned prior art hydrolysises tannic acid low condensation spraying coating device is poured into the pellet on the flight, rolls through the radian of flight and the weight of pellet self down, rolls the in-process through atomizer to carry out the tannic acid spraying treatment of hydrolysising to its surface, but because the pellet rolls along the flight surface, be difficult to guarantee at the in-process that rolls the pellet surface evenly with spraying contact, simultaneously because the flight is the heliciform, the pellet rolls the in-process at its surface and causes the piling up easily to further influence spraying and pellet surface contact, therefore the present utility model provides a hydrolysising tannic acid low temperature condensation spraying coating device.

Disclosure of Invention

In order to solve the problems in the prior art, the utility model provides a low-temperature condensation spray coating device for hydrolyzing tannic acid, which solves the problems that pills roll off along the surfaces of spiral sheets in the traditional coating device, the surfaces of the pills are difficult to ensure to be uniformly contacted with spray in the rolling process, and meanwhile, the spiral sheets are spiral, so that the pills are easy to accumulate in the surface rolling process, and the contact between the spray and the surfaces of the pills is influenced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the low-temperature condensation spray coating device for hydrolyzing tannic acid comprises a treatment bin, a drain outlet communicated with the inside of the treatment bin, a feeding component fixedly arranged at the top of the treatment bin, a discharging component arranged outside the treatment bin, a receiving component fixedly arranged in the inside of the treatment bin and a driving component assembled at the bottom of the inside of the treatment bin;

the bearing assembly comprises a fixed ring fixedly arranged at the bottom of the inside of the treatment bin, a rubber sleeve connected to the top of the fixed ring, a screen plate connected to the upper end of the rubber sleeve, and a spring telescopic rod connected to the screen plate and the inner wall of the treatment bin through a ball shaft;

the driving assembly comprises a fan assembled at the bottom of the inside of the treatment bin, an annular pipe which is arranged at the top of the fixed ring and positioned in the rubber sleeve, and a water injection pipe which is communicated with the inside of the annular pipe, wherein a round hole is formed in the top of the annular pipe.

Preferably, the water injection pipe is in butt joint with the water pump, and the discharged spray at the top of the annular pipe moves upwards to penetrate through the screen plate to be in contact with pills at the top, and meanwhile, the air injection pipe is matched with a fan to inject air upwards.

Preferably, the rubber sleeve is waved under the action of air flow in the process of injecting air into the rubber sleeve by the fan, and the mesh plate is connected with the rubber sleeve, so that the rubber sleeve drives the mesh plate to shake with the pills at the top.

Preferably, the feeding component comprises a stock box fixedly arranged at the top of the treatment bin and a stabilizing frame fixedly arranged at the top of the stock box, and the stabilizing frame is communicated with the inside of the treatment bin;

the feeding assembly further comprises a connecting rod sleeved in the middle of the stabilizing frame, a sealing block fixedly arranged at the bottom of the connecting rod, a rubber pad arranged at the bottom of the sealing block, and a ball shaft connected with a connecting ball rod between the sealing block and the screen plate.

Preferably, the top pill of the screen plate is moved downwards by the weight of the pill, the spring telescopic rod is pressed downwards, and the connecting ball rod, the sealing block and the rubber pad are pulled downwards to seal the bottom of the storage box.

Preferably, the bearing assembly further comprises a baffle plate sleeved on the periphery of the screen plate and having the same arc radius with the baffle plate, a third spring connected to the lower end of the baffle plate and the bottom of the screen plate, and a lug plate extending outside the screen plate and hinged with the spring telescopic rod in a ball mode.

Preferably, the discharging assembly comprises a discharging plate hinged to the outer wall of the treatment bin, a fixing rod fixedly arranged in the treatment bin, a guide plate sleeved outside the fixing rod, and a transmission rod hinged between the discharging plate and the guide plate.

Preferably, the periphery of the top of the screen plate is provided with a surrounding baffle ring, and a notch for sliding the baffle plate is formed; pushing the discharging plate 401 to rotate, pressing the baffle 603 downwards by one end of the discharging plate 401 contacting with the top of the baffle 603, and then continuing to rotate the discharging plate 401 to press one end of the net plate 601, so that the net plate 601 and the discharging plate 401 form a plane.

Preferably, the discharging assembly further comprises a fixing frame fixed outside the treatment bin, a guide rod fixed inside the fixing frame, a sliding block fixed outside the discharging plate and sleeved on the guide rod, and a first spring connected between the fixing frame and the sliding block;

the support frame is connected to the outside of the sliding block, the butt joint rod is sleeved outside the support frame, the second spring is sleeved outside the butt joint rod, and the second spring is fixedly arranged on a clamping block at one end of the butt joint rod.

Preferably, the fixing frame is arc-shaped, clamping teeth are arranged outside the fixing frame, the clamping blocks are right trapezoid, and the clamping blocks are meshed with the outside of the fixing frame.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, the air is sprayed through the holes at the top of the annular tube, the fan is started to rotate to inject air upwards, the spray moves upwards under the action of wind force and uniformly penetrates through the screen plate to be in contact with pills on the screen plate, meanwhile, in the process that the air moves upwards in the rubber sleeve, the rubber sleeve is blown to form a wavy shape under the action of the air flow, so that the screen plate is driven to shake, pills at the top of the screen plate are driven to roll, the contact between the spray and the surfaces of the pills is more uniform, the pills are prevented from being accumulated at the top of the screen plate, and the quality of the pill coating is improved.

According to the utility model, pills are placed in the storage box and fall onto the screen plate from the bottom of the storage box, the pills at the top of the screen plate are gradually increased and the weight of the screen plate is gradually increased, the screen plate is moved downwards under the influence of the weight, and the sealing block and the rubber pad are pulled by the connecting ball rod, so that the pills in the storage box are blocked, the quantity of the pills on the screen plate is prevented from being excessive, the quality of medicine coating is improved, meanwhile, the weight of the pills at the top of the screen plate is lightened after the pills at the top of the screen plate are taken out, the connecting ball rod is moved upwards to push the sealing block, and the pills in the storage box can fall, so that the aim of automatic feeding is fulfilled.

According to the utility model, the material discharging plate is pushed to rotate at the hinged position, so that the sliding block slides on the surface of the guide rod and compresses the first spring, one end of the material discharging plate contacts with the top of the baffle plate in the rotation process of the material discharging plate, the baffle plate is pushed downwards, the third spring is stretched, the material discharging plate is continuously rotated to extrude one end of the screen plate, the screen plate is enabled to be high and low in left and right, the material discharging plate and the screen plate form a plane, the docking rod is loosened to enable the clamping block to be meshed with the fixing frame to fix the material discharging plate, pills roll under the action of the inclination angle of the screen plate, and can be discharged through the material discharging plate, and meanwhile, one end of the rubber sleeve is pushed through the guide plate to form a concave shape, so that the wind direction is changed, and the pill discharging efficiency is improved.

Drawings

FIG. 1 is a schematic view of the overall appearance structure of the present utility model;

FIG. 2 is a schematic view of the internal planar structure of the present utility model;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present utility model;

FIG. 4 is an enlarged schematic view of the structure of FIG. 2B according to the present utility model;

FIG. 5 is a schematic cross-sectional view of the present utility model;

FIG. 6 is a schematic view of an exploded view of the receiving assembly of the present utility model;

FIG. 7 is a schematic view of an exploded view of the discharge assembly of the present utility model;

FIG. 8 is a schematic cross-sectional view of a feed assembly according to the present utility model.

In the figure: 100. a treatment bin; 200. a sewage outlet; 300. a feed assembly; 301. a storage box; 302. a stabilizing rack; 303. a connecting rod; 304. a rubber pad; 305. a sealing block; 306. connecting a club; 400. a discharge assembly; 401. a discharge plate; 411. a sliding block; 412. a fixing frame; 413. a guide rod; 414. a first spring; 415. a support frame; 416. a second spring; 417. a butt joint rod; 418. a clamping block; 402. a transmission rod; 403. a guide plate; 404. a fixed rod; 500. a drive assembly; 501. an annular tube; 502. a blower; 503. a water injection pipe; 600. a receiving assembly; 601. a screen plate; 602. a rubber sleeve; 603. a baffle; 604. a third spring; 605. a spring telescoping rod; 606. and a fixing ring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. 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.

As shown in fig. 1 to 8, the present utility model provides a low-temperature condensation spray coating device for hydrolyzing tannic acid, comprising a treatment bin 100, a drain outlet 200 communicated with the inside of the treatment bin 100, a feeding component 300 fixedly mounted on the top of the treatment bin 100, a discharging component 400 mounted on the outside of the treatment bin 100, a receiving component 600 fixedly mounted in the inside of the treatment bin 100, and a driving component 500 mounted on the bottom of the inside of the treatment bin 100;

the receiving assembly 600 comprises a fixed ring 606 fixedly arranged at the bottom of the inside of the treatment bin 100, a rubber sleeve 602 connected to the top of the fixed ring 606, a screen 601 connected to the upper end of the rubber sleeve 602, and a spring telescopic rod 605 connected to the screen 601 and the inner wall of the treatment bin 100 through a ball shaft;

the driving assembly 500 comprises a fan 502 assembled at the bottom of the inside of the treatment bin 100, an annular pipe 501 arranged at the top of a fixed ring 606 and positioned in a rubber sleeve 602, a water injection pipe 503 communicated with the inside of the annular pipe 501, and a round hole formed in the top of the annular pipe 501.

The water injection pipe 503 is in butt joint with the water pump, the top discharge spray of the annular pipe 501 moves upwards to penetrate through the screen 601 to be in contact with the pills at the top, and meanwhile, the air is injected upwards by matching with the fan 502; in the process of injecting air into the rubber sleeve 602 by the fan 502, the rubber sleeve 602 forms a wave shape under the action of air flow, and as the mesh plate 601 is connected with the rubber sleeve 602, the rubber sleeve 602 drives the mesh plate 601 to shake with a top pill.

The pills are placed in the feeding assembly 300 and fall onto the screen 601 from the bottom of the feeding assembly 300, the weight of the screen 601 is gradually increased, the feeding assembly 300 is disconnected from the treatment bin 100, the water injection pipe 503 is in butt joint with the water pump and is sprayed out through holes at the top of the annular pipe 501 to form spray, the fan 502 is started to rotate to inject air upwards, the spray evenly penetrates through the screen 601 under the action of wind force, and the spray is hydrolyzed with the pills at the top in the process of passing through the screen 601; simultaneously through fan 502 to the interior air injection in-process of rubber sleeve 602, the air current moves up in rubber sleeve 602 and drives rubber sleeve 602 and form the wavy and rock to drive otter board 601 and top pellet and rock, make spraying and pellet contact more even, avoid the pellet to pile up the phenomenon simultaneously, improve the quality that the pellet was covered, the pellet is covered and is accomplished the back, closes the water pump, continuously annotates the wind through fan 502, carries out the stoving to otter board 601 top pellet and handles, and drive otter board 601 and pellet under the effect of wind power and rock, thereby improve pellet drying efficiency.

As shown in fig. 2, 5 and 8, the feeding assembly 300 includes a stock bin 301 fixedly mounted on the top of the processing bin 100, and a stabilizing frame 302 fixedly mounted on the top of the stock bin 301;

the ball shaft is connected with a connecting rod 306 between the sealing block 305 and the screen 601;

the top pill of mesh plate 601 is moved downward by its weight, pushing down on spring telescoping rod 605 and pulling connecting rod 306, sealing block 305 and rubber pad 304 downward, sealing the bottom of bin 301.

The pills are placed in the storage box 301 and fall onto the screen plate 601 from the bottom of the storage box 301, the pills at the top of the screen plate 601 are gradually increased and the weight of the screen plate 601 is gradually increased, the screen plate 601 is downwards moved under the influence of the weight, the sealing block 305 and the rubber pad 304 are pulled through the connecting ball rod 306, so that the pills in the storage box 301 are blocked, the quantity of the pills on the screen plate 601 is not excessive, the quality of medicine coating is improved, and meanwhile, the rubber pad 304 is used for preventing the pills from being extruded in the downwards moving process of the sealing block 305; after the pill coating is discharged, the mesh plate 601 is reset and the weight is lightened, the mesh plate 601, the connecting rod 306, the rubber pad 304 and the sealing block 305 are pushed to move upwards by the spring telescopic rod 605, the storage box 301 and the processing bin 100 are in a communicating state, and new pills can fall into the mesh plate 601 for spray coating processing.

As shown in fig. 2, 3, 4, 6 and 7, the receiving assembly 600 further includes a baffle 603 sleeved on the periphery of the mesh plate 601 and having the same arc radius, a third spring 604 connected to the lower end of the baffle 603 and the bottom of the mesh plate 601, and a lug plate extending from the outer portion of the mesh plate 601 and being spherical-hinged with the spring telescopic rod 605.

The discharging assembly 400 comprises a discharging plate 401 hinged to the outer wall of the treatment bin 100, a fixing rod 404 fixedly arranged in the treatment bin 100, a guide plate 403 sleeved outside the fixing rod 404, and a transmission rod 402 hinged between the discharging plate 401 and the guide plate 403. The periphery of the top of the screen plate 601 is provided with a surrounding baffle ring and is provided with a notch for the baffle 603 to slide; pushing the discharging plate 401 to rotate, pressing the baffle 603 downwards by one end of the discharging plate 401 contacting with the top of the baffle 603, and then continuing to rotate the discharging plate 401 to press one end of the net plate 601, so that the net plate 601 and the discharging plate 401 form a plane.

After the low-temperature condensation spray coating of the tannic acid for hydrolyzing the pills is completed, pushing the discharge plate 401 to rotate at a hinged position, wherein one end of the discharge plate 401 contacts with the top of the baffle 603 in the rotating process, pushing and stretching the third spring 604 downwards, continuously rotating the discharge plate 401 to squeeze one end of the screen plate 601, so that the screen plate 601 is high and low left and right, simultaneously the discharge plate 401 and the screen plate 601 form a plane, a notch is formed at the corresponding position of the top periphery of the screen plate 601, and pills roll down under the action of an inclined angle and are discharged through the discharge plate 401; meanwhile, in the rotation process of the discharging plate 401, the guide plate 403 is pushed by the transmission rod 402 to rotate by taking the fixing rod 404 as a central shaft, one end of the guide plate 403 pushes the middle part of the rubber sleeve 602, one end of the rubber sleeve 602 is in a concave shape, at the moment, the upward air injected by the fan 502 passes through the other end of the screen 601, the pill discharging efficiency is improved under the action of the air force, and the phenomenon that pills are accumulated and cannot be discharged is avoided.

As shown in fig. 5 and 7, the discharging assembly 400 further includes a fixing frame 412 fixed to the outside of the treatment bin 100, a guide bar 413 fixed to the inside of the fixing frame 412, a sliding block 411 fixed to the outside of the discharging plate 401 and sleeved on the guide bar 413, and a first spring 414 connected between the fixing frame 412 and the sliding block 411;

the support frame 415 is connected to the outside of the sliding block 411, the docking rod 417 is sleeved outside the support frame 415, the second spring 416 is sleeved outside the docking rod 417, and the clamping block 418 is fixedly arranged at one end of the docking rod 417.

The fixing frame 412 is arc-shaped, clamping teeth are arranged outside the fixing frame 412, the clamping block 418 is in a right trapezoid shape, and the clamping block 418 is meshed with the outside of the fixing frame 412.

Before pushing the discharge plate 401, pulling the docking rod 417 to stretch the second spring 416, so that the clamping block 418 is disengaged from the surface of the fixing frame 412, that is, the discharge plate 401 can be pushed to rotate, the sliding block 411 slides on the surface of the guide rod 413 to compress the first spring 414, after the angle adjustment of the discharge plate 401 is completed, the docking rod 417 is loosened, so that the clamping block 418 is engaged with the fixing frame 412 to fix the discharge plate 401, and pills can be discharged; after the pills are discharged, the butt joint rod 417 and the clamping block 418 are pulled to be separated from the fixing frame 412, the discharge plate 401 and the guide plate 403 can be pushed to reset through the first spring 414, and the process of hydrolyzing tannic acid, condensing, spraying and coating the pills at low temperature can be continuously carried out.

The working principle and the using flow of the utility model are as follows:

the pills are placed in the storage box 301 and fall onto the screen 601 from the bottom of the storage box 301, the pills at the top of the screen 601 are gradually increased and the weight is gradually increased, the screen 601 is moved downwards under the influence of the weight, the spring telescopic rod 605 is pressed down, and the connecting ball rod 306, the sealing block 305 and the rubber pad 304 are pulled to move downwards so as to seal the bottom of the storage box 301, and the pills in the storage box 301 are prevented from continuously falling. The water injection pipe 503 is in butt joint with the water pump, and sprays out through holes at the top of the annular pipe 501 to form spray, the fan 502 is started to rotate to inject wind upwards, the spray evenly penetrates through the screen 601 under the action of wind force, the spray contacts with pills at the top in the process of passing through the screen 601, and the spray falls into the bottom of the treatment bin 100 through the top of the rubber sleeve 602, and is discharged and cleaned through the drain outlet 200 periodically;

meanwhile, in the process of blowing by the fan 502, the air moves upwards in the rubber sleeve 602, and the rubber sleeve 602 is blown under the action of air flow to form waves, so that the screen 601 is driven to shake, the pills at the top of the screen 601 are driven to roll, the contact between spraying and the surfaces of the pills are more uniform, after the coating of the pills at the top of the screen 601 is completed, the water pump is turned off, the fan 502 continuously injects air upwards, the rubber sleeve 602 and the screen 601 are driven to shake, and the pills at the top are dried;

after the drying is finished, pulling the docking rod 417 to stretch the second spring 416 so that the clamping block 418 is separated from the surface of the fixing frame 412, namely pushing the discharge plate 401 to rotate at the hinged position, enabling the sliding block 411 to slide on the surface of the guide rod 413 to compress the first spring 414, enabling one end of the discharge plate 401 to contact with the top of the baffle 603 in the rotating process, pushing the stretching third spring 604 downwards, continuously rotating the discharge plate 401 to squeeze one end of the screen 601, enabling the screen 601 to be high left and low right, simultaneously enabling the discharge plate 401 and the screen 601 to form a plane, loosening the docking rod 417 so that the clamping block 418 is meshed with the fixing frame 412 to fix the discharge plate 401, enabling pills to roll under the action of the inclination angle of the screen 601, and discharging through the discharge plate 401;

meanwhile, in the rotation process of the discharging plate 401, the guide plate 403 is pushed by the transmission rod 402 to rotate by taking the fixing rod 404 as a central shaft, one end of the guide plate 403 pushes the middle part of the rubber sleeve 602, one end of the rubber sleeve 602 is in a concave shape, at the moment, the wind injected upwards by the fan 502 passes through the other end of the screen 601, and the pill discharging efficiency is improved under the action of wind force.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a hydrolysis tannic acid low temperature condensation spraying coating device, includes treatment storehouse (100), communicate in drain (200) of treatment storehouse (100) inside, its characterized in that: the device also comprises a feeding component (300) fixedly arranged at the top of the treatment bin (100), a discharging component (400) arranged outside the treatment bin (100), a bearing component (600) fixedly arranged inside the treatment bin (100) and a driving component (500) assembled at the bottom inside the treatment bin (100);

the bearing assembly (600) comprises a fixed ring (606) fixedly arranged at the inner bottom of the treatment bin (100), a rubber sleeve (602) connected to the top of the fixed ring (606), a screen plate (601) connected to the upper end of the rubber sleeve (602), and a spring telescopic rod (605) connected to the screen plate (601) and the inner wall of the treatment bin (100) through a ball shaft;

the driving assembly (500) comprises a fan (502) assembled at the bottom of the inside of the treatment bin (100), an annular pipe (501) arranged at the top of the fixed ring (606) and positioned in the rubber sleeve (602), and a water injection pipe (503) communicated with the inside of the annular pipe (501), wherein a round hole is formed in the top of the annular pipe (501).

2. The hydrolyzed tannic acid low temperature condensation spray coating device of claim 1, wherein: the water injection pipe (503) is in butt joint with the water pump, the top discharge spray of the annular pipe (501) moves upwards to penetrate through the screen plate (601) to be in contact with the top pill, and meanwhile, the air injection is carried out upwards by matching with the fan (502).

3. The hydrolyzed tannic acid low temperature condensation spray coating device of claim 1, wherein: the fan (502) makes the rubber sleeve (602) form the wave shape under the effect of air current in the air injection process to the rubber sleeve (602), because otter board (601) is connected with the rubber sleeve (602), the rubber sleeve (602) will drive otter board (601) and top pellet to rock.

4. The hydrolyzed tannic acid low temperature condensation spray coating device of claim 1, wherein: the feeding assembly (300) comprises a stock box (301) fixedly arranged at the top of the treatment bin (100), and a stabilizing frame (302) fixedly arranged at the top of the stock box (301), wherein the stabilizing frame (302) is communicated with the inside of the treatment bin (100);

the ball shaft is connected to a connecting rod (306) between the sealing block (305) and the screen plate (601).

5. The hydrolyzed tannic acid low temperature condensation spray coating device of claim 4, wherein: the top pill of the net plate (601) is downwards moved by the weight of the top pill, the spring telescopic rod (605) is downwards pressed, the connecting ball rod (306), the sealing block (305) and the rubber pad (304) are pulled to downwards move, and the bottom of the storage box (301) is sealed.

6. The hydrolyzed tannic acid low temperature condensation spray coating device of claim 1, wherein: the bearing assembly (600) further comprises a baffle (603) sleeved on the periphery of the screen plate (601) and consistent with the arc radius of the baffle, a third spring (604) connected to the lower end of the baffle (603) and the bottom of the screen plate (601), and a lug plate extending outside the screen plate (601) and spherical hinged with the spring telescopic rod (605).

7. The hydrolyzed tannic acid low temperature condensation spray coating device of claim 6, wherein: the discharging assembly (400) comprises a discharging plate (401) hinged to the outer wall of the treatment bin (100), a fixing rod (404) fixedly arranged inside the treatment bin (100), a guide plate (403) sleeved outside the fixing rod (404), and a transmission rod (402) hinged between the discharging plate (401) and the guide plate (403).

8. The hydrolyzed tannic acid low temperature condensation spray coating device of claim 7, wherein: the periphery of the top of the screen plate (601) is provided with a surrounding baffle ring, and a notch for sliding the baffle plate (603) is formed;

pushing the discharging plate (401) to rotate, pressing the baffle (603) downwards by contacting one end of the discharging plate (401) with the top of the baffle (603), and then continuously rotating the discharging plate (401) to press one end of the screen plate (601), so that the screen plate (601) and the discharging plate (401) form a plane.

9. The hydrolyzed tannic acid low temperature condensation spray coating device of claim 7, wherein: the discharging assembly (400) further comprises a fixing frame (412) fixed outside the treatment bin (100), a guide rod (413) fixed inside the fixing frame (412), a sliding block (411) fixed outside the discharging plate (401) and sleeved on the guide rod (413), and a first spring (414) connected between the fixing frame (412) and the sliding block (411);

the sliding block is characterized by further comprising a supporting frame (415) connected to the outside of the sliding block (411), a butt joint rod (417) sleeved outside the supporting frame (415), a second spring (416) sleeved outside the butt joint rod (417), and a clamping block (418) fixedly arranged at one end of the butt joint rod (417).

10. The hydrolyzed tannic acid low temperature condensation spray coating device of claim 9, wherein: the fixing frame (412) is arc-shaped, clamping teeth are arranged outside the fixing frame (412), the clamping blocks (418) are right trapezoid, and the clamping blocks (418) are meshed with the outside of the fixing frame (412).