CN216716714U - Circulating water cooling system is used in waterproofing membrane processing - Google Patents

Abstract

The application relates to the technical field of waterproof coiled material production equipment, in particular to a circulating water cooling system for processing a waterproof coiled material, which comprises a cooling pool, a circulating pipeline connected with the cooling pool, and a heat dissipation mechanism and a cooling mechanism which are arranged on the circulating pipeline; the circulating pump is installed on the circulating pipeline, the two ends of the circulating pipeline are fixedly connected to the side face of the cooling pool, and water in the cooling pool flows into the circulating pipeline under the driving of the circulating pump, sequentially passes through the heat dissipation mechanism and the cooling mechanism and flows back to the cooling pool. The cooling mechanism absorbs the temperature of cooling water, makes high temperature cooling water high temperature become normal atmospheric temperature cooling water, and later cooling mechanism makes normal atmospheric temperature cooling water become low cooling water absorbing the heat of normal atmospheric temperature cooling water, and low cooling water is revised at last and is flowed into the cooling tank and participate in waterproofing membrane's cooling, and this application has under the effect of heat dissipation mechanism and cooling mechanism, and the staff need not change the cooling water in the cooling tank frequently, the effect of the use of water economy resource.

Description

Circulating water cooling system is used in waterproofing membrane processing

Technical Field

The application relates to the technical field of waterproofing membrane production facility, especially, relate to a waterproofing membrane processing is with circulating water cooling system.

Background

In the production process of the waterproof roll, after the film is coated, the waterproof roll needs to be soaked in cooling water for cooling. In the cooling process, the water storage tank is filled with water, a water inlet pipe communicated with the water storage tank is fixedly arranged on the top surface of the water storage tank, a water outlet pipe communicated with the water storage tank is fixedly arranged on the bottom surface of the water storage tank, and the water can continuously enter from the water inlet pipe and then flow out from the water outlet pipe, so that circulating water is realized. During operation, whole waterproofing membrane can get into the tank, along with the continuous circulation of water to and waterproofing membrane's removal, accomplishes the cooling to waterproofing membrane.

With respect to the related art among the above, the inventors consider that there is a defect: when the temperature of cooling water is higher when carrying out waterproofing membrane cooling among the correlation technique, the cooling water just needs to be changed, at waterproofing membrane refrigerated in-process, can use a large amount of cooling water, causes the waste of water resource.

SUMMERY OF THE UTILITY MODEL

In order to reduce the use of water resource when cooling waterproofing membrane, this application provides a waterproofing membrane processing is with circulating water cooling system.

The application provides a pair of circulating water cooling system is used in waterproofing membrane processing adopts following technical scheme:

a circulating water cooling system for processing a waterproof coiled material comprises a cooling pool, a circulating pipeline connected with the cooling pool, and a heat dissipation mechanism and a cooling mechanism which are arranged on the circulating pipeline; the circulating pipeline is provided with a circulating pump, the two ends of the circulating pipeline are fixedly connected to the side surface of the cooling pool, and water in the cooling pool flows into the circulating pipeline under the driving of the circulating pump, sequentially passes through the heat dissipation mechanism and the cooling mechanism and flows back to the cooling pool.

Through adopting above-mentioned technical scheme, when cooling off waterproofing membrane, waterproofing membrane soaks in the cooling bath, and waterproofing membrane's heat transfer is to the cooling water in the cooling bath. In the cooling process, the circulating pump works to drive water in the cooling pool to continuously flow into the circulating pipeline and finally flow back to the cooling pool again, when the cooling water flows in the circulating pipeline, the heat dissipation mechanism absorbs the temperature of the cooling water at first to enable the high-temperature cooling water to be changed into normal-temperature cooling water at high temperature, then the cooling mechanism absorbs the heat of the normal-temperature cooling water to enable the normal-temperature cooling water to be changed into low-temperature cooling water, and finally the low-temperature cooling water flows into the cooling pool to assist in cooling the waterproof coiled material; under the effect of heat dissipation mechanism and cooling mechanism, the staff need not change the cooling water in the cooling bath frequently, has saved the use of water resource.

Optionally, the heat dissipation mechanism comprises a support frame and a heat dissipation box fixedly connected to the support frame; the heat dissipation box is provided with a water inlet and a water outlet, the circulating pipeline is connected with the water inlet and the water outlet, water in the circulating pipeline flows into the heat dissipation box through the water inlet, and water in the heat dissipation box flows back to the circulating pipeline through the water outlet.

By adopting the technical scheme, after the high-temperature cooling water flows into the heat dissipation box through the circulating pipeline, the heat of the high-temperature circulating water is dissipated to the external environment through the heat dissipation box, so that the temperature of the cooling water in the heat dissipation box is reduced, the high-temperature cooling water is changed into the normal-temperature cooling water, and the normal-temperature cooling water flows into the circulating pipeline again through the water outlet.

Optionally, a plurality of heating panels are fixedly connected to the side face of the heat dissipation box, and a plurality of contact grooves are formed in the inner wall of the heat dissipation box.

By adopting the technical scheme, the contact groove can increase the contact area between the cooling water and the inner wall of the heat dissipation box, simultaneously can increase the resistance of the cooling water during flowing, can increase the retention time of the cooling water in the heat dissipation box, and is beneficial to the heat dissipation box to absorb the heat of the cooling water; the heat dissipation plate can increase the contact area between the heat dissipation box and the outside air, and is favorable for dissipating the heat of the heat dissipation box to the air.

Optionally, the support frame is fixedly connected with a heat dissipation fan, and the heat dissipation fan is fixedly connected with one side of the heat dissipation box.

Through adopting above-mentioned technical scheme, radiator fan blows the air flow near the heat dissipation case to increased the radiating efficiency of heat dissipation case, be favorable to improving the cooling effect of heat dissipation case.

Optionally, the cooling mechanism includes a cooling assembly and a heat exchange assembly; the cooling assembly is connected with the heat exchange assembly, and the cooling assembly is wound on the circulating pipeline.

Through adopting above-mentioned technical scheme, when normal atmospheric temperature cooling water was through cooling mechanism, the heat of cooling water was further absorbed to the cooling subassembly to reduce the temperature of cooling water, the heat exchange assembly scatters and disappears the air with the heat that the cooling subassembly absorbed.

Optionally, the cooling assembly is a heat absorption pipeline wound on the circulation pipeline, the heat exchange assembly includes a heat dissipation pipeline, the heat absorption pipeline and the heat dissipation pipeline are connected in a tail-end manner to form a closed circulation pipeline, and the heat absorption pipeline and the heat dissipation pipeline are filled with air.

By adopting the technical scheme, the air circularly flows in the heat absorption pipeline and the heat dissipation pipeline, the air in the heat absorption pipeline absorbs the heat of the cooling water in the circulating pipeline, the temperature of the cooling water is further reduced, and when the air absorbing the heat flows to the heat dissipation pipeline, the cooling assembly dissipates the heat in the air.

Optionally, the heat exchange assembly comprises a booster pump and a pressure relief valve mounted on the heat dissipation pipeline; the booster pump is arranged at the upstream position of the pressure relief valve.

Through adopting above-mentioned technical scheme, at cooling mechanism during operation, the booster pump work, under the effect of booster pump, the air circulation in heat absorption pipeline and the heat dissipation pipeline flows, under the effect of booster pump, the air pressure between booster pump and the relief valve is higher than the pressure in other section pipelines, when highly-compressed air passes through the relief valve, the highly-compressed air pressure release, after the highly-compressed air pressure release, the air inflation, the temperature reduces, when microthermal air passes through the heat absorption pipeline, the heat of cooling water among the low temperature air absorption circulating line.

Optionally, the heat exchange assembly includes a cooling fan disposed on one side of the heat dissipation pipeline, and the cooling fan is disposed between the booster pump and the pressure release valve.

Through adopting above-mentioned technical scheme, when the air that absorbs the cooling water passes through charge pump and flows to the inside heat dissipation pipeline, the temperature of air risees, and the cooling fan blows the air flow near the heat dissipation pipeline, and the air of high temperature high pressure becomes the air of high pressure normal atmospheric temperature.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the waterproof roll is cooled, the waterproof roll is soaked in the cooling pool, and the heat of the waterproof roll is transferred to the cooling water in the cooling pool. In the cooling process, the circulating pump works to drive water in the cooling pool to continuously flow into the circulating pipeline and finally flow back to the cooling pool again, when the cooling water flows in the circulating pipeline, the heat dissipation mechanism absorbs the temperature of the cooling water at first to enable the high-temperature cooling water to be changed into normal-temperature cooling water at high temperature, then the cooling mechanism absorbs the heat of the normal-temperature cooling water to enable the normal-temperature cooling water to be changed into low-temperature cooling water, and finally the low-temperature cooling water flows into the cooling pool to assist in cooling the waterproof coiled material; under the action of the heat dissipation mechanism and the cooling mechanism, workers do not need to frequently replace cooling water in the cooling tank, so that the use of water resources is saved;

2. the air circularly flows in the heat absorption pipeline and the heat dissipation pipeline, the air in the heat absorption pipeline absorbs the heat of the cooling water in the circulating pipeline, the temperature of the cooling water is further reduced, and when the air after absorbing the heat flows to the heat dissipation pipeline, the heat in the air is dissipated to the air by the cooling assembly.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a heat dissipation box in an embodiment of the present application.

Description of reference numerals:

1. a cooling pool; 2. a circulation pipe; 21. a circulation pump; 3. a heat dissipation mechanism; 31. a support frame; 32. a heat dissipation box; 321. a water inlet; 322. a water outlet; 323. a heat dissipation plate; 324. a contact groove; 33. a heat radiation fan; 4. a cooling mechanism; 41. a cooling assembly; 42. a heat exchange assembly; 421. a heat dissipation pipe; 422. a booster pump; 423. a pressure relief valve; 424. a cooling fan.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses waterproofing membrane processing is with circulating water cooling system. Referring to fig. 1, a circulating water cooling system for processing a waterproof roll includes a cooling tank 1, a circulating pipeline 2 installed on a side surface of the cooling tank 1, and a heat dissipation mechanism 3 and a cooling mechanism 4 installed on the circulating pipeline 2. When the waterproof roll is cooled, the waterproof roll is soaked in the cooling pool 1, and the water in the cooling pool 1 absorbs the heat of the waterproof roll, so that the temperature of the waterproof roll is controlled.

When the temperature of the cooling water in the cooling pool 1 is high, the circulating pump 21 pumps the cooling water into the circulating pipeline 2, the cooling water sequentially passes through the heat dissipation mechanism 3 and the temperature reduction mechanism 4 in the flowing process of the cooling water in the circulating pipeline 2, the cooling water in the circulating pipeline 2 is cooled to the room temperature by the heat dissipation mechanism 3, the cooling water at the room temperature is reduced to the low-temperature state lower than the room temperature by the temperature reduction mechanism 4, and the cooling water at the low-temperature state flows back to the cooling pool 1 again.

Referring to fig. 1, the heat dissipation assembly includes a support bracket 31 provided at one side of a cooling bath 1, and a heat dissipation case 32 and a heat dissipation fan 33 mounted on the support bracket 31 using bolts. The heat dissipation fan 33 is disposed at one side of the heat dissipation box 32, a water inlet 321 is disposed at one side of the heat dissipation box 32, a water outlet 322 is disposed at the other side of the heat dissipation box 32, the water inlet 321 and the water outlet 322 of the heat dissipation box 32 are both connected to the circulation pipe 2, and the cooling water in the circulation pipe 2 flows into the heat dissipation box 32 through the water inlet 321 and flows into the circulation pipe 2 again through the water outlet 322.

Referring to fig. 2, a plurality of rear contact grooves 324 are opened in the inner wall of the heat dissipation case 32, and a plurality of heat dissipation plates 323 are welded to the outer side surface of the heat dissipation case 32. When the cooling water flows in the heat dissipation box 32, the contact grooves 324 can increase the contact area between the cooling water and the inner wall of the heat dissipation box 32, and can also increase the flow resistance of the cooling water, thereby prolonging the retention time of the cooling water in the heat dissipation box 32 and facilitating the heat of the cooling water to be absorbed by the heat dissipation box 32. Meanwhile, the heat dissipation plate 323 increases the contact area of the heat dissipation plate 323 with the external environment, and the heat dissipation box 32 dissipates heat to the external environment. The heat dissipation fan 33 blows air to the heat dissipation plate 323, which is beneficial to the heat dissipation box 32 to radiate heat to the external environment and is beneficial to improving the heat dissipation effect of the heat dissipation box 32.

Referring to fig. 1, the temperature reducing mechanism 4 includes a temperature reducing assembly 41 and a heat exchange assembly 42. The cooling component 41 is a heat absorption pipeline which is wound on the circulating pipeline 2. The heat exchange assembly 42 includes a heat dissipation duct 421, a booster pump 422 and a pressure relief valve 423 installed on the heat dissipation duct 421, and a cooling fan 424 provided at a side of the heat dissipation duct 421. The heat absorption pipeline and the cooling pipeline are connected end to form a closed pipeline, and air is filled in the heat absorption pipeline and the cooling pipeline. And a mounting frame is arranged on one side of the cooling pool 1, and the booster pump 422, the pressure release valve 423 and the cooling fan 424 are fixed on the mounting frame by threads.

The booster pump 422 is provided upstream of the relief valve 423, and the temperature reducing fan 424 is provided between the booster pump 422 and the relief valve 423. When the cooling mechanism 4 operates, the booster pump 422 operates and drives the circulation of air in the heat absorbing pipe and the heat dissipating pipe 421, and the air pressure in the heat dissipating pipe 421 increases during the operation of the booster pump 422. When the air with high temperature and high pressure passes through the cooling fan 424, the air with high temperature and high pressure becomes the air with high pressure at room temperature through heat radiation, when the air with high pressure at room temperature passes through the pressure release valve 423, the pressure is reduced, the volume is expanded, the temperature is reduced, when the air flows into the heat absorption pipeline from the heat dissipation pipeline 421, the air becomes the air with low pressure and low temperature, when the air with low temperature and low pressure flows in the heat absorption pipeline, the heat of the cooling water in the circulating pipeline 2 is further absorbed, and the temperature of the cooling water is further reduced.

The implementation principle of a circulating water cooling system for processing waterproof rolls in the embodiment of the application is as follows: when cooling down waterproofing membrane, the staff opens circulating pump 21 and booster pump 422, and circulating pump 21 can make the cooling water in cooling tank 1 pass through heat dissipation mechanism 3 and cooling mechanism 4 in proper order to absorb the temperature of cooling water, and then make the cooling water in cooling tank 1 be in the lower state of temperature, be favorable to improving the cooling effect of cooling tank 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a waterproofing membrane processing is with circulating water cooling system which characterized in that: comprises a cooling pool (1), a circulating pipeline (2) connected with the cooling pool (1), and a heat dissipation mechanism (3) and a cooling mechanism (4) which are arranged on the circulating pipeline (2); install circulating pump (21) on circulating line (2), the equal fixed connection in the side of cooling tank (1) in both ends of circulating line (2), the water in cooling tank (1) flows into circulating line (2) and passes through heat dissipation mechanism (3) and cooling mechanism (4) in proper order and flow back to in cooling tank (1) under the drive of circulating pump (21).

2. The circulating water cooling system for processing the waterproof roll material as claimed in claim 1, wherein: the heat dissipation mechanism (3) comprises a support frame (31) and a heat dissipation box (32) fixedly connected to the support frame (31); the water-cooling water-saving heat dissipation device is characterized in that a water inlet (321) and a water outlet (322) are formed in the heat dissipation box (32), the circulating pipeline (2) is connected with the water inlet (321) and the water outlet (322), water in the circulating pipeline (2) flows into the heat dissipation box (32) through the water inlet (321), and water in the heat dissipation box (32) flows back to the circulating pipeline (2) through the water outlet (322).

3. The circulating water cooling system for processing the waterproof roll material as claimed in claim 2, wherein: a plurality of heat dissipation plates (323) are fixedly connected to the side face of the heat dissipation box (32), and a plurality of contact grooves (324) are formed in the inner wall of the heat dissipation box (32).

4. The circulating water cooling system for processing the waterproof roll material as claimed in claim 3, wherein: the support frame (31) is fixedly connected with a heat radiation fan (33), and the heat radiation fan (33) is fixedly connected with one side of the heat radiation box (32).

5. The circulating water cooling system for processing the waterproof roll material as claimed in claim 1, wherein: the cooling mechanism (4) comprises a cooling component (41) and a heat exchange component (42); the cooling assembly (41) is connected with the heat exchange assembly (42), and the cooling assembly (41) is wound on the circulating pipeline (2).

6. The circulating water cooling system for processing the waterproof roll material as claimed in claim 5, wherein: the cooling assembly (41) is a heat absorption pipeline wound on the circulating pipeline (2), the heat exchange assembly (42) comprises a heat dissipation pipeline (421), the heat absorption pipeline and the heat dissipation pipeline (421) are connected in a tail-ending mode to form a closed circulating pipeline, and air is filled in the heat absorption pipeline and the heat dissipation pipeline (421).

7. The circulating water cooling system for processing the waterproof roll material as claimed in claim 6, wherein: the heat exchange assembly (42) comprises a booster pump (422) and a pressure relief valve (423) mounted on a heat dissipation pipe (421); the booster pump (422) is provided at a position upstream of the relief valve (423).

8. The circulating water cooling system for processing the waterproof roll material as claimed in claim 7, wherein: the heat exchange assembly (42) comprises a cooling fan (424) arranged on one side of the heat dissipation pipeline (421), and the cooling fan (424) is arranged between the booster pump (422) and the pressure release valve (423).

Images