CN212057582U - Water cooling system - Google Patents

Abstract

The invention provides a water cooling system, which comprises a water distributor and a water collector, wherein the water distributor and the water collector are communicated through a communicating pipe. According to the invention, the flow monitoring and temperature difference monitoring components are added in the system to timely feed back the data of temperature and flow speed and timely adjust to balance the whole system through the connection of all pipelines to obtain the water cooling system aiming at air conditioner cooling, so that the effect of stable output is achieved, the use is safe and convenient, and the system is suitable for large, medium and small air conditioner use areas.

Description

Water cooling system

Technical Field

The invention relates to the field of air conditioner cooling water cooling, in particular to a water cooling system.

Background

Aiming at a water cooling system of an indoor air conditioner, the prior art has poor cooling effect of the water cooling system due to unstable connection mode of the water cooling system of the air conditioner, and how to provide the water cooling system which is energy-saving and environment-friendly and has good cooling effect is a direction needing to be researched.

Disclosure of Invention

The invention provides a water cooling system, which solves the problems in the prior art.

The technical scheme of the invention is realized as follows:

the water cooling system comprises a water distributor and a water collector which are communicated through a communicating pipe, and is characterized in that the water distributor is further connected with a third chilled water supply pipe and a first chilled water supply pipe respectively, and the water collector is further connected with a first chilled water return pipe and a second chilled water return pipe respectively.

As a preferable scheme of the invention, the first chilled water return pipe is connected with a first expansion pipe through a tee joint, and the first expansion pipe is connected with a chilled water expansion tank group.

As a preferable embodiment of the present invention, a free end of the third chilled water supply pipe is connected to a centrifugal chiller, and the centrifugal chiller is further connected to a third chilled water return pipe.

In a preferred embodiment of the present invention, the third chilled water return pipe is communicated with the first chilled water return pipe through a chilled water centrifugal pump set.

In a preferred embodiment of the present invention, the centrifugal chiller is connected to a cooling water return pipe and a cooling water supply pipe through control pipes.

As a preferable scheme of the invention, the second freezing water return pipe is connected with a second freezing water return pipe through a tee joint, and the second freezing water return pipe is connected with a water plate type heat exchanger.

In a preferred embodiment of the present invention, the water plate heat exchanger is communicated with the first chilled water supply pipe through a second chilled water supply pipe.

As a preferable scheme of the present invention, the water plate heat exchanger is further connected to a medium temperature water supply pipe and a medium temperature water return pipe, respectively.

As a preferable scheme of the invention, the medium-temperature water return pipe is communicated with a second expansion pipe through a medium-temperature water horizontal centrifugal pump set, and the second expansion pipe is connected with a medium-temperature water expansion tank set.

As a preferable scheme of the present invention, a first differential pressure control pipeline is connected between the medium temperature water supply pipe and a second expansion pipe, and an emergency water replenishing port is opened on the second expansion pipe.

Has the advantages that:

the water cooling system comprises a water distributor and a water collector which are communicated through a communicating pipe, and is characterized in that the water distributor is further connected with a third chilled water supply pipe and a first chilled water supply pipe respectively, and the water collector is further connected with a first chilled water return pipe and a second chilled water return pipe respectively. According to the invention, the flow monitoring and temperature difference monitoring components are added in the system to timely feed back the data of temperature and flow speed and timely adjust to balance the whole system through the connection of all pipelines to obtain the water cooling system aiming at air conditioner cooling, so that the effect of stable output is achieved, the use is safe and convenient, and the system is suitable for large, medium and small air conditioner use areas.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the structure of the present invention.

In the figure, a water separator 1, a water collector 2, a first chilled water return pipe 21, a first expansion pipe 22, a chilled water expansion tank group 23, a second expansion pipe 3, a first differential pressure control pipeline 31, an emergency water replenishing opening 32, a medium temperature water horizontal centrifugal pump group 33, a medium temperature water expansion tank group 34, a first chilled water supply pipe 4, a second chilled water supply pipe 41, a second chilled water return pipe 5, a second chilled water return pipe 51, a third chilled water supply pipe 6, a cooling water return pipe 61, a third chilled water return pipe 7, a chilled water centrifugal pump group 71, a centrifugal water chiller 72, a cooling water supply pipe 73, a medium temperature water supply pipe 8, a water plate heat exchanger 81 and a medium temperature water return pipe 9.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The water cooling system shown in fig. 1 comprises a water distributor 1 and a water collector 2, wherein the water distributor 1 and the water collector 2 are communicated through a communicating pipe, the water distributor 1 is further connected with a third chilled water supply pipe 6 and a first chilled water supply pipe 4 respectively, and the water collector 2 is further connected with a first chilled water return pipe 21 and a second chilled water return pipe 5 respectively.

The first chilled water return pipe 21 is connected with a first expansion pipe 22 through a tee joint, and the first expansion pipe 22 is connected with a chilled water expansion tank group 23.

The free end of the third chilled water supply pipe 6 is connected to a centrifugal chiller 72, which is also connected to a third chilled water return pipe 7.

The third chilled water return pipe 7 is communicated with the first chilled water return pipe 21 through a chilled water centrifugal pump unit 71.

The centrifugal chiller 72 is connected to a cooling water return pipe 61 and a cooling water supply pipe 73 via control pipes, respectively.

The second chilled water return pipe 5 is connected with a second chilled water return pipe 51 through a tee joint, and the second chilled water return pipe 51 is connected with a water plate type heat exchanger 81.

The water plate heat exchanger 81 is communicated with the first chilled water supply pipe 4 through a second chilled water supply pipe 41.

The water plate heat exchanger 81 is also connected to a medium temperature water supply pipe 8 and a medium temperature water return pipe 9, respectively.

The medium temperature water return pipe 9 is communicated with a second expansion pipe 3 through a medium temperature water horizontal centrifugal pump set 33, and the second expansion pipe 3 is connected with a medium temperature water expansion tank set 34.

A first pressure difference control pipeline 31 is connected between the medium-temperature water supply pipe 8 and the second expansion pipe 3, and an emergency water replenishing port 32 is formed in the second expansion pipe 3.

Example 1

The water cooling system comprises a water distributor 1 and a water collector 2, wherein the water distributor 1 and the water collector 2 are communicated through a communicating pipe, the water distributor 1 is further connected with a third chilled water supply pipe 6 and a first chilled water supply pipe 4 respectively, and the water collector 2 is further connected with a first chilled water return pipe 21 and a second chilled water return pipe 5 respectively.

The first chilled water return pipe 21 is connected with a first expansion pipe 22 through a tee joint, and the first expansion pipe 22 is connected with a chilled water expansion tank group 23.

The free end of the third chilled water supply pipe 6 is connected to a centrifugal chiller 72, which is also connected to a third chilled water return pipe 7.

Wherein the third chilled water supply pipe 6 and the third chilled water return pipe 7 are provided with a pressure gauge, a thermometer and an electric two-way valve.

Example 2

The free end of the third chilled water supply pipe 6 is connected to a centrifugal chiller 72, which is also connected to a third chilled water return pipe 7.

The third chilled water return pipe 7 is communicated with the first chilled water return pipe 21 through a chilled water centrifugal pump unit 71.

Wherein a butterfly valve, a check valve, a pressure gauge, a rubber soft joint, a chilled water centrifugal pump, a Y-shaped filter and a butterfly valve which are connected in sequence are arranged in the chilled water Lixin pump group 71.

Example 3

The medium temperature water return pipe 9 is communicated with a second expansion pipe 3 through a medium temperature water horizontal centrifugal pump set 33, and the second expansion pipe 3 is connected with a medium temperature water expansion tank set 34.

Wherein, a butterfly valve, a pressure gauge, a Y-shaped filter, a pressure gauge, a rubber soft joint, a middle temperature water horizontal centrifugal pump, a rubber soft rubber head, a pressure gauge, a check valve and a butterfly valve are connected in sequence in the middle temperature water horizontal centrifugal pump set 33.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The water cooling system comprises a water distributor (1) and a water collector (2), wherein the water distributor (1) and the water collector (2) are communicated through a communicating pipe, and the water cooling system is characterized in that the water distributor (1) is further connected with a third chilled water supply pipe (6) and a first chilled water supply pipe (4) respectively, and the water collector (2) is further connected with a first chilled water return pipe (21) and a second chilled water return pipe (5) respectively.

2. The water cooling system of claim 1, wherein the first chilled water return pipe (21) is connected to a first expansion pipe (22) through a tee joint, and the first expansion pipe (22) is connected to a chilled water expansion tank set (23).

3. A water cooling system according to claim 1, characterized in that the free end of the third chilled water supply pipe (6) is connected to a centrifugal chiller (72) which is further connected to a third chilled water return pipe (7).

4. A water cooling system according to claim 3, characterized in that the third chilled water return (7) is in communication with the first chilled water return (21) via a chilled water centrifugal pump group (71).

5. The water cooling system according to claim 3, wherein the centrifugal chiller (72) is connected to a cooling water return pipe (61) and a cooling water supply pipe (73) through control pipes, respectively.

6. The water cooling system of claim 1, wherein the second chilled water return (5) is connected to a second chilled water return (51) by a tee joint, and the second chilled water return (51) is connected to a water plate heat exchanger (81).

7. Water cooling system according to claim 6, wherein the water plate heat exchanger (81) communicates with the first chilled water supply pipe (4) through a second chilled water supply pipe (41).

8. The water cooling system according to claim 6, wherein the water plate heat exchanger (81) is further connected with a medium temperature water supply pipe (8) and a medium temperature water return pipe (9), respectively.

9. The water cooling system according to claim 8, characterized in that the medium temperature water return pipe (9) is communicated with a second expansion pipe (3) through a medium temperature water horizontal centrifugal pump set (33), and the second expansion pipe (3) is connected with a medium temperature water expansion tank set (34).

10. The water cooling system according to claim 9, wherein a first pressure difference control pipeline (31) is connected between the medium temperature water supply pipe (8) and the second expansion pipe (3), and an emergency water replenishing port (32) is formed in the second expansion pipe (3).

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