CN217236191U - A quick cooling device for processing of epoxy complexing agent - Google Patents

Abstract

The utility model discloses a quick cooling device for processing of epoxy complexing agent relates to chemical industry equipment technical field, including the footing, still include quick cooling structure and heat radiation structure, the bottom plate is installed on the top of footing, and the top intermediate position department of bottom plate installs the main part, the installation barrel is installed to the inside bottom of main part, and installs the inside bottom of barrel and seted up the cavity, the cooling bath has been seted up to the inside on installation barrel top, and installs driving motor on the inside top of cavity, the puddler is installed to driving motor's output, a plurality of stirring leaves are installed to the outer wall of puddler. The utility model discloses a puddler drives the stirring leaf rotatory, stirs the inside epoxy complexing agent of cooling bath, makes the inner wall contact that every part of it all can the cooling bath, cools off, and refrigerated speed accelerates, this structure has realized the quick cooling of epoxy complexing agent, has increased work efficiency.

Description

A quick cooling device for processing of epoxy complexing agent

Technical Field

The utility model relates to a chemical industry equipment technical field specifically is a quick cooling device for processing of epoxy complexing agent.

Background

The epoxy resin complexing agent is a composite material taking epoxy resin as a matrix. The curing agent types which can be selected in the molding process are various, the process adaptability is good, the curing agent type is the most common advanced resin-based composite material, and in the production process of the epoxy resin complexing agent, the curing agent type needs to be cooled, so that the epoxy resin complexing agent can be put into use more quickly, and therefore, a cooling device for processing the epoxy resin complexing agent needs to be used for cooling the epoxy resin complexing agent.

The traditional cooling device for processing the epoxy resin complexing agent has the advantages of stable structure and good cooling effect, but still has the defects.

The cooling speed of the traditional cooling device for processing the epoxy resin complexing agent is low in the using process, and the production efficiency is influenced due to the fact that the traditional cooling device cannot be cooled quickly.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a quick cooling device for processing of epoxy complexing agent to solve the slower problem of cooling rate who proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a rapid cooling device for processing an epoxy resin complexing agent comprises a footing, a rapid cooling structure and a heat dissipation structure;

the bottom plate is mounted at the top end of the bottom foot, the main body is mounted in the middle of the top end of the bottom plate, the mounting cylinder is mounted at the bottom end inside the main body, the cavity is formed in the bottom end inside the mounting cylinder, the cooling groove is formed in the top end inside the mounting cylinder, the driving motor is mounted at the top end inside the cavity, the stirring rod is mounted at the output end of the driving motor, the stirring blades are mounted on the outer wall of the stirring rod, and the heat dissipation structure is located at the top ends of two sides of the main body;

the rapid cooling structure is positioned at the bottom end of the bottom plate;

the quick cooling structure comprises a water storage tank, the water storage tank is installed at the middle position of the bottom end of the bottom plate, a water injection pipe is installed at the front end of the water storage tank, a water outlet pipe is installed at the bottom end of one side inside the water storage tank, a return pipe is installed at the top end of the other side inside the water storage tank, a first water pump is installed at one side of the top end of the bottom plate, a second water pump is installed at the other side of the top end of the bottom plate, and a cooling pipe is wound on the outer wall of the installation barrel.

Preferably, the top end of the stirring rod penetrates through the mounting cylinder, and the top end of the stirring rod extends to the inside of the cooling tank.

Preferably, the aqua storage tank is passed to the rear end of water injection pipe, and the rear end of water injection pipe extends to the inside front end of aqua storage tank, the one end of outlet pipe passes aqua storage tank, bottom plate, first water pump and main part in proper order and extends to the inside of main part, and goes out water piping connection in the input of cooling tube.

Preferably, one end of the return pipe sequentially penetrates through the water storage tank, the bottom plate, the first water pump and the interior of the main body, and the return pipe is connected to the output end of the cooling pipe.

Preferably, heat radiation structure includes exhaust groove, intake pipe, draw runner, spout, outlet duct, fan and filter screen, exhaust groove all installs in the top of main part both sides, and the inside one side that is close to the main part of exhaust inslot all installs the intake pipe, the spout is all installed at the inside upper and lower both ends of exhaust groove, and the inside of spout all is provided with the draw runner, equal vertical installation has the filter screen between the draw runner, and the equal vertical fan of installing in the inside in filter screen one side exhaust groove, the inside one side of keeping away from the main part of exhaust groove all installs the outlet duct.

Preferably, one end of the air inlet pipe penetrates through the air exhaust groove and the main body in sequence and extends to the inside of the main body, and one end of the air outlet pipe penetrates through the air exhaust groove and extends to one side of the air exhaust groove.

Preferably, the one end of draw runner all extends to the inside in exhaust groove, and the filter screen all constitutes sliding construction through draw runner and spout.

Compared with the prior art, the beneficial effects of the utility model are that: adding cooling water into the water storage tank through a water injection pipe, then respectively starting a first water pump and a second water pump, starting the first water pump to work, enabling a water outlet pipe to suck out the cooling water in the water storage tank, enabling the cooling water to pass through the first water pump through the water outlet pipe and then enter the cooling pipe, enabling the cooling water to complete circulation in the cooling pipe, absorbing the heat of the epoxy resin complexing agent in the cooling tank, enabling the cooling water to enter the inside of a backflow pipe through an output end, enabling the cooling water to flow back to the inside of the water storage tank through the backflow pipe under the action of the second water pump, and then continuing circulation, wherein in the process, a worker needs to start a driving motor, drive a stirring rod through the driving motor, enable the stirring rod to rotate, drive a stirring blade through the stirring rod to rotate, stir the epoxy resin complexing agent in the cooling tank, and enable each part of the driving motor to be contacted with the inner wall of the cooling tank, the cooling is carried out, the cooling speed is accelerated, the structure realizes the quick cooling of the epoxy resin complexing agent, and the working efficiency is increased.

Drawings

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

fig. 2 is a schematic view of the structure of the present invention;

FIG. 3 is a schematic side view of the present invention;

fig. 4 is an enlarged schematic structural diagram of a in fig. 1 according to the present invention.

In the figure: 1. footing; 2. a water outlet pipe; 3. a cavity; 4. a water storage tank; 5. a drive motor; 6. a return pipe; 7. a base plate; 8. a second water pump; 9. a heat dissipation structure; 901. an exhaust duct; 902. an air inlet pipe; 903. a slide bar; 904. a chute; 905. an air outlet pipe; 906. a fan; 907. filtering with a screen; 10. a main body; 11. a cooling tube; 12. installing a cylinder body; 13. a cooling tank; 14. stirring blades; 15. a stirring rod; 16. a first water pump; 17. a water injection pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1: referring to fig. 1-4, a rapid cooling device for processing epoxy resin compound agent includes a foot 1, a rapid cooling structure and a heat dissipation structure 9;

the bottom plate 7 is installed at the top end of the bottom foot 1, the main body 10 is installed at the middle position of the top end of the bottom plate 7, the installation cylinder 12 is installed at the bottom end inside the main body 10, the cavity 3 is formed in the bottom end inside the installation cylinder 12, the cooling groove 13 is formed in the top end inside the installation cylinder 12, the driving motor 5 is installed at the top end inside the cavity 3, the type of the driving motor 5 can be YE2-132M1, the stirring rod 15 is installed at the output end of the driving motor 5, the top end of the stirring rod 15 penetrates through the installation cylinder 12, the top end of the stirring rod 15 extends into the cooling groove 13, the stirring blades 14 are installed on the outer wall of the stirring rod 15, and the heat dissipation structure 9 is located at the top ends of two sides of the main body 10;

the rapid cooling structure is positioned at the bottom end of the bottom plate 7;

referring to fig. 1-4, a fast cooling device for processing epoxy resin complex agent further includes a fast cooling structure, the fast cooling structure includes a water storage tank 4, the water storage tank 4 is installed at the middle position of the bottom end of a bottom plate 7, a water injection pipe 17 is installed at the front end of the water storage tank 4, a water outlet pipe 2 is installed at the bottom end of one side inside the water storage tank 4, a return pipe 6 is installed at the top end of the other side inside the water storage tank 4, a first water pump 16 is installed at one side of the top end of the bottom plate 7, the type of the first water pump 16 can be 25ZW8-15, a second water pump 8 is installed at the other side of the top end of the bottom plate 7, the type of the second water pump 8 can be 25ZW8-15, and a cooling pipe 11 is wound on the outer wall of an installation cylinder 12;

the rear end of the water injection pipe 17 penetrates through the water storage tank 4, the rear end of the water injection pipe 17 extends to the front end inside the water storage tank 4, one end of the water outlet pipe 2 sequentially penetrates through the water storage tank 4, the bottom plate 7, the first water pump 16 and the main body 10 to extend to the inside of the main body 10, and the water outlet pipe 2 is connected to the input end of the cooling pipe 11;

one end of the return pipe 6 sequentially passes through the water storage tank 4, the bottom plate 7, the first water pump 16 and the interior of the main body 10, and the return pipe 6 is connected to the output end of the cooling pipe 11;

specifically, as shown in fig. 1, 2 and 3, when the mechanism is used, the first water pump 16 starts to operate, so that the water outlet pipe 2 sucks out the cooling water inside the water storage tank 4, the cooling water passes through the first water pump 16 through the water outlet pipe 2 and then enters the inside of the cooling pipe 11, then the cooling water completes circulation inside the cooling pipe 11, heat of the epoxy resin complexing agent inside the cooling tank 13 is absorbed, the epoxy resin complexing agent enters the inside of the return pipe 6 through the output end, and the cooling water flows back to the inside of the water storage tank 4 through the return pipe 6 under the action of the second water pump 8.

Example 2: the heat dissipation structure 9 comprises an exhaust groove 901, an air inlet pipe 902, sliding strips 903, sliding chutes 904, air outlet pipes 905, fans 906 and filter screens 907, wherein the exhaust groove 901 is installed at the top ends of two sides of the main body 10, the air inlet pipe 902 is installed at one side, close to the main body 10, inside the exhaust groove 901, the sliding chutes 904 are installed at the upper end and the lower end inside the exhaust groove 901, the sliding strips 903 are arranged inside the sliding chutes 904, the filter screens 907 are vertically installed between the sliding strips 903, the fans 906 are vertically installed inside the exhaust groove 901 at one side of the filter screens 907, the model of the fans 906 can be XK453, and the air outlet pipes 905 are installed at one side, far away from the main body 10, inside the exhaust groove 901;

one end of the air inlet pipe 902 passes through the air exhaust groove 901 and the main body 10 in sequence and extends to the inside of the main body 10, and one end of the air outlet pipe 905 passes through the air exhaust groove 901 and extends to one side of the air exhaust groove 901;

one end of each sliding strip 903 extends into the exhaust groove 901, and the filter screens 907 form a sliding structure with the sliding grooves 904 through the sliding strips 903;

specifically, as shown in fig. 1, 2, 3 and 4, when the mechanism is used, the fan 906 is started, heat inside the main body 10 is sucked into the inside of the exhaust duct 901 through the air outlet pipe 905 through the air inlet pipe 902, and then the heat is exhausted through the air outlet pipe 905, so that the heat inside the main body 10 is prevented from affecting the cooling efficiency, external dust can be blocked through the filter screen 907, and a worker can pull the handle to draw the filter screen 907 out of the inside of the chute 904 through the slide bar 903.

The working principle is as follows: the worker adds the high temperature epoxy resin complexing agent into the interior of the cooling tank 13, then adds the cooling water into the interior of the water storage tank 4 through the water injection pipe 17, then respectively starts the first water pump 16 and the second water pump 8, the first water pump 16 starts to work, the water outlet pipe 2 sucks the cooling water in the interior of the water storage tank 4, the cooling water passes through the first water pump 16 through the water outlet pipe 2 and then enters the interior of the cooling pipe 11, then the cooling water completes circulation in the interior of the cooling pipe 11 to absorb the heat of the epoxy resin complexing agent in the interior of the cooling tank 13, the heat enters the interior of the return pipe 6 through the output end, under the action of the second water pump 8, the cooling water returns to the interior of the water storage tank 4 through the return pipe 6, and then the circulation can be continued, in the process, the worker needs to start the driving motor 5, the driving stirring rod 15 is driven through the driving motor 5, the stirring rod 15 is rotated, the stirring rod 15 drives the stirring blade 14 to rotate, so that the epoxy resin complexing agent in the cooling tank 13 is stirred, each part of the epoxy resin complexing agent can be contacted with the inner wall of the cooling tank 13 for cooling, and the cooling speed is accelerated;

if the inside cooling water of cooling tube 11 absorbs a large amount of heats and spills at the inside of main part 10, the staff can start fan 906, through intake pipe 902 with the inside heat of main part 10 through the inside of outlet duct 905 suction exhaust groove 901, discharge the heat through outlet duct 905 afterwards, prevent that the inside heat of main part 10 from influencing cooling efficiency, can block the dust of external world through filter screen 907, the staff can stimulate the handle, take filter screen 907 out from the inside of spout 904 through draw runner 903, after wasing it, it can be with inserting it back in situ.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. A quick cooling device for processing epoxy resin complexing agent comprises a footing (1), and is characterized in that: the cooling device also comprises a rapid cooling structure and a heat dissipation structure (9);

the bottom plate (7) is installed at the top end of the bottom foot (1), the main body (10) is installed at the middle position of the top end of the bottom plate (7), the installation barrel (12) is installed at the bottom end inside the main body (10), the cavity (3) is formed in the bottom end inside the installation barrel (12), the cooling groove (13) is formed in the top end inside the installation barrel (12), the driving motor (5) is installed at the top end inside the cavity (3), the stirring rod (15) is installed at the output end of the driving motor (5), the stirring blades (14) are installed on the outer wall of the stirring rod (15), and the heat dissipation structure (9) is located at the top ends of the two sides of the main body (10);

the rapid cooling structure is positioned at the bottom end of the bottom plate (7);

quick cooling structure includes aqua storage tank (4), install in the bottom intermediate position department of bottom plate (7) aqua storage tank (4), water injection pipe (17) are installed to the front end of aqua storage tank (4), and the bottom of the inside one side of aqua storage tank (4) installs outlet pipe (2), back flow (6) are installed on the top of the inside opposite side of aqua storage tank (4), and install first water pump (16) in one side on bottom plate (7) top, second water pump (8) are installed to the opposite side on bottom plate (7) top, and the outer wall winding of installing barrel (12) has cooling tube (11).

2. The rapid cooling device for epoxy resin complexing agent processing according to claim 1, characterized in that: the top end of the stirring rod (15) penetrates through the mounting cylinder body (12), and the top end of the stirring rod (15) extends to the inside of the cooling tank (13).

3. The rapid cooling device for epoxy resin complexing agent processing according to claim 1, characterized in that: the rear end of water injection pipe (17) passes aqua storage tank (4), and the rear end of water injection pipe (17) extends to the inside front end of aqua storage tank (4), the one end of outlet pipe (2) passes aqua storage tank (4), bottom plate (7), first water pump (16) and main part (10) in proper order and extends to the inside of main part (10), and outlet pipe (2) connect in the input of cooling tube (11).

4. The rapid cooling device for epoxy resin complexing agent processing according to claim 1, characterized in that: one end of the return pipe (6) sequentially penetrates through the water storage tank (4), the bottom plate (7), the first water pump (16) and the interior of the main body (10), and the return pipe (6) is connected to the output end of the cooling pipe (11).

5. The rapid cooling device for epoxy resin complexing agent processing according to claim 1, characterized in that: the heat dissipation structure (9) comprises an exhaust groove (901), an air inlet pipe (902), a sliding strip (903), a sliding groove (904), an air outlet pipe (905), a fan (906) and a filter screen (907), wherein the exhaust groove (901) is installed at the top ends of two sides of the main body (10), the air inlet pipe (902) is installed on one side, close to the main body (10), of the inside of the exhaust groove (901), the sliding groove (904) is installed at the upper end and the lower end of the inside of the exhaust groove (901), the sliding strip (903) is arranged inside the sliding groove (904), the filter screen (907) is vertically installed between the sliding strips (903), the fan (906) is vertically installed inside the exhaust groove (901) on one side of the filter screen (907), and the air outlet pipe (905) is installed on one side, far away from the main body (10), of the inside of the exhaust groove (901).

6. The rapid cooling device for epoxy resin complexing agent processing according to claim 5, characterized in that: one end of the air inlet pipe (902) sequentially penetrates through the air exhaust groove (901) and the main body (10) and extends to the inside of the main body (10), and one end of the air outlet pipe (905) sequentially penetrates through the air exhaust groove (901) and extends to one side of the air exhaust groove (901).

7. The rapid cooling device for epoxy resin complexing agent processing according to claim 5, characterized in that: one end of each sliding strip (903) extends into the exhaust groove (901), and the filter screens (907) form a sliding structure through the sliding strips (903) and the sliding grooves (904).

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