CN213020488U - Industrial cooling water internal circulation system - Google Patents

Abstract

An industrial cooling water internal circulation system comprises a reservoir, equipment to be cooled and a circulating water tank, wherein a water supplementing pipeline and a water outlet pipeline which are connected with a water source are arranged on the reservoir, a water outlet pump and a plurality of soft water inlet pipes are arranged on the water outlet pipeline, each soft water inlet pipe is connected with a plurality of equipment to be cooled, a plurality of equipment to be cooled is arranged on the equipment to be cooled, a soft water inlet communicated with the soft water inlet pipes is formed in the circulating water tank, a plurality of soft water outlet pipes corresponding to the soft water inlet pipes are arranged on the circulating water tank, a plurality of soft water outlets communicated with the soft water outlet pipes are formed in the equipment to be cooled, the bottom of the circulating water tank is provided with the circulating pipeline, a circulating pump and a warm water tank are arranged on the circulating pipeline, the warm water tank is connected with the reservoir through a; the utility model has the advantages of simple structure, reasonable design, cooling water cyclic utilization, river course and environment pollution avoidance, etc.

Description

Industrial cooling water internal circulation system

Technical Field

The utility model relates to an industry cooling water inner circulating system.

Background

In the industrial production process, in order to ensure the production efficiency and the production progress, production equipment needs to be cooled by cooling water so as to avoid the influence on the production caused by overhigh temperature of the equipment; the cooling water is because the high temperature after using, directly discharges and causes the pollution to river course and environment easily, and industrial production is higher to the cooling water demand moreover, if the cooling water all directly discharges after using also can cause some unnecessary wastes.

Disclosure of Invention

The utility model aims to solve the defects of the prior art, the utility model provides a simple structure, reasonable in design, can be the industrial cooling water internal circulation system that cooling water cyclic utilization, avoid polluting river course and environment.

The utility model provides a technical scheme that its technical problem adopted is: an industrial cooling water internal circulation system comprises a reservoir, equipment to be cooled and a circulating water tank, wherein a water replenishing pipeline connected with a water source is arranged on the reservoir, a water outlet pipeline is arranged at the bottom of the reservoir, a water outlet pump is arranged at one end, close to the reservoir, of the water outlet pipeline, one end, far away from the reservoir, of the water outlet pipeline is connected with a plurality of soft water inlet pipes, each soft water inlet pipe is connected with a plurality of equipment to be cooled and a plurality of equipment to be cooled, soft water inlets communicated with the soft water inlet pipes are arranged on the equipment to be cooled, a plurality of soft water outlet pipes corresponding to the soft water inlet pipes are arranged on the circulating water tank, a plurality of soft water outlets communicated with the soft water outlet pipes corresponding to the soft water inlet pipes are arranged on the equipment to be cooled, a circulating pipeline is arranged at the bottom of the circulating water tank, and a circulating pump is arranged, the one end that circulating line kept away from the circulating water pond is connected with warm water tank, the import of warm water tank is connected to circulating line, the exit of warm water tank is connected with the cistern through recovery pipeline, recovery pipeline is equipped with a plurality of cooling towers between warm water tank and cistern in proper order.

Preferably, a flow sensor, a first pressure sensor and a first water inlet valve are arranged on the water replenishing pipeline.

Preferably, the water outlet pipeline is provided with a first one-way valve and a second pressure sensor between the soft water inlet pipe and the water outlet pump.

Preferably, a second water inlet valve is arranged at the position, close to the inlet of the warm water tank, of the circulating pipeline, a transition pipeline connected with one end, close to the warm water tank, of the recovery pipeline is arranged on one side, close to the circulating water tank, of the second water inlet valve of the circulating pipeline, and a third water inlet valve is arranged on the transition pipeline.

Preferably, a second one-way valve and a third pressure sensor are arranged between the warm water tank and the circulating pump in the circulating pipeline.

Preferably, two cooling towers are sequentially arranged between the warm water tank and the reservoir, and a first temperature sensor is arranged between every two adjacent cooling towers.

Preferably, the inlet of the cooling tower is located at the lower side of the outlet.

Preferably, the recovery pipeline is provided with an automatic exhaust valve between the cooling tower and the water reservoir.

Preferably, the reservoir, the circulating water tank, the warm water tank and the cooling tower are all provided with a second temperature sensor and a fourth pressure sensor.

The utility model discloses a cistern connects many soft water inlet pipes and cools off the back to many equipment to be cooled, is retrieved to the circulating water pond by the soft water outlet pipe in, and continuous cooling through warm water tank and cooling tower is that the cooling water discharges to the cistern and recycles after reducing the normal atmospheric temperature, has not only improved the utilization ratio of cooling water, avoids the energy waste that the cooling water direct discharge caused, has also avoided directly discharging the cooling water of high temperature to lead to the fact the condition emergence of river course and environmental pollution; the utility model has the advantages of simple structure, reasonable design, cooling water cyclic utilization, river course and environment pollution avoidance, etc.

Drawings

Fig. 1 is a schematic view of the overall structure of the embodiment of the present invention.

In the figure: 1. a reservoir; 2. equipment to be cooled; 3. a circulating water tank; 4. a water replenishing pipeline; 5. a water outlet pipeline; 6. discharging the water pump; 7. a soft water inlet pipe; 8. a soft water inlet; 9. a soft water outlet pipe; 10. a soft water outlet; 11. a circulation pipe; 12. a circulation pump; 13. a warm water tank; 14. a recovery pipeline; 15. a cooling tower; 16. a flow sensor; 17. a first pressure sensor; 18. a first water inlet valve; 19. a first check valve; 20. a second pressure sensor; 21. a second water inlet valve; 22. a transition duct; 23. a third water inlet valve; 24. a second one-way valve; 25. a third pressure sensor; 26. a first temperature sensor; 27. an automatic exhaust valve; 28. a second temperature sensor; 29. and a fourth pressure sensor.

Detailed Description

The technical solution of the present invention is further specifically described below by way of specific embodiments and with reference to the accompanying drawings.

Example (b):

as shown in fig. 1, the internal circulation system of industrial cooling water comprises a reservoir 1, equipment to be cooled 2 and a circulating water tank 3, wherein a water replenishing pipeline 4 connected with a water source is arranged on the reservoir 1, and a flow sensor 16, a first pressure sensor 17 and a first water inlet valve 18 are arranged on the water replenishing pipeline 4; a water outlet pipeline 5 is arranged at the bottom of the water storage tank 1, a water outlet pump 6 is arranged at one end of the water outlet pipeline 5 close to the water storage tank 1, one end of the water outlet pipeline 5 far away from the water storage tank 1 is connected with a plurality of soft water inlet pipes 7, and a first check valve 19 and a second pressure sensor 20 are arranged between the soft water inlet pipes 7 and the water outlet pump 6 of the water outlet pipeline 5; each soft water inlet pipe 7 is connected with a plurality of devices to be cooled 2, and soft water inlets 8 communicated with the soft water inlet pipes 7 are formed in the plurality of devices to be cooled 2; the circulating water tank 3 is provided with a plurality of soft water outlet pipes 9 corresponding to the soft water inlet pipes 7, and a plurality of the equipment to be cooled 2 on the same soft water inlet pipe 7 are provided with soft water outlets 10 communicated with the soft water outlet pipes 9 corresponding to the soft water inlet pipes 7; a circulating pipeline 11 is arranged at the bottom of the circulating water tank 3, a circulating pump 12 is arranged at one end of the circulating pipeline 11 close to the circulating water tank 3, one end of the circulating pipeline 11 far away from the circulating water tank 3 is connected with a warm water tank 13, the circulating pipeline 11 is connected with an inlet of the warm water tank 13, a second one-way valve 24 and a third pressure sensor 25 are arranged between the warm water tank 13 and the circulating pump 12 of the circulating pipeline 11, an outlet of the warm water tank 13 is connected with the water storage tank 1 through a recovery pipeline 14, two cooling towers 15 are sequentially arranged between the warm water tank 13 and the water storage tank 1, a first temperature sensor 26 is arranged between every two adjacent cooling towers 15, the inlet of each cooling tower 15 is positioned at the lower side of the outlet, and an automatic exhaust valve 27 is arranged between each cooling tower 15 and the water storage tank 1; a second water inlet valve 21 is arranged at the position, close to the inlet of the warm water tank 13, of the circulating pipeline 11, a transition pipeline 22 connected with one end, close to the warm water tank 13, of the recovery pipeline 14 is arranged on one side, close to the circulating water tank 3, of the second water inlet valve 21 of the circulating pipeline 11, and a third water inlet valve 23 is arranged on the transition pipeline 22; and a second temperature sensor 28 and a fourth pressure sensor 29 are arranged on the water storage tank 1, the circulating water tank 3, the warm water tank 13 and the cooling tower 15.

The above-described embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention in any way, and other variations and modifications may be made without departing from the scope of the claims.

Claims (9)

1. An industrial cooling water internal circulation system is characterized in that: including cistern (1), treat cooling arrangement (2), circulating water pond (3), be equipped with moisturizing pipeline (4) of connecting the water source on cistern (1), the bottom of cistern (1) is equipped with outlet conduit (5), outlet conduit (5) are close to cistern (1) one end and are equipped with out water pump (6), outlet conduit (5) are kept away from cistern (1) one end and are connected a plurality of soft water inlet tube (7), every all be connected with a plurality of on soft water inlet tube (7) and treat cooling arrangement (2), a plurality of treat that all be equipped with soft water import (8) with soft water inlet tube (7) UNICOM on cooling arrangement (2), be equipped with a plurality of on circulating water pond (3) and soft water inlet tube (7) corresponding soft water outlet pipe (9), a plurality of on same soft water inlet tube (7) treat that all be equipped with the soft water outlet pipe (9) UNICOM corresponding with this soft water inlet tube (7) on cooling arrangement (2) Soft water export (10), the bottom in circulating water pond (3) is equipped with circulating line (11), the one end that circulating line (11) are close to circulating water pond (3) is equipped with circulating pump (12), the one end that circulating water pond (3) were kept away from in circulating line (11) is connected with warm water tank (13), the import of warm water tank (13) is connected in circulating line (11), the exit of warm water tank (13) is connected with cistern (1) through recovery pipeline (14), recovery pipeline (14) are equipped with a plurality of cooling towers (15) between warm water tank (13) and cistern (1) in proper order.

2. The industrial cooling water internal circulation system according to claim 1, wherein: and a flow sensor (16), a first pressure sensor (17) and a first water inlet valve (18) are arranged on the water replenishing pipeline (4).

3. The industrial cooling water internal circulation system according to claim 1, wherein: and a first check valve (19) and a second pressure sensor (20) are arranged between the soft water inlet pipe (7) and the water outlet pump (6) of the water outlet pipeline (5).

4. The industrial cooling water internal circulation system according to claim 1, wherein: a second water inlet valve (21) is arranged at the position, close to the inlet of the warm water tank (13), of the circulating pipeline (11), a transition pipeline (22) connected with one end, close to the warm water tank (13), of the recovery pipeline (14) is arranged on one side, close to the circulating water tank (3), of the second water inlet valve (21) of the circulating pipeline (11), and a third water inlet valve (23) is arranged on the transition pipeline (22).

5. The industrial cooling water internal circulation system according to claim 1, wherein: and a second one-way valve (24) and a third pressure sensor (25) are arranged between the warm water tank (13) and the circulating pump (12) of the circulating pipeline (11).

6. The industrial cooling water internal circulation system according to claim 1, wherein: two cooling towers (15) are sequentially arranged between the warm water tank (13) and the reservoir (1), and a first temperature sensor (26) is arranged between two adjacent cooling towers (15).

7. The industrial cooling water internal circulation system according to claim 1, wherein: the inlet of the cooling tower (15) is positioned at the lower side of the outlet.

8. The industrial cooling water internal circulation system according to claim 1, wherein: the recovery pipeline (14) is provided with an automatic exhaust valve (27) between the outlet of the cooling tower (15) and the water storage tank (1).

9. The industrial cooling water internal circulation system according to claim 1, wherein: and a second temperature sensor (28) and a fourth pressure sensor (29) are arranged on the water storage tank (1), the circulating water tank (3), the warm water tank (13) and the cooling tower (15).

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