CN210506067U - Quick cooling crystallization device for preparing microcrystalline glass - Google Patents

Abstract

The utility model discloses a quick cooling crystallization device of microcrystalline glass preparation relates to microcrystalline glass preparation technical field, which comprises a motor, the bottom of motor is provided with the fan, and the outer wall of motor is provided with the top cap, the bottom of top cap is provided with the tower shell, the inside of tower shell is provided with receives the hydrophone, and the bottom of tower shell is provided with the column foot, the inner wall of tower shell is provided with horizontal water pipe, and the inside below that is located and receives the hydrophone of tower shell is provided with the rack. The utility model discloses an inlet tube that sets up, horizontal water pipe, water smoke shower nozzle, inlet tube get into horizontal water pipe in, water is sprayed by water smoke shower nozzle, to the top and the bottom of rack, reach the effect of treating cooling microcrystalline glass top and bottom simultaneously, have effectively solved current device and generally have been sprayed rivers to microcrystalline glass top by the cooling device top, but this kind of cooling method is because microcrystalline glass's thickness is too big, leads to cooling comparatively problem consuming time.

Description

Quick cooling crystallization device for preparing microcrystalline glass

Technical Field

The utility model relates to a microcrystalline glass prepares technical field, specifically is a quick cooling crystallization device of microcrystalline glass preparation.

Background

With the rapid development of the Chinese industry, the cooling device can meet good development prospects. Under the promotion of the demand, scientific research strength is enhanced by cooling device manufacturing enterprises, product innovation is continuously carried out, and the market demand is well met. The cooling device is an ideal water-saving device for realizing equipment cooling in modern industrial and mining enterprises such as chemical industry, electric power, metallurgy, textile, papermaking and the like and various civil engineering and the like or realizing circulating water cooling in air-conditioning refrigeration, is mainly applied to the fields of air-conditioning cooling systems, refrigeration series, injection molding, tanning, foaming, power generation, steam turbines, aluminum profile processing, air compressors, industrial water cooling and the like, and is mostly applied to the air-conditioning cooling, refrigeration and plastic chemical industry.

And present quick cold crystallization device of microcrystalline glass generally adopts and sprays rivers to the microcrystalline glass top at the cooling device top, has reached the purpose of quick cold crystallization, but this kind of cooling method leads to the cooling comparatively consuming time because microcrystalline glass's thickness is too big, and present microcrystalline glass places the district and generally adopts the steel sheet structure, and this kind of structure probably leads to the steel sheet temperature to rise, leads to the steel sheet to warp, and because the rivers temperature after using is higher, directly discharges to underground after generally using, has lead to the waste of water resource.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problem that water flow is sprayed to the top end of microcrystalline glass from the top end of a cooling device, the purpose of rapid cooling crystallization is achieved, but the cooling mode is time-consuming due to the fact that the microcrystalline glass is too large in thickness, an existing microcrystalline glass placing area generally adopts a steel plate structure, the steel plate temperature can be increased due to the structure, the steel plate is deformed, the water flow temperature after the cooling mode is used is high, the water flow is directly discharged to the underground after the cooling mode is generally used, and the waste of water resources is caused.

In order to achieve the above object, the utility model provides a following technical scheme: a quick-cooling crystallization device for preparing microcrystalline glass comprises a motor, wherein a fan is arranged at the bottom end of the motor, a top cover is arranged on the outer wall of the motor, a tower shell is arranged at the bottom end of the top cover, a water collector is arranged inside the tower shell, tower legs are arranged at the bottom end of the tower shell, a transverse water pipe is arranged on the inner wall of the tower shell, a placing frame is arranged inside the tower shell and below the water collector, a water inlet pipe penetrating into the inner side of the tower shell is arranged on one side of the tower shell, a guide pipe is arranged on one side of the transverse water pipe, a water mist spray head is arranged on one side of the guide pipe, a net surface is arranged inside the placing frame, a water outlet is arranged at the bottom end of the net surface, a water accumulation disc is arranged at the bottom end of the tower legs, a filter screen is arranged at the top end of the water accumulation disc, one side of water cooler is provided with the water tank, one side of water tank is provided with the water valve, and the top of water tank is provided with the inlet tube that runs through to the water tank inside.

Preferably, the motor is connected with the fan through the pivot rotation, and the motor passes through the support to be fixed in the inside of top cap.

Preferably, the number of the transverse water pipes is three, two transverse water pipes are connected with the guide pipe, one transverse water pipe is connected to one side of the water collector, the number of the water valves is two, one water valve is located on one side of the water tank, and one water valve is located on the other side of the transverse water pipe.

Preferably, the number of the water mist spray heads is multiple, every two water mist spray heads are connected to one side of the guide pipe through hot melting, and the included angle between each water mist spray head and the horizontal plane is 30 degrees.

Preferably, the wire side is hollow structure, and the material of wire side is high temperature resistant steel sheet, one side of rack is provided with the water inlet.

Preferably, the water inlet pipe is connected with the transverse water pipe in a hot melting mode, and the water accumulation disc is welded at the bottom end of the tower foot.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model effectively solves the problem that the cooling is time-consuming because the thickness of the microcrystalline glass is too large in the existing cooling mode, the circulating water flow is discharged from the water outlet, and effectively solves the problem that the existing microcrystalline glass placing area generally adopts a steel plate structure which can cause the temperature rise of a steel plate and the deformation of the steel plate through the arranged water accumulation disc and the filter screen, the outlet pipe, the water chiller, the water tank, water smoke gets into the ponding dish under the action of gravity, filters the back by the filter screen, enters into the outlet pipe, and the water in the outlet pipe flows into in the water tank after the water chiller heat dissipation, has effectively solved the rivers temperature after the use higher, directly discharges to the underground after generally using, has leaded to the problem of the waste of water resource.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the net surface of the present invention;

FIG. 3 is a schematic view of the connection structure of the horizontal water pipe and the water mist nozzle of the present invention

Fig. 4 is a connecting structure diagram of the horizontal water pipe and the placing rack of the utility model.

In the figure: 1. a motor; 2. a fan; 3. a top cover; 4. a water collector; 5. a transverse water pipe; 6. a guide tube; 7. a water mist spray head; 8. placing a rack; 9. a tower foot; 10. a water accumulation plate; 11. a filter screen; 12. a water outlet pipe; 13. a water cooler; 14. a water inlet pipe; 15. a water tank; 16. a water valve; 17. a water outlet; 18. a screen surface; 19. and (4) a tower shell.

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.

The utility model discloses mention in the motor (model: GH 22-400-30S) and water cooler (model: 600), the water receiver (model: GH-4) all can be obtained in market or private order.

Referring to fig. 1-4, a rapid cooling crystallization device for microcrystalline glass preparation comprises a motor 1, a fan 2 is disposed at the bottom end of the motor 1, a top cover 3 is disposed on the outer wall of the motor 1, a tower shell 19 is disposed at the bottom end of the top cover 3, a water collector 4 is disposed inside the tower shell 19, tower legs 9 are disposed at the bottom end of the tower shell 19, a transverse water pipe 5 is disposed on the inner wall of the tower shell 19, a placing frame 8 is disposed below the water collector 4 inside the tower shell 19, a water inlet pipe 14 penetrating to the inner side of the tower shell 19 is disposed at one side of the tower shell 19, a guide pipe 6 is disposed at one side of the transverse water pipe 5, a water mist spray head 7 is disposed at one side of the guide pipe 6, a mesh surface 18 is disposed inside the placing frame 8, a water outlet 17 is disposed at the bottom end of the mesh surface 18, a water accumulation tray 10 is disposed at the bottom end of the tower legs 9, a water cooler 13 is arranged on one side of the water outlet pipe 12, a water tank 15 is arranged on one side of the water cooler 13, a water valve 16 is arranged on one side of the water tank 15, and a water inlet pipe 14 penetrating into the water tank 15 is arranged at the top end of the water tank 15.

Please refer to fig. 1, the motor 1 is rotatably connected to the fan 2 through a rotating shaft, so that the output end of the motor 1 can rotate to drive the fan 2 to rotate, and the motor 1 is fixed inside the top cover 3 through a bracket, so as to fix the motor 1 and prevent the motor 1 from shaking during operation.

Please refer to fig. 1 and 4, the number of the transverse water pipes 5 is three to improve the flow efficiency of the water flow, two transverse water pipes 5 are connected to the guiding pipe 6, one transverse water pipe 5 is connected to one side of the water collector 4, the number of the water valves 16 is two, one water valve 16 is located at one side of the water tank 15, and one water valve 16 is located at the other side of the transverse water pipe 5.

Please refer to fig. 3, the number of the water mist nozzles 7 is plural, every two water mist nozzles 7 are connected to one side of the guiding pipe 6 by hot melting, and the included angle between the water mist nozzles 7 and the horizontal plane is 30 degrees, so that the water mist nozzles 7 can spray the water mist to the top end and the bottom end of the net surface 18.

Please refer to fig. 2, the net surface 18 is a hollow structure, which facilitates water inflow and water circulation inside the net surface 18, and the material of the net surface 18 is a high temperature resistant steel plate, which prevents the net surface 18 from deforming under high temperature conditions, and a water inlet is disposed at one side of the placing frame 8, which facilitates water flow entering the inside of the net surface 18.

Please refer to fig. 1, the water inlet pipe 14 is connected with the horizontal water pipe 5 by hot melting, which is convenient to prevent water leakage at the joint, and the water accumulating plate 10 is welded at the bottom end of the tower foot 9, which is convenient for the water accumulating plate 10 to bear accumulated water.

The working principle is as follows: firstly, a water valve 16 on one side of a water tank 15 is opened, an external water source enters the water tank 15, enters a transverse water pipe 5 through a water inlet pipe 14, the water valve 16 on the other side of the transverse water pipe 5 is adjusted, part of water is slowly injected into a net surface 18 from a water inlet on one side of a placing rack 8 and is discharged from a water outlet 17, the rest water is sprayed to the top end and the bottom end of the placing rack 8 through a water spray nozzle 7 under the action of water pressure, the effect of simultaneously spraying the top end and the bottom end of the placing rack 8 is achieved, a motor 1 is started, an output end of the motor 1 rotates to drive a fan 2 to rotate, then microcrystalline glass to be cooled is placed at the top end of the net surface 18, water spray sprayed by the water spray nozzle 7 reaches the top end and the bottom end of the microcrystalline glass to be cooled, the microcrystalline glass to be cooled is cooled, and water spray contacted, at the moment, the suction force formed by the rotation of the fan 2 drives the water vapor to move upwards to accelerate the flow speed of the water vapor, the water vapor is collected by the water collector 4, the water collector 4 can enable hot air of the cooling device to be discharged smoothly, the contact surface area of the hot air and a water baffle inside the water collector 4 is increased, the water vapor in the hot air is condensed outside the water baffle, the water collecting effect is good, the water loss is small, the water floating phenomenon is effectively reduced, meanwhile, the water circulation inside the net surface 18 enables the contact position of the microcrystalline glass to be cooled and the net surface 18 to be cooled, the high-temperature water flow discharged by the water outlet 17 and part of liquid water mist enter the water accumulation disc 10 under the action of gravity, in order to prevent the evaporated water alkali from blocking the water outlet pipe 12, the water is separated from the water alkali by the filter screen 11 and then enters the water outlet pipe 12, the water in the water outlet pipe 12 passes through the water cooler 13, and the water, the heat exchange work is carried out, the heat exchange fluid flows through the pipeline, a layer of interlayer plate is arranged in the middle of the water cooler 13 to separate the heat exchange fluid, then the fluid continuously flows between the plates to achieve the purpose of cooling hot water, and the cooled water flows into the water tank 15 to complete the circulation of the water.

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 (6)

1. The utility model provides a quick cold crystallization device of microcrystalline glass preparation, includes motor (1), its characterized in that: the bottom of the motor (1) is provided with a fan (2), the outer wall of the motor (1) is provided with a top cover (3), the bottom of the top cover (3) is provided with a tower shell (19), the inside of the tower shell (19) is provided with a water collector (4), the bottom of the tower shell (19) is provided with tower feet (9), the inner wall of the tower shell (19) is provided with a transverse water pipe (5), the inside of the tower shell (19) is positioned below the water collector (4) and is provided with a placing frame (8), one side of the tower shell (19) is provided with a water inlet pipe (14) penetrating through the inner side of the tower shell (19), one side of the transverse water pipe (5) is provided with a guide pipe (6), one side of the guide pipe (6) is provided with a water mist spray nozzle (7), the inside of the placing frame (8) is provided with a net surface (18), the bottom of the net surface (, the bottom of tower foot (9) is provided with ponding dish (10), the top of ponding dish (10) is provided with filter screen (11), and the bottom of ponding dish (10) has cup jointed outlet pipe (12), one side of outlet pipe (12) is provided with water chiller (13), one side of water chiller (13) is provided with water tank (15), one side of water tank (15) is provided with water valve (16), and the top of water tank (15) is provided with and runs through to inside inlet tube (14) of water tank (15).

2. The rapid cooling crystallization device for microcrystalline glass preparation according to claim 1, wherein: the motor (1) is rotatably connected with the fan (2) through a rotating shaft, and the motor (1) is fixed inside the top cover (3) through a support.

3. The rapid cooling crystallization device for microcrystalline glass preparation according to claim 1, wherein: the number of the transverse water pipes (5) is three, two transverse water pipes (5) are connected with the guide pipe (6), one transverse water pipe (5) is connected to one side of the water collector (4), the number of the water valves (16) is two, one water valve (16) is located on one side of the water tank (15), and one water valve (16) is located on the other side of the transverse water pipe (5).

4. The rapid cooling crystallization device for microcrystalline glass preparation according to claim 1, wherein: the number of the water mist spray heads (7) is multiple, every two water mist spray heads (7) are connected to one side of the guide pipe (6) through hot melting, and the included angle between each water mist spray head (7) and the horizontal plane is 30 degrees.

5. The rapid cooling crystallization device for microcrystalline glass preparation according to claim 1, wherein: the net surface (18) is of a hollow structure, the net surface (18) is made of a high-temperature-resistant steel plate, and a water inlet is formed in one side of the placing frame (8).

6. The rapid cooling crystallization device for microcrystalline glass preparation according to claim 1, wherein: the water inlet pipe (14) is connected with the transverse water pipe (5) in a hot melting mode, and the water accumulation disc (10) is welded at the bottom end of the tower foot (9).

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