CN209877697U - A material cooling device for latex production - Google Patents

Abstract

The utility model relates to the technical field of auxiliary devices for producing and processing latex products, in particular to a material cooling device for latex production, which improves the cooling effect on latex solution, has compact structure, reduces the occupied area and improves the practicability; the latex solution is conveniently led into the working cavity, so that the use reliability is improved; meanwhile, volatile organic gas in the latex can be treated, so that the pollution to the working environment is avoided, and the environmental protection is improved; the cooling device comprises a cooling tank, wherein a placing cavity is arranged in the cooling tank, a charging hopper is arranged at the top end of the cooling tank, and a discharging pipe is arranged at the bottom of the right end of the cooling tank; still include water tank, first circulating pump and back flow, the cooling tank is horizontal structure, places the intracavity and is provided with the left guide plate of multiunit and the right guide plate of multiunit, and the left guide plate of multiunit and the crisscross setting of the right guide plate of multiunit, and the inside of the left guide plate of multiunit and the right guide plate of multiunit all is provided with the disk cooling tube, still includes communicating pipe, negative-pressure air fan, handles the case, cover and blast pipe of breathing in.

Description

A material cooling device for latex production

Technical Field

The utility model relates to a technical field of latex goods production and processing auxiliary device especially relates to a material cooling device for latex production.

Background

As is well known, a material cooling device for latex production is an auxiliary device which is applied to the latex production process, cools and cools the generated latex solution, facilitates subsequent processing, and is widely used in the field of chemical production; the existing material cooling device for latex production comprises a cooling tank, wherein a placing cavity is arranged inside the cooling tank, a charging hopper is arranged at the top end of the cooling tank, a discharging pipe is arranged at the bottom of the right end of the cooling tank, a jacket is arranged on the outer side of the cooling tank, and cooling water is filled in the jacket; when the existing material cooling device for latex production is used, latex is guided into a working cavity from a feeding hopper, a cooling tank and the latex are cooled by cooling water in a jacket, and the cooled latex is guided out from a discharging pipe; the existing material cooling device for latex production is found to have poor cooling effect on latex, large volume and space occupation, so that the practicability is low; and because the height of the cooling tank is higher, the latex solution is inconvenient to be guided into the working cavity, so that the use reliability is lower; meanwhile, a certain amount of organic gas volatilizes in the latex, so that the working environment is polluted, the health of workers is harmed, and the environmental protection property is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a cooling device which can improve the cooling effect of latex solution, has compact structure, reduces the occupied area and improves the practicability; the latex solution is conveniently led into the working cavity, so that the use reliability is improved; meanwhile, volatile organic gas in the latex can be treated, the pollution to the working environment is avoided, and the environment-friendly material cooling device for latex production is improved.

The utility model discloses a material cooling device for latex production, which comprises a cooling tank, wherein a placing cavity is arranged inside the cooling tank, a charging hopper is arranged at the top end of the cooling tank, and a discharging pipe is arranged at the bottom of the right end of the cooling tank; the cooling tank is of a horizontal structure, a plurality of groups of left guide plates and a plurality of groups of right guide plates are arranged in the placing cavity, the left ends of the plurality of groups of left guide plates are all connected with the left side wall of the placing cavity, the right ends of the plurality of groups of left guide plates are all inclined downwards and leave spaces between the right side walls of the placing cavity, the right ends of the plurality of groups of right guide plates are all connected with the right side wall of the placing cavity, the left ends of the plurality of groups of right guide plates are all inclined downwards and leave spaces between the left side walls of the placing cavity, the plurality of groups of left guide plates and the plurality of groups of right guide plates are arranged in a staggered manner, disc-shaped cooling pipes are arranged inside the plurality of groups of left guide plates and the plurality of groups of right guide plates, a communicating pipe is arranged between every two adjacent groups of disc-shaped cooling pipes, the input end of the first circulating pump, one end of the return pipe is communicated with the lowest group of the disc-shaped cooling pipes, the other end of the return pipe is communicated with the water tank, and the return pipe is provided with a second circulating pump; still include negative-pressure air fan and handle the case, the inside of handling the case is provided with the working chamber to organic gas absorption liquid is equipped with at the working chamber, the top of placing the chamber is provided with the cover of breathing in, negative-pressure air fan's input stretches into to the working chamber from the top of cooling tank and with breathe in the cover intercommunication, negative-pressure air fan's output stretches into to the working chamber and inserts to organic gas absorption liquid in from the top of handling the case, and the top of handling the case is provided with the blast pipe.

The utility model discloses a material cooling device for latex production, still include first motor, slide, reciprocating screw, gag lever post and scraper blade, the right side wall bottom of placing the chamber is provided with the standing groove, and fixed mounting has first ball bearing in the standing groove, the first half region of slide is provided with the screw hole that link up from left to right, first motor is installed in the left end bottom of cooling tank, the right-hand member of reciprocating screw passes the screw hole and inserts to first ball bearing inside from the left end spiral shell dress of slide, and the left end of reciprocating screw passes the left side wall of cooling tank and is connected with the right side output transmission of first motor from placing the intracavity, and the latter half region of slide is provided with the spacing hole that link up from left to right, the left end of gag lever post is connected with placing the left side wall of chamber, and the right-hand member of gag lever post passes the spacing hole and is connected with placing the right side wall of chamber from the left end of slide, the top of the left end of the scraper blade is connected with the middle of the right end of the sliding plate through a hinge, and the bottom end of the scraper blade is in contact with the inner bottom wall of the placing cavity.

The utility model discloses a material cooling device for latex production still includes four group's pillars, the bottom of four group's pillars is connected with left front side, right front side, left rear side and the right back side of handling the roof end respectively, and the top of four group's pillars is connected with left front side, right front side, left rear side and the right back side of bottom water tank respectively.

The utility model discloses a material cooling device for latex production still includes fan bracket and second motor, the second motor is installed in the top of handling the case to be provided with the pivot at the top output of second motor, the top of pivot stretches into to inside the water tank from the bottom of water tank to be provided with the stirring leaf on the top of pivot, the stirring leaf is "U" type structure, and the top of water tank is provided with the thermovent, fan bracket mounting is in thermovent department to be provided with radiator fan on fan bracket, radiator fan's the output is vertical upwards.

The utility model discloses a material cooling device for latex production still includes the third motor, be provided with the mounting groove on the right side wall of working chamber to fixed mounting has second ball bearing in the mounting groove, the third motor is installed in the left end of handling the case to be provided with the transmission shaft at the right side output of third motor, the right-hand member of transmission shaft stretches into to the working chamber and inserts to inside the second ball bearing from the left end of handling the case to be provided with the multiunit puddler on the transmission shaft, the multiunit puddler all is located the working chamber.

The utility model discloses a material cooling device for latex production, multiunit left side guide plate and multiunit right side guide plate are stainless steel, multiunit disk cooling tube is stainless steel.

The utility model discloses a material cooling device for latex production, be provided with the velocity of flow control valve on the back flow.

The utility model discloses a material cooling device for latex production, the right-hand member bottom of handling the case is provided with the fluid-discharge tube to be provided with the flowing back valve in fluid-discharge tube department, the top of handling the case is provided with the liquid feeding pipe, and is provided with at liquid feeding pipe department and keeps off the lid.

Compared with the prior art, the beneficial effects of the utility model are that: the cooling tank adopts a horizontal structure, the latex solution guided into the placing cavity flows along a plurality of groups of left guide plates and a plurality of groups of right guide plates, the latex solution pumps low-temperature water in the water tank into a plurality of groups of disc-shaped cooling pipes through a first circulating pump, the water in the disc-shaped cooling pipes has heat on the left guide plates and the right guide plates, and the left guide plates and the right guide plates are cooled, so that the latex solution is cooled, flows in a thin layer and is fully contacted with the left guide plates and the right guide plates, the heat of the latex solution can be taken away, the cooling effect on the latex solution is improved, the flow distance of the latex solution is prolonged through the plurality of groups of left guide plates and the plurality of groups of right guide plates by adopting the cooling tank with the horizontal structure, the volume and the occupied area of the cooling tank are greatly reduced under the condition that the same amount of latex solution is cooled, the structure is compact, and the practicability is improved; the height of the cooling tank is low, so that the latex solution is conveniently guided into the working cavity, and the use reliability is improved; volatile organic gas in the latex is pumped to the processing case by negative pressure air fan through the cover of breathing in, and organic gas rushes into in the organic gas absorption liquid, reacts through organic gas absorption liquid and organic gas composition to get rid of organic composition, the gas through the processing is discharged from the blast pipe, can handle volatile organic gas in the latex, avoids causing the pollution to operational environment, improves the feature of environmental protection.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the top view structure of the slide plate, the scraper, the reciprocating screw rod and the limiting rod in the cooling tank of the present invention;

fig. 3 is a schematic top view of the cross section of the left deflector of the present invention;

in the drawings, the reference numbers: 1. a cooling tank; 2. a hopper; 3. a discharge pipe; 4. a water tank; 5. a first circulation pump; 6. a return pipe; 7. a left baffle; 8. a right baffle; 9. a disk-shaped cooling tube; 10. a communicating pipe; 11. a negative pressure fan; 12. a treatment tank; 13. an air intake cover; 14. an exhaust pipe; 15. a first motor; 16. a slide plate; 17. a reciprocating screw; 18. a limiting rod; 19. a squeegee; 20. a first ball bearing; 21. a pillar; 22. a fan bracket; 23. a second motor; 24. a rotating shaft; 25. stirring blades; 26. a heat radiation fan; 27. a third motor; 28. a second ball bearing; 29. a drive shaft; 30. a stirring rod; 31. a flow rate control valve; 32. a liquid discharge pipe; 33. a liquid feeding pipe.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1 to 3, the material cooling device for latex production of the present invention comprises a cooling tank 1, a placing cavity is arranged inside the cooling tank 1, a charging hopper 2 is arranged at the top end of the cooling tank 1, and a discharging pipe 3 is arranged at the bottom of the right end of the cooling tank 1; the cooling tank comprises a cooling tank 1, a water tank 4, a first circulating pump 5 and a return pipe 6, wherein the cooling tank is of a horizontal structure, a plurality of groups of left guide plates 7 and a plurality of groups of right guide plates 8 are arranged in a placing cavity, the left ends of the groups of left guide plates 7 are all connected with the left side wall of the placing cavity, the right ends of the groups of left guide plates 7 are all inclined downwards and leave a space between the right side wall of the placing cavity, the right ends of the groups of right guide plates 8 are all connected with the right side wall of the placing cavity, the left ends of the groups of right guide plates 8 are all inclined downwards and leave a space between the left side wall of the placing cavity, the groups of left guide plates 7 and the groups of right guide plates 8 are arranged in a staggered mode, disc-shaped cooling pipes 9 are arranged inside the groups of left guide plates 7 and the groups of right guide plates 8, a communicating pipe 10 is arranged between every two adjacent groups of disc, one end of the return pipe 6 is communicated with the lowest group of disc-shaped cooling pipes 9, the other end of the return pipe 6 is communicated with the water tank 4, and the return pipe 6 is provided with a second circulating pump; the device is characterized by further comprising a negative pressure fan 11 and a processing box 12, a working cavity is arranged inside the processing box 12, organic gas absorption liquid is filled in the working cavity, an air suction cover 13 is arranged at the top of the placing cavity, the input end of the negative pressure fan 11 extends into the working cavity from the top end of the cooling tank 1 and is communicated with the air suction cover 13, the output end of the negative pressure fan 11 extends into the working cavity from the top end of the processing box 12 and is inserted into the organic gas absorption liquid, and an exhaust pipe 14 is arranged at the top end of the processing box 12; the cooling tank adopts a horizontal structure, the latex solution guided into the placing cavity flows along a plurality of groups of left guide plates and a plurality of groups of right guide plates, the latex solution pumps low-temperature water in the water tank into a plurality of groups of disc-shaped cooling pipes through a first circulating pump, the water in the disc-shaped cooling pipes has heat on the left guide plates and the right guide plates, and the left guide plates and the right guide plates are cooled, so that the latex solution is cooled, flows in a thin layer and is fully contacted with the left guide plates and the right guide plates, the heat of the latex solution can be taken away, the cooling effect on the latex solution is improved, the flow distance of the latex solution is prolonged through the plurality of groups of left guide plates and the plurality of groups of right guide plates by adopting the cooling tank with the horizontal structure, the volume and the occupied area of the cooling tank are greatly reduced under the condition that the same amount of latex solution is cooled, the structure is compact, and the practicability is improved; the height of the cooling tank is low, so that the latex solution is conveniently guided into the placing cavity, and the use reliability is improved; volatile organic gas in the latex is pumped to the processing case by negative pressure air fan through the cover of breathing in, and organic gas rushes into in the organic gas absorption liquid, reacts through organic gas absorption liquid and organic gas composition to get rid of organic composition, the gas through the processing is discharged from the blast pipe, can handle volatile organic gas in the latex, avoids causing the pollution to operational environment, improves the feature of environmental protection.

The utility model discloses a material cooling device for latex production, still include first motor 15, slide 16, reciprocating screw 17, gag lever post 18 and scraper blade 19, the right side wall bottom of placing the chamber is provided with the standing groove, and fixed mounting has first ball bearing 20 in the standing groove, the first half region of slide 16 is provided with screw hole that link up from left to right, first motor 15 is installed in the left end bottom of cooling tank 1, reciprocating screw 17's right-hand member passes the screw hole and inserts to first ball bearing 20 inside from the left end spiral shell dress of slide 16, reciprocating screw 17's left end passes the left side wall of cooling tank 1 and is connected with the right side output transmission of first motor 15 from placing the intracavity, slide 16's latter half region is provided with the spacing hole that link up from left to right, the left end of gag lever post 18 is connected with placing the left side wall of chamber, the right-hand member of gag lever post 18 passes the spacing hole from the left end of slide 16 and is connected with placing the right side wall of chamber, the top of the left end of the scraper blade 19 is connected with the middle part of the right end of the sliding plate 16 through a hinge, and the bottom end of the scraper blade 19 is contacted with the inner bottom wall of the placing cavity; drive reciprocal lead screw through first motor and rotate, make the slide along reciprocal lead screw in the bottom horizontal slip of placing the chamber, carry on spacingly to the slide through the gag lever post, stability when keeping the slide horizontal slip, when the slide slides right, the bottom of scraper blade and the interior diapire contact of placing the chamber to the emulsion that will place the chamber bottom is scraped right and is sent, makes things convenient for emulsion to discharge from the discharge tube, when the slide slides left, the bottom of scraper blade inclines right, guarantees that emulsion can flow from the bottom of scraper blade.

The utility model discloses a material cooling device for latex production, still include four group's pillars 21, the bottom of four group's pillars 21 is connected with the left front side, right front side, left rear side and the right rear side of processing case 12 top respectively, the top of four group's pillars 21 is connected with the left front side, right front side, left rear side and the right rear side of water tank 4 bottom respectively; the water tank and the treatment tank are arranged together, so that the occupied space is reduced.

The utility model discloses a material cooling device for latex production, still include fan bracket 22 and second motor 23, second motor 23 is installed in the top of handling case 12, and be provided with pivot 24 at the top output of second motor 23, the top of pivot 24 stretches into inside water tank 4 from the bottom of water tank 4, and be provided with stirring leaf 25 at the top of pivot 24, stirring leaf 25 is "U" type structure, the top of water tank 4 is provided with the thermovent, fan bracket 22 is installed in the thermovent, and be provided with radiator fan 26 on fan bracket 22, radiator fan 26's output is vertical upwards; drive the stirring leaf through the second motor and rotate the water of stirring in the water tank, the flow of water accelerates, and the wind speed of the surface of water is accelerated in cooperation cooling fan to the evaporation heat dissipation of water accelerates, makes water guarantee microthermal state, conveniently cools down to emulsion.

The utility model discloses a material cooling device for latex production, still include third motor 27, be provided with the mounting groove on the right side wall of working chamber, and fixed mounting has second ball bearing 28 in the mounting groove, third motor 27 is installed in the left end of processing case 12, and be provided with transmission shaft 29 at the right side output of third motor 27, the right-hand member of transmission shaft 29 stretches into to the working chamber and inserts to inside second ball bearing 28 from the left end of processing case 12, and be provided with multiunit puddler 30 on transmission shaft 29, multiunit puddler 30 all is located the working chamber; drive transmission shaft and multiunit puddler through the third motor and rotate, stir organic gas absorption liquid through the puddler, make organic composition in the organic gas can with organic gas absorption liquid intensive mixing and reaction to improve the treatment effect to organic gas.

The utility model discloses a material cooling device for latex production, a plurality of groups of left guide plates 7 and a plurality of groups of right guide plates 8 are made of stainless steel, and a plurality of groups of disc-shaped cooling pipes 9 are made of stainless steel; improve the heat conduction effect and prolong the service life of the heat conduction device.

The utility model relates to a material cooling device for latex production, a flow velocity control valve 31 is arranged on a return pipe 6; the water flow speed in the disc-shaped cooling pipe can be controlled through the flow speed control valve, so that the cooling effect of the latex is adjusted, and the practicability is improved.

The utility model discloses a material cooling device for latex production, the bottom of the right end of a treatment box 12 is provided with a liquid discharge pipe 32, a liquid discharge valve is arranged at the position of the liquid discharge pipe 32, the top end of the treatment box 12 is provided with a liquid feeding pipe 33, and a baffle cover is arranged at the position of the liquid feeding pipe 33; the organic gas absorption liquid in the placing cavity can be replaced through the liquid adding pipe and the liquid discharging pipe, and the use reliability is improved.

The utility model discloses a material cooling device for latex production, it is at the during operation, introduce latex into placing the intracavity through the loading hopper, the cooling tank adopts horizontal structure, latex that is introduced into placing the intracavity flows along multiunit left guide plate and multiunit right guide plate, latex is in the in-process of flowing, low temperature water in the water tank is pumped to the interior of multiunit disc cooling tube through first circulating pump, water through the interior of disc cooling tube has the heat on left guide plate and the right guide plate, cool off left guide plate and right guide plate, thereby cool off latex, latex flows into the lamella and fully contacts with left guide plate and right guide plate, can take away latex's heat, improve the cooling effect to latex, through the cooling tank that adopts horizontal structure, and through multiunit left guide plate and multiunit right guide plate extension latex's flow distance, the size and the occupied area of the cooling tank are greatly reduced under the condition of cooling the same amount of latex solution, the structure is compact, the height of the cooling tank is lower, the latex solution is conveniently led into the placing cavity, and the use reliability is improved; volatile organic gas in latex is pumped into a treatment box by a negative pressure fan through a suction hood, the organic gas is flushed into organic gas absorption liquid, the organic gas absorption liquid reacts with organic gas components to remove the organic components, the treated gas is discharged from an exhaust pipe, the volatile organic gas in the latex can be treated to avoid polluting the working environment, the environmental protection is improved, a first motor drives a reciprocating screw to rotate, a sliding plate slides leftwards and rightwards along the reciprocating screw at the bottom of a placing cavity, the sliding plate is limited by a limiting rod to keep the stability of the sliding plate when sliding leftwards and rightwards, the bottom end of a scraper plate is in contact with the inner bottom wall of the placing cavity when the sliding plate slides rightwards, so that the latex at the bottom of the placing cavity is scraped rightwards to facilitate the discharge of the latex from an exhaust pipe, and the bottom of the scraper plate inclines rightwards when the sliding plate slides leftwards, guarantee that the emulsion can flow from the bottom of scraper blade, it stirs to drive the water of stirring leaf rotation in to the water tank through the second motor, flow of water with higher speed, the wind speed of cooperation cooling blower surface of water with higher speed, thereby the evaporation heat dissipation of water with higher speed, make water guarantee microthermal state, the convenience is cooled down to the emulsion, drive transmission shaft and multiunit puddler rotation through the third motor, stir organic gas absorption liquid through the puddler, make organic composition in the organic gas can with organic gas absorption liquid intensive mixing and reaction, thereby improve the treatment effect to organic gas, can control the velocity of water in the disc cooling tube through the velocity of flow control valve, thereby adjust the cooling effect of latex.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A material cooling device for latex production comprises a cooling tank (1), wherein a placing cavity is arranged inside the cooling tank (1), a feeding hopper (2) is arranged at the top end of the cooling tank (1), and a discharging pipe (3) is arranged at the bottom of the right end of the cooling tank (1); the cooling device is characterized by further comprising a water tank (4), a first circulating pump (5) and a return pipe (6), wherein the cooling tank (1) is of a horizontal structure, a plurality of groups of left guide plates (7) and a plurality of groups of right guide plates (8) are arranged in the placing cavity, the left ends of the groups of left guide plates (7) are connected with the left side wall of the placing cavity, the right ends of the groups of left guide plates (7) are inclined downwards and leave a space between the right side walls of the placing cavity, the right ends of the groups of right guide plates (8) are connected with the right side wall of the placing cavity, the left ends of the groups of right guide plates (8) are inclined downwards and leave a space between the left side walls of the placing cavity, the groups of left guide plates (7) and the groups of right guide plates (8) are arranged in a staggered manner, disc-shaped cooling pipes (9) are arranged inside the groups of left guide plates (7) and the groups of right guide plates (8), and a communicating pipe, the input end of the first circulating pump (5) is communicated with the water tank (4), the output end of the first circulating pump (5) is communicated with the uppermost group of the disc-shaped cooling pipes (9), one end of the return pipe (6) is communicated with the lowermost group of the disc-shaped cooling pipes (9), the other end of the return pipe (6) is communicated with the water tank (4), and the return pipe (6) is provided with a second circulating pump; still include negative-pressure air fan (11) and handle case (12), the inside of handling case (12) is provided with the working chamber to organic gas absorption liquid is equipped with at the working chamber, the top of placing the chamber is provided with cover (13) of breathing in, the input of negative-pressure air fan (11) stretches into to the working chamber and with cover (13) intercommunication of breathing in from the top of cooling tank (1), and the output of negative-pressure air fan (11) stretches into to the working chamber and inserts to organic gas absorption liquid in from the top of handling case (12), and the top of handling case (12) is provided with blast pipe (14).

2. The material cooling device for latex production according to claim 1, further comprising a first motor (15), a sliding plate (16), a reciprocating screw (17), a limiting rod (18) and a scraper (19), wherein a placing groove is formed at the bottom of the right side wall of the placing cavity, a first ball bearing (20) is fixedly installed in the placing groove, a threaded hole which is through from left to right is formed in the front half area of the sliding plate (16), the first motor (15) is installed at the bottom of the left end of the cooling tank (1), the right end of the reciprocating screw (17) is screwed into the threaded hole from the left end of the sliding plate (16) and inserted into the first ball bearing (20), the left end of the reciprocating screw (17) passes through the left side wall of the cooling tank (1) from the placing cavity and is in transmission connection with the right output end of the first motor (15), a limiting hole which is through from left to right is formed in the rear half area of the sliding plate (16), the left end of gag lever post (18) with place the left side wall connection in chamber, the right-hand member of gag lever post (18) pass spacing hole and with place the right side wall connection in chamber from the left end of slide (16), the left end top of scraper blade (19) passes through hinged joint with the right-hand member middle part of slide (16), scraper blade (19) bottom with place the interior diapire contact in chamber.

3. The material cooling apparatus for emulsion production as recited in claim 2, further comprising four sets of pillars (21), bottom ends of said four sets of pillars (21) being connected to the front left side, front right side, rear left side and rear right side of the top end of the treatment tank (12), respectively, and top ends of said four sets of pillars (21) being connected to the front left side, front right side, rear left side and rear right side of the bottom end of the water tank (4), respectively.

4. The material cooling device for latex production as claimed in claim 3, further comprising a fan bracket (22) and a second motor (23), wherein the second motor (23) is installed at the top end of the treatment box (12), a rotating shaft (24) is arranged at the top output end of the second motor (23), the top end of the rotating shaft (24) extends into the water tank (4) from the bottom end of the water tank (4), a stirring blade (25) is arranged at the top end of the rotating shaft (24), the stirring blade (25) is of a "U" type structure, the top end of the water tank (4) is provided with a heat dissipation port, the fan bracket (22) is installed at the heat dissipation port, a heat dissipation fan (26) is arranged on the fan bracket (22), and the output end of the heat dissipation fan (26) is vertically upward.

5. The material cooling device for latex production as claimed in claim 4, further comprising a third motor (27), wherein a mounting groove is formed on the right side wall of the working chamber, a second ball bearing (28) is fixedly mounted in the mounting groove, the third motor (27) is mounted at the left end of the processing box (12), a transmission shaft (29) is arranged at the right output end of the third motor (27), the right end of the transmission shaft (29) extends into the working chamber from the left end of the processing box (12) and is inserted into the second ball bearing (28), and a plurality of groups of stirring rods (30) are arranged on the transmission shaft (29), and the groups of stirring rods (30) are all located in the working chamber.

6. The material cooling device for latex production as claimed in claim 5, wherein said plurality of sets of left baffles (7) and said plurality of sets of right baffles (8) are made of stainless steel, and said plurality of sets of disk-shaped cooling tubes (9) are made of stainless steel.

7. A material cooling apparatus for emulsion production as defined in claim 6, wherein said return pipe (6) is provided with a flow rate control valve (31).

8. The material cooling device for emulsion production as claimed in claim 7, wherein the bottom of the right end of the treatment tank (12) is provided with a drain pipe (32), a drain valve is arranged at the drain pipe (32), a liquid feeding pipe (33) is arranged at the top end of the treatment tank (12), and a baffle cover is arranged at the liquid feeding pipe (33).