CN220062322U - Dewatering device for producing release agent - Google Patents

Abstract

The utility model discloses a dehydration device for producing a release agent, which belongs to the technical field of release agent production and processing and comprises a frame, wherein a drying tower is arranged on the frame, a driving component is arranged on the drying tower, a rotating component is arranged on the drying tower, a sealing element is arranged on the rotating component, a stirring component is arranged on the rotating component, a dispersing and discharging component is also arranged on the drying tower, a discharging component is arranged on the drying tower, an extrusion and dispersing component is arranged on the discharging component, and a top constant temperature component is arranged on the drying tower. Through the mode, the extrusion dispersing assembly and the top constant temperature assembly are arranged, and the preliminary dispersion of the materials during blanking is realized through the extrusion dispersing assembly, so that the sufficient contact between the materials and hot air is increased, and the drying efficiency is improved; the temperature at the top of the drying tower is always close to the temperature at the bottom of the drying tower through the top constant temperature component, so that the adhesion of dried materials at the top of the drying tower is reduced.

Description

Dewatering device for producing release agent

Technical Field

The utility model relates to the technical field of release agent production and processing, in particular to a dehydration device for release agent production.

Background

The isolating agent is one kind of additive with isolating effect in four forms, including paste, liquid, powder and suspension, and the powder isolating agent is produced through drying and dewatering slurry isolating agent in the production process.

However, the existing drying equipment generally adopts a screw conveyor for feeding, and the material is not well dispersed during feeding due to the fact that the material conveying speed of the screw conveyor is low, so that the drying efficiency is affected.

Based on the above, the present utility model has devised a dehydration device for producing a release agent to solve the above-mentioned problems.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, the present utility model provides a dehydration device for producing a release agent.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the dehydration device for producing the release agent comprises a frame, wherein the top of the frame is fixedly connected with a drying tower, a rotary stirring assembly is arranged in the drying tower, and the rotary stirring assembly comprises a driving assembly, a rotary assembly, a sealing element and a stirring assembly;

the drying tower is provided with a driving component for driving the rotating component to rotate;

the drying tower is provided with rotating assemblies for different steering, and the rotating assemblies are connected with the driving assembly;

the rotating assembly is provided with a sealing piece for ensuring the air tightness of the rotating assembly;

the stirring assemblies are arranged in a staggered manner on the rotating assemblies so as to fully crush the materials;

the drying tower is also provided with a dispersing and discharging assembly, and the dispersing and discharging assembly comprises a mounting frame, a discharging assembly and an extrusion and dispersing assembly;

the drying tower is provided with a mounting frame, a blanking assembly is arranged on the mounting frame, and the blanking assembly is connected with the drying tower;

the blanking assembly is provided with an extrusion dispersing assembly for dispersing and blanking materials so as to accelerate drying efficiency;

and a top constant temperature component for heating the top of the drying tower to ensure that the temperature of the top of the drying tower is close to the temperature of the bottom of the drying tower is arranged on the drying tower.

Still further, the drive assembly includes a first motor, a first pulley, a drive belt, and a second pulley;

the motor is characterized in that a first motor is fixedly connected to one side of the frame, a first belt pulley is fixedly connected to the output end of the first motor, a second belt pulley is mounted on the rotating assembly, and the first belt pulley is in transmission connection with the second belt pulley through a transmission belt.

Still further, the rotating assembly includes a tapered roller;

the bottom of drying tower rotates and is connected with the conical roller, conical roller bottom fixedly connected with second fluted disc, one side fixedly connected with of frame a plurality of groups dead lever, the one end of a plurality of groups dead lever is all rotated and is connected with the gear, the gear is connected with the meshing of second fluted disc, conical roller middle part rotates and is connected with the axis of rotation, the axis of rotation runs through conical roller, axis of rotation bottom fixedly connected with first fluted disc, first fluted disc is connected with the gear meshing, the axis of rotation is connected with drive assembly, conical roller is connected with extrusion dispersion subassembly, the axis of rotation is connected with the sealing member.

Still further, the sealing member is the toper sealing block, axis of rotation middle part and be located toper roller top fixedly connected with toper sealing block, the seal groove has been seted up to toper sealing block bottom, the toper roller top is located the seal groove.

Further, the stirring assembly comprises an L-shaped rod, a first stirring rod and a second stirring rod;

the novel stirring device is characterized in that a plurality of groups of L-shaped rods are fixedly connected around the top of the rotating shaft, a plurality of groups of first stirring rods are fixedly connected to the inner sides of the plurality of groups of L-shaped rods, a plurality of groups of second stirring rods are fixedly connected around the top of the conical roller, and the first stirring rods and the second stirring rods are arranged in a staggered mode.

Further, the blanking component comprises a material conveying barrel, a second motor, a spiral conveying rod and a material storage box;

drying tower outer wall fixedly connected with mounting bracket, drying tower middle part just is located fixedly connected with conveying barrel directly over the mounting bracket, mounting bracket top fixedly connected with second motor, conveying barrel one end and second motor fixedly connected with, second motor output fixedly connected with screw conveyer pole, conveying barrel top fixedly connected with storage tank, conveying barrel is connected with extrusion dispersion subassembly, screw conveyer pole is connected with extrusion dispersion subassembly.

Still further, extrusion dispersion subassembly includes extrusion subassembly and dispersion subassembly, install extrusion subassembly on the conveying barrel, install dispersion subassembly in the extrusion subassembly, screw conveyer pole is connected with extrusion subassembly.

Still further, the compression assembly includes a mounting box;

the utility model discloses a conveyer bucket, including spiral conveying pole, first lug of spiral conveying pole one end fixedly connected with, install the incasement wall and be located first lug one side and rotate and be connected with the second lug, rotate between first lug and the second lug and be connected with the connecting rod, the connecting rod bottom rotates and is connected with the horizontal pole, horizontal pole and installation incasement wall sliding connection, the horizontal pole periphery rotates and is connected with two sets of opening and closing plates, opening and closing plate axis of rotation top fixedly connected with stopper, the spout has been seted up on the installation case lateral wall, two sets of opening and closing plates respectively with spout sliding connection.

Further, the dispersion assembly includes a dispersion plate and dispersion holes;

the installation box bottom fixedly connected with dispersion board, dispersion hole has been seted up on the dispersion board.

Further, the top constant temperature assembly comprises a heat preservation cover, a heating wire and a heating box;

the heat-insulating cover is fixedly connected to the periphery of the top of the drying tower, the heat-insulating cover is hollow, the heating wire is fixedly connected to the periphery of the drying tower in the heat-insulating cover, the heating box is fixedly connected to one side of the heat-insulating cover, and the heating wire is fixedly connected with the heating box.

Advantageous effects

The utility model is provided with the extrusion dispersing component and the top constant temperature component, the blanking component is used for conveying materials into the extrusion dispersing component, meanwhile, the driving component is operated, the extrusion dispersing component is driven to operate when the blanking component operates, and the extrusion dispersing component is used for primarily dispersing the materials during blanking, so that the full contact between the materials and hot air is increased, meanwhile, the materials are more conveniently crushed and stirred, and the drying efficiency is improved;

the top of the drying tower is heated through the heating wire after the heating box is electrified, the inside of the heat preservation cover is in a hollow state, a certain heat preservation effect is achieved, the temperature of the top of the drying tower is heated to be the same as the temperature of the bottom of the drying tower through the heating wire, the temperature difference is prevented from enabling the dried materials to adhere to the inner wall of the drying tower, the fact that the temperature of the top of the drying tower is always close to the temperature of the bottom is achieved, and therefore the fact that the dried materials adhere to the top of the drying tower is reduced;

when the conical roller and the rotating shaft rotate, the conical roller drives the second stirring rod to rotate, the rotating shaft drives the first stirring rod to rotate through the L-shaped rod, and the first stirring rod and the second stirring rod do shearing motion when rotating, so that the materials are fully crushed and stirred;

in the stirring process, partial materials can fall on the conical sealing block, and as the conical sealing block is conical, the materials can slide down through the inclined plane, and the conical roller is positioned in the sealing groove, so that the materials are prevented from entering the conical roller, and the sealing function of the joint of the sealing groove and the conical roller is realized.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present utility model and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a perspective view of a main body structure of a dehydration engine for producing a release agent according to the present utility model;

FIG. 2 is a front view of a dewatering device for producing a release agent according to the present utility model;

FIG. 3 is a left side view showing the structure of a dehydration device for producing a release agent according to the present utility model;

FIG. 4 is a cross-sectional view taken along the direction A-A of FIG. 3;

FIG. 5 is an enlarged view at B in FIG. 4;

FIG. 6 is an enlarged view at C in FIG. 4;

fig. 7 is an enlarged view of D in fig. 4.

Reference numerals in the drawings represent respectively:

1. frame 2, drying tower 3, rotating stirring assembly 31, drive assembly 311, first motor 312, first pulley 313, drive belt 314, second pulley 32, rotating assembly 321, first toothed disc 322, rotating shaft 323, second toothed disc 324, gear 325, stationary bar 326, tapered roller 33, seal 331, tapered sealing block 332, sealing groove 34, stirring assembly 341, L-shaped bar 342, first stirring bar 343, second stirring bar 4, dispensing and blanking assembly 41, mounting bracket 42, blanking assembly 421, conveying bucket 422, second motor 423, screw conveying bar 424, storage box 43, pressing and sorting assembly 431, mounting box 432, first bump 433, second bump 434, connecting rod 435, cross bar 436, opening and closing plate 437, stopper 438, dispersion plate 4310, dispensing hole 5, top thermostatic assembly 51, heat retaining cover 52, heating wire 53.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model is further described below with reference to examples.

Example 1

Referring to fig. 1-4 of the specification, a dehydration device for producing a release agent comprises a frame 1, wherein a drying tower 2 is fixedly connected to the top of the frame 1, a rotary stirring assembly 3 is arranged in the drying tower 2, and the rotary stirring assembly 3 comprises a driving assembly 31, a rotary assembly 32, a sealing member 33 and a stirring assembly 34;

the drying tower 2 is provided with a driving component 31 for driving the rotating component 32 to rotate;

the drying tower 2 is provided with a rotating assembly 32 for different steering, and the rotating assembly 32 is connected with a driving assembly 31;

the rotating assembly 32 is provided with a sealing member 33 for ensuring the air tightness of the rotating assembly 32;

the rotating component 32 is provided with stirring components 34 which are arranged in a staggered way so as to fully crush the materials;

the drying tower 2 is also provided with a dispersing and blanking assembly 4, and the dispersing and blanking assembly 4 comprises a mounting frame 41, a blanking assembly 42 and an extrusion and dispersing assembly 43;

a mounting frame 41 is arranged on the drying tower 2, a blanking assembly 42 is arranged on the mounting frame 41, and the blanking assembly 42 is connected with the drying tower 2;

the blanking component 42 is provided with an extrusion dispersing component 43 for dispersing and blanking materials so as to accelerate drying efficiency;

the drying tower 2 is provided with a top constant temperature component 5 for heating the top of the drying tower 2 to ensure that the temperature of the top of the drying tower 2 is close to the temperature of the bottom.

When processing the isolating agent, carry the material to the extrusion dispersion subassembly 43 through unloading subassembly 42, simultaneously move driving assembly 31, drive extrusion dispersion subassembly 43 operation when unloading subassembly 42 operates, extrusion dispersion subassembly 43 carries out preliminary dispersion to the material when the unloading, thereby increased the abundant contact of material and hot air, simultaneously also more conveniently carry out crushing and stirring to the material, improve drying efficiency, driving assembly 31 moves and drives rotation subassembly 32 forward and backward direction rotation, rotation subassembly 32 moves and drives stirring subassembly 34 operation, can be with abundant crushing and the stirring of material when stirring subassembly 34 is operated, further increase the contact of material and hot air, let the drying effect better, thereby reduce the circulation drying of material, start top constant temperature assembly 5, top constant temperature assembly 5 can heat the drying tower top, let the temperature at drying tower top be close with the bottom temperature all the time, thereby the material adhesion at the drying tower top after the drying has been reduced.

Example 2

On the basis of embodiment 1, referring to fig. 1 to 6 of the specification, the driving assembly 31 includes a first motor 311, a first pulley 312, a transmission belt 313 and a second pulley 314;

a first motor 311 is fixedly connected to one side of the frame 1, a first belt pulley 312 is fixedly connected to the output end of the first motor 311, a second belt pulley 314 is mounted on the rotating assembly 32, and the first belt pulley 312 is in transmission connection with the second belt pulley 314 through a transmission belt 313.

The rotating assembly 32 comprises a conical roller 326, the bottom of the drying tower 2 is rotationally connected with the conical roller 326, the bottom of the conical roller 326 is fixedly connected with a second fluted disc 323, one side of the frame 1 is fixedly connected with a plurality of groups of fixing rods 325, one ends of the plurality of groups of fixing rods 325 are rotationally connected with a gear 324, the gear 324 is meshed with the second fluted disc 323 and connected with a rotating shaft 322, the rotating shaft 322 penetrates through the conical roller 326, the bottom of the rotating shaft 322 is fixedly connected with a first fluted disc 321, the first fluted disc 321 is meshed with the gear 324 and connected with the rotating shaft 322 and connected with the driving assembly 31, the conical roller 326 is connected with the extrusion dispersing assembly 43, and the rotating shaft 322 is connected with the sealing piece 33.

When the device is operated, the first motor 311 drives the first belt pulley 312 to rotate, the first belt pulley 312 drives the second belt pulley 314 to rotate through the driving belt 313, the second belt pulley 314 rotates to drive the first fluted disc 321 to rotate through the rotating shaft 322, the first fluted disc 321 rotates to drive the second fluted disc 323 to reversely rotate through the gear 324, the second fluted disc 323 rotates to drive the conical roller 326 to rotate, and the reverse rotation of the first fluted disc 321 and the second fluted disc 323 is realized through the gear 324, so that stirring is more sufficient.

The sealing piece 33 is a conical sealing block 331, the middle part of the rotating shaft 322 is fixedly connected with the conical sealing block 331 at the top end of the conical roller 326, a sealing groove 332 is formed in the bottom of the conical sealing block 331, and the top of the conical roller 326 is positioned in the sealing groove 332.

In the stirring process, part of the material can fall on the conical sealing block 331, and as the conical sealing block 331 is conical, the material can slide down through the inclined plane, the conical roller 326 is positioned in the sealing groove 332, so that the material is prevented from entering the conical roller 326, and the sealing function of the joint of the sealing groove 332 and the conical roller 326 is realized.

The stirring assembly 34 comprises an L-shaped rod 341, a first stirring rod 342 and a second stirring rod 343, a plurality of groups of L-shaped rods 341 are fixedly connected around the top of the rotating shaft 322, a plurality of groups of first stirring rods 342 are fixedly connected to the inner sides of the plurality of groups of L-shaped rods 341, a plurality of groups of second stirring rods 343 are fixedly connected around the top of the conical roller 326, and the first stirring rods 342 and the second stirring rods 343 are arranged in a staggered manner.

When the conical roller 326 and the rotating shaft 322 rotate, the conical roller 326 drives the second stirring rod 343 to rotate, the rotating shaft 322 drives the first stirring rod 342 to rotate through the L-shaped rod 341, and the first stirring rod 342 and the second stirring rod 343 do shearing motion when rotating, so that materials are further fully crushed and stirred.

Example 3

Referring to fig. 1-7 of the drawings, the blanking assembly 42 includes a feeding barrel 421, a second motor 422, a screw feed rod 423 and a storage tank 424;

drying tower 2 outer wall fixedly connected with mounting bracket 41, drying tower 2 middle part just is located the fixedly connected with conveying barrel 421 directly over the mounting bracket 41, and mounting bracket 41 top fixedly connected with second motor 422, conveying barrel 421 one end and second motor 422 fixed connection, second motor 422 output fixedly connected with screw conveyer pole 423, conveying barrel 421 top fixedly connected with storage case 424, conveying barrel 421 is connected with extrusion dispersion subassembly 43, screw conveyer pole 423 is connected with extrusion dispersion subassembly 43.

The material passes through the storage box 424 and gets into in the conveying bucket 421, and the second motor 422 drives screw conveyer pole 423 and rotates, in carrying the material to extrusion dispersion subassembly 43, drives extrusion dispersion subassembly 43 function when screw conveyer pole 423 rotates, extrusion dispersion subassembly 43 disperses the unloading to the material, lets material and hot air fully contact, the broken and the stirring of material of also being convenient for simultaneously.

The extrusion dispersing assembly 43 comprises an extrusion assembly and a dispersing assembly, the extrusion assembly is arranged on the conveying barrel 421, the dispersing assembly is arranged in the extrusion assembly, and the spiral conveying rod 423 is connected with the extrusion assembly.

The extrusion subassembly includes mounting box 431, defeated storage bucket 421 one end fixedly connected with mounting box 431, screw conveyer pole 423 one end fixedly connected with first lug 432, mounting box 431 inner wall just is located first lug 432 one side and rotates and be connected with second lug 433, rotate between first lug 432 and the second lug 433 and be connected with connecting rod 434, connecting rod 434 bottom rotates and is connected with horizontal pole 435, horizontal pole 435 and mounting box 431 inner wall sliding connection, horizontal pole 435 peripheral rotation is connected with two sets of opening and closing plates 436, opening and closing plates 436 axis of rotation top fixedly connected with stopper 437, the spout 438 has been seted up on the mounting box 431 lateral wall, two sets of opening and closing plates 436 respectively with spout 438 sliding connection.

When the material gets into in the installation case 431, screw conveyer 423 drives first lug 432 and second lug 433 rotation, first lug 432 and second lug 433 drive connecting rod 434 up-and-down motion, connecting rod 434 drives opening plate 436 through horizontal pole 435 up-and-down motion, follow the orbit motion of 38 when opening plate 436 up-and-down motion, two sets of opening plate 436 open when opening plate 436 down motion, it is spacing through stopper 437 to rotate two sets of opening plate 436 when to the level, two sets of opening plate 436 splice into a rectangular plate down motion, extrude the material, prevent that the material from piling up in the installation case 431, when opening plate 436 up motion, opening plate 436 up motion along the orbit of spout 438, two sets of opening plate 436 are closed each other and are let the material down motion, drive opening plate 436 up-and-down reciprocating motion through the drive force of unloading subassembly 42, the function to the material has been realized the pressurization of preventing the material from piling up.

The dispersion assembly includes a dispersion plate 439 and dispersion holes 4310;

a dispersion plate 439 is fixedly connected to the bottom of the mounting box 431, and dispersion holes 4310 are formed in the dispersion plate 439.

When the material is extruded, the material enters the drying tower 2 through the dispersing holes 4310 on the dispersing plate 439, and can be primarily dispersed through the dispersing component, so that the sufficient contact between the material and hot air is increased, the material is more conveniently crushed and stirred, and the drying efficiency is improved.

The top constant temperature assembly 5 comprises a heat preservation cover 51, a heating wire 52 and a heating box 53;

the periphery of the top of the drying tower 2 is fixedly connected with a heat preservation cover 51, the heat preservation cover 51 is hollow, a heating wire 52 is fixedly connected in the heat preservation cover 51 and surrounds the periphery of the drying tower 2, one side of the heat preservation cover 51 is fixedly connected with a heating box 53, and the heating wire 52 is fixedly connected with the heating box 53.

The top of the drying tower 2 is heated through the heating wire 52 after the heating box 53 is electrified, the inside of the heat preservation cover 51 is in a hollow state, a certain heat preservation effect is achieved, the temperature at the top of the drying tower 2 is heated to be the same as the temperature at the bottom of the drying tower 2 through the heating wire 52, the temperature difference is prevented from causing the dried materials to be adhered to the inner wall of the drying tower 2, the temperature at the top of the drying tower is always close to the temperature at the bottom, and accordingly the adhesion of the dried materials to the top of the drying tower is reduced.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (10)

1. The utility model provides a dewatering device that release agent production was used, includes frame (1), its characterized in that: the drying tower (2) is fixedly connected to the top of the frame (1), a rotary stirring assembly (3) is arranged in the drying tower (2), and the rotary stirring assembly (3) comprises a driving assembly (31), a rotary assembly (32), a sealing element (33) and a stirring assembly (34);

a driving component (31) for driving the rotating component (32) to rotate is arranged on the drying tower (2);

a rotating assembly (32) for different steering is arranged on the drying tower (2), and the rotating assembly (32) is connected with a driving assembly (31);

the rotating assembly (32) is provided with a sealing piece (33) for ensuring the air tightness of the rotating assembly (32);

the stirring assemblies (34) which are arranged in a staggered way and are used for sufficiently crushing the materials are arranged on the rotating assemblies (32);

the drying tower (2) is also provided with a dispersing and discharging assembly (4), and the dispersing and discharging assembly (4) comprises a mounting frame (41), a discharging assembly (42) and an extrusion and dispersing assembly (43);

a mounting frame (41) is mounted on the drying tower (2), a blanking assembly (42) is mounted on the mounting frame (41), and the blanking assembly (42) is connected with the drying tower (2);

the blanking assembly (42) is provided with an extrusion dispersing assembly (43) for dispersing and blanking materials so as to accelerate drying efficiency;

and a top constant temperature component (5) for heating the top of the drying tower (2) to ensure that the top temperature of the drying tower (2) is close to the bottom temperature is arranged on the drying tower (2).

2. A dewatering device for the production of a release agent according to claim 1, characterized in that the drive assembly (31) comprises a first motor (311), a first pulley (312), a drive belt (313) and a second pulley (314);

the novel motor is characterized in that a first motor (311) is fixedly connected to one side of the frame (1), a first belt pulley (312) is fixedly connected to the output end of the first motor (311), a second belt pulley (314) is mounted on the rotating assembly (32), and the first belt pulley (312) is in transmission connection with the second belt pulley (314) through a transmission belt (313).

3. A dewatering device for the production of a release agent according to claim 1, characterized in that the rotating assembly (32) comprises conical rolls (326);

the bottom of drying tower (2) is rotated and is connected with conical roller (326), conical roller (326) bottom fixedly connected with second fluted disc (323), one side fixedly connected with of frame (1) a plurality of sets of dead lever (325), the one end of a plurality of sets of dead levers (325) is all rotated and is connected with gear (324), gear (324) and second fluted disc (323) meshing are connected, conical roller (326) middle part rotation is connected with axis of rotation (322), axis of rotation (322) runs through conical roller (326), axis of rotation (322) bottom fixedly connected with first fluted disc (321), first fluted disc (321) are connected with gear (324) meshing, axis of rotation (322) are connected with drive assembly (31), conical roller (326) are connected with extrusion dispersion subassembly (43), axis of rotation (322) are connected with sealing member (33).

4. A dehydration device for producing a release agent according to claim 3, wherein the sealing member (33) is a conical sealing block (331), the conical sealing block (331) is fixedly connected to the middle part of the rotating shaft (322) and located at the top end of the conical roller (326), the sealing groove (332) is formed in the bottom of the conical sealing block (331), and the top of the conical roller (326) is located in the sealing groove (332).

5. A dewatering device for the production of a release agent according to claim 3, characterized in that the stirring assembly (34) comprises an L-shaped bar (341), a first stirring bar (342) and a second stirring bar (343);

a plurality of groups of L-shaped rods (341) are fixedly connected around the top of the rotating shaft (322), a plurality of groups of first stirring rods (342) are fixedly connected to the inner sides of the groups of L-shaped rods (341), a plurality of groups of second stirring rods (343) are fixedly connected around the top of the conical roller (326), and the first stirring rods (342) and the second stirring rods (343) are distributed in a staggered mode.

6. A dewatering device for the production of a release agent according to claim 1, characterized in that the blanking assembly (42) comprises a feed bucket (421), a second motor (422), a screw feed rod (423) and a storage tank (424);

drying tower (2) outer wall fixedly connected with mounting bracket (41), drying tower (2) middle part just is located fixedly connected with conveying barrel (421) directly over mounting bracket (41), mounting bracket (41) top fixedly connected with second motor (422), conveying barrel (421) one end and second motor (422) fixedly connected with screw conveyer pole (423), conveying barrel (421) top fixedly connected with storage tank (424), conveying barrel (421) are connected with extrusion dispersion subassembly (43), screw conveyer pole (423) are connected with extrusion dispersion subassembly (43).

7. The dewatering device for producing a release agent according to claim 6, wherein the extrusion dispersing assembly (43) comprises an extrusion assembly and a dispersing assembly, the extrusion assembly is mounted on the conveying barrel (421), the dispersing assembly is mounted in the extrusion assembly, and the screw conveying rod (423) is connected with the extrusion assembly.

8. A dewatering device for the production of a release agent according to claim 7, characterized in that the press assembly comprises a mounting box (431);

the utility model discloses a conveyer bucket, including conveyer bucket (421) one end fixedly connected with install bin (431), screw conveyer pole (423) one end fixedly connected with first lug (432), install bin (431) inner wall and lie in first lug (432) one side rotation and be connected with second lug (433), rotate between first lug (432) and second lug (433) and be connected with connecting rod (434), connecting rod (434) bottom rotates and is connected with horizontal pole (435), horizontal pole (435) and install bin (431) inner wall sliding connection, horizontal pole (435) peripheral rotation is connected with two sets of opening and closing plates (436), opening and closing plate (436) axis of rotation top fixedly connected with stopper (437), spout (438) have been seted up on install bin (431) lateral wall, two sets of opening and closing plates (436) respectively with spout (438) sliding connection.

9. The dewatering device for producing a release agent according to claim 8, wherein the dispersing means includes a dispersing plate (439) and dispersing holes (4310);

the bottom of the installation box (431) is fixedly connected with a dispersion plate (439), and dispersion holes (4310) are formed in the dispersion plate (439).

10. A dewatering device for the production of a release agent according to claim 1, characterized in that the top thermostat assembly (5) comprises a heat-insulating hood (51), a heating wire (52) and a heating box (53);

the heat-insulating cover (51) is fixedly connected to the periphery of the top of the drying tower (2), the heat-insulating cover (51) is in a hollow state, the heating wire (52) is fixedly connected to the periphery of the drying tower (2) in the heat-insulating cover (51), the heating box (53) is fixedly connected to one side of the heat-insulating cover (51), and the heating wire (52) is fixedly connected with the heating box (53).