CN207035545U - Efficient segmented Control device of liquid cooling - Google Patents

Abstract

The utility model, which discloses a kind of efficiently segmented Control device of liquid cooling, the cooling device, to be included：At least two sections of refrigeration units, every section of refrigeration unit include heat exchanger, water pump；Surge tank is provided between two sections of refrigeration units；In multi-sectional refrigerating unit, adjacent heat exchange device is sequentially connected in series；The heat exchanger is respectively equipped with first entrance, first outlet, second entrance, second outlet, and first entrance, first outlet are used for the liquid communication that is cooled；Second entrance, second outlet circulate for refrigerant.The utility model proposes a kind of mode of efficiently segmented cooling liquid, it can play a part of energy-conservation by way of efficient segmented cooling liquid, refrigerating efficiency can be improved, reduce energy consumption.

Description

Efficient segmented Control device of liquid cooling

Technical field

The utility model belongs to liquid cooling technical field, is related to a kind of Control device of liquid cooling, more particularly to a kind of efficient Segmented Control device of liquid cooling.

Background technology

The process of tradition cooling high-temp liquid is one-part form cooling, and refrigerant side evaporating pressure is low, and evaporating temperature is low, heat exchange The temperature difference is big, and compressor efficiency causes high energy consumption during cooling liquid than relatively low.New two-part refrigeration, by temperature-fall period point Into two-part, the heat transfer temperature difference of heat exchanger is reduced, lifts the efficiency of compressor.

But not necessarily stablize due to the water temperature of actual temperature-fall period high temperature liquid, flow, fluctuation be present, Cause to exchange heat load fluctuation change greatly so that compressor cooling is less efficient.

In view of this, nowadays there is an urgent need to design a kind of new efficient sub-sectional cooling liquid mode, to overcome existing point Drawbacks described above existing for section cooling liquid mode.

Utility model content

Technical problem to be solved in the utility model is：A kind of efficiently segmented Control device of liquid cooling is provided, can be improved Refrigerating efficiency, reduce energy consumption.

In order to solve the above technical problems, the utility model adopts the following technical scheme that：

A kind of efficiently segmented Control device of liquid cooling, the cooling device include：One section of water pump, one section of heat exchanger, two sections Water pump, two sections of heat exchangers, surge tanks；

The entrance of high-temp liquid one section of water pump of connection, the first entrance of one section of heat exchanger of outlet connection of one section of water pump, one The first outlet of section heat exchanger connects the entrance of surge tank, two sections of water pumps respectively；The second entrance of one section of heat exchanger, second Export as refrigerant side, connect refrigerant water influent pipeline, refrigerant drain pipe road respectively；

The first entrance of one section of heat exchanger is connected with the first outlet of one section of heat exchanger by the first pipeline, and one section is changed The second entrance of hot device is connected with the second outlet of one section of heat exchanger by the second pipeline；High-temp liquid is after by one section of water pump Into in one section of heat exchanger, exchanged heat with the refrigerant of the refrigerant side in one section of heat exchanger；

Second entrance, the second outlet of two sections of heat exchangers are refrigerant side, connect refrigerant water influent pipeline, system respectively Cryogen drain pipe road；

The first entrance of two sections of heat exchangers is connected with the first outlet of two sections of heat exchangers by the 3rd pipeline, and two sections are changed The second entrance of hot device is connected with the second outlet of two sections of heat exchangers by the 4th pipeline；

Liquid after one section of heat exchanger cools is entered in two sections of heat exchangers by two sections of water pumps, and in two sections of heat exchangers The refrigerant of refrigerant side exchanged heat.

As a kind of preferred scheme of the present utility model, after the high-temp liquid becomes cooling completely after cooling twice Liquid.

One section of temperature is provided with as a kind of preferred scheme of the present utility model, at the first outlet of one section of heat exchanger to pass Sensor.

Two sections of temperature are provided with as a kind of preferred scheme of the present utility model, at the first outlet of two sections of heat exchangers to pass Sensor.

As a kind of preferred scheme of the present utility model, the evaporator refrigerant temperature and two of one section of heat exchanger refrigerant side The evaporator refrigerant temperature of section heat exchanger refrigerant side is different, and the evaporator refrigerant temperature of one section of heat exchanger refrigerant side changes higher than two sections The evaporator refrigerant temperature of hot device refrigerant side.

As a kind of preferred scheme of the present utility model, the high-temp liquid enters one section of heat exchanger via one section of water pump First entrance.

As a kind of preferred scheme of the present utility model, the high-temp liquid after one section of heat exchanger cools down is via two Section water pump enters the first entrance of two sections of heat exchangers.

As a kind of preferred scheme of the present utility model, the surge tank is arranged at one section of heat exchanger and two sections of water pumps Between.

A kind of efficiently segmented Control device of liquid cooling, the efficiently segmented Control device of liquid cooling include：At least two sections systems Cold unit, every section of refrigeration unit include heat exchanger, water pump；In multi-sectional refrigerating unit, adjacent heat exchange device is sequentially connected in series；

The heat exchanger is respectively equipped with first entrance, first outlet, second entrance, second outlet, and first entrance, first go out Mouth is used for the liquid communication that is cooled；Second entrance, second outlet circulate for refrigerant.

The beneficial effects of the utility model are：The utility model proposes efficient segmented Control device of liquid cooling, pass through The mode of efficient segmented cooling liquid can play a part of energy-conservation, can improve refrigerating efficiency, reduce energy consumption.

Brief description of the drawings

Fig. 1 is the principle schematic of the efficient segmented Control device of liquid cooling of the utility model.

Fig. 2 is the principle schematic of efficient segmented Control device of liquid cooling in embodiment two.

In figure：

Mono- section of 1-, mono- section of water pump 2-, mono- section of temperature sensor of heat exchanger 3-

Bis- sections of 4-, bis- sections of water pump 5-, bis- sections of temperature sensors of heat exchanger 6-

Mono- section of 7- surge tanks 10-, bis- sections of temperature sensor 11- temperature sensors

Mono- section of 21-, mono- section of compressor 22-, mono- section of gas-liquid separator of compressor 23-

Bis- sections of 24-, 25 1 sections of gas-liquid separator, bis- sections of water pumps of water pump 26-

Mono- section of 27-, bis- sections of heat exchanger 28- heat exchanger 29- surge tanks

Embodiment

Describe preferred embodiment of the present utility model in detail below in conjunction with the accompanying drawings.

Embodiment one

Referring to Fig. 1, the utility model discloses a kind of efficiently segmented Control device of liquid cooling, the efficiently segmented is cold But the mode of liquid includes：One section of 1, one section of water pump, 2, one sections of heat exchanger, 3, two sections of temperature sensor, 4, two sections of water pump heat exchanger 5, Two sections of temperature sensors 6, surge tank 7.

High-temp liquid connects the entrance of one section of water pump 1, and the outlet of one section of water pump 1 connects the first entrance of one section of heat exchanger 2, The first outlet of one section of heat exchanger 2 connects the entrance of 7, two sections of water pumps 4 of surge tank respectively；The second of one section of heat exchanger 2 enters Mouth, second outlet are refrigerant side, connect refrigerant water influent pipeline, refrigerant drain pipe road respectively.

The first entrance of one section of heat exchanger 2 is connected with the first outlet of one section of heat exchanger 2 by the first pipeline, one section The second entrance of heat exchanger 2 is connected with the second outlet of one section of heat exchanger 2 by the second pipeline；High-temp liquid is passing through one section of water Enter after pump 1 in one section of heat exchanger 2, exchanged heat with the refrigerant of the refrigerant side in one section of heat exchanger 2.

Second entrance, the second outlet of two sections of heat exchangers 5 are refrigerant side, connect respectively refrigerant water influent pipeline, Refrigerant drain pipe road.

The first entrance of two sections of heat exchangers 5 is connected with the first outlet of two sections of heat exchangers 5 by the 3rd pipeline, two sections The second entrance of heat exchanger 5 is connected with the second outlet of two sections of heat exchangers 5 by the 4th pipeline.

Liquid after one section of heat exchanger 2 cools is entered in two sections of heat exchangers 5 by two sections of water pumps 1, with two sections of heat exchange The refrigerant of refrigerant side in device 5 is exchanged heat.

The high-temp liquid becomes liquid after cooling completely after cooling twice.

It is provided with one section of temperature sensor 3 at the first outlet of one section of heat exchanger 2, the first of two sections of heat exchangers 5 Exit is provided with two sections of temperature sensors 6.

The evaporator refrigerant temperature of one section of heat exchanger 2 refrigerant side and the refrigerant evaporation of two sections of refrigerant sides of heat exchanger 5 Temperature is different.

The high-temp liquid enters the first entrance of one section of heat exchanger 2 via one section of water pump 1.It is cold by one section of heat exchanger 2 But the high-temp liquid after enters the first entrance of two sections of heat exchangers 5 via two sections of water pumps 4.One section of heat exchanger 2 and two sections of water pumps 4 it Between be provided with surge tank 7.

In the present embodiment, the evaporator refrigerant temperature of one section of heat exchanger 2 refrigerant side is higher than two sections of refrigerants of heat exchanger 5 The evaporator refrigerant temperature of side.

Embodiment two

Referring to Fig. 2, the utility model discloses a kind of device of efficient segmented ice making water in beer industry, mainly set It is standby to include compressor, gas-liquid separator, heat exchanger, water pump, surge tank.It is characterized in that carry out self-water-supplying end water temperature at 25 DEG C -32 Raw water between DEG C first passes through one section of water pump 25 and entered in one section of heat exchanger 27, enters with carrying out the refrigerant in one section of gas-liquid separator 23 Row heat exchange, after the greenhouse cooling of the raw water after heat exchange between 25 DEG C -32 DEG C to the raw water heat exchange between 16 DEG C, with 25 DEG C -32 DEG C Refrigerant return in one section of gas-liquid separator 23, wherein liquid refrigerants continues into one section of heat exchanger 27 and exchanged heat, gaseous state Refrigerant compression is drawn back by one section of compressor 21.16 DEG C of raw waters after one section of cooling of ice enter two sections by two sections of water pumps 26 In heat exchanger 28, exchanged heat with carrying out the refrigerant in two sections of gas-liquid separators 24.Wherein, one section of heat exchanger 27 and two sections of water pumps 26 Between be provided with surge tank 29.For the greenhouse cooling of 16 DEG C of raw waters after heat exchange to 2 DEG C, the refrigerant after being exchanged heat with 16 DEG C of raw waters returns to two In section gas-liquid separator 24, wherein liquid refrigerants continues into two sections of heat exchangers 28 and exchanged heat, and gaseous refrigerant is by one section Compressor 22 draws back compression.

The utility model includes the refrigeration system of two different cooling conditions.Their evaporating temperature is different；They cold Solidifying temperature is identical.

One section of temperature sensor 10 is provided with the first outlet of one section of heat exchanger 27, at the first outlet of two sections of heat exchangers 28 Provided with two sections of temperature sensors 11 exit water temperature is changed for control panel.

Embodiment three

A kind of efficiently segmented Control device of liquid cooling, the efficiently segmented Control device of liquid cooling include：At least two sections systems Cold unit, every section of refrigeration unit include heat exchanger, water pump；In multi-sectional refrigerating unit, adjacent heat exchange device is sequentially connected in series；

The heat exchanger is respectively equipped with first entrance, first outlet, second entrance, second outlet, and first entrance, first go out Mouth is used for the liquid communication that is cooled；Second entrance, second outlet circulate for refrigerant.

The mode of the efficient segmented cooling liquid of the utility model can include two sections of refrigeration units, can also include three sections Or more than three sections refrigeration units.

In summary, the utility model proposes efficient segmented Control device of liquid cooling, pass through efficient segmented coolant The mode of body can play a part of energy-conservation, can improve refrigerating efficiency, reduce energy consumption.

Here description and application of the present utility model are illustrative, are not wishing to the scope of the utility model being limited in State in embodiment.The deformation and change of embodiments disclosed herein are possible, for the ordinary skill people of those this areas The replacement of embodiment and equivalent various parts are known for member.It should be appreciated by the person skilled in the art that do not taking off In the case of spirit or essential characteristics of the present utility model, the utility model can in other forms, structure, arrangement, ratio, And realized with other components, material and part., can be to this in the case where not departing from the scope of the utility model and spirit In disclosed embodiment carry out other deformations and change.

Claims (9)

1. a kind of efficiently segmented Control device of liquid cooling, it is characterised in that the cooling device includes：One section of water pump (1), one section Heat exchanger (2), two sections of water pumps (4), two sections of heat exchangers (5), surge tank (7)；

High-temp liquid connects the entrance of one section of water pump (1), and the outlet of one section of water pump (1) connects the first of one section of heat exchanger (2) and entered Mouthful, the first outlet of one section of heat exchanger (2) connects surge tank (7), the entrance of two sections of water pumps (4) respectively；One section of heat exchanger (2) second entrance, second outlet is refrigerant side, connects refrigerant water influent pipeline, refrigerant drain pipe road respectively；

The first entrance of one section of heat exchanger (2) is connected with the first outlet of one section of heat exchanger (2) by the first pipeline, one section The second entrance of heat exchanger (2) is connected with the second outlet of one section of heat exchanger (2) by the second pipeline；High-temp liquid is passing through one Section water pump (1) enters in one section of heat exchanger (2) afterwards, is exchanged heat with the refrigerant of the refrigerant side in one section of heat exchanger (2)；

Second entrance, the second outlet of two sections of heat exchangers (5) are refrigerant side, connect refrigerant water influent pipeline, system respectively Cryogen drain pipe road；

The first entrance of two sections of heat exchangers (5) is connected with the first outlet of two sections of heat exchangers (5) by the 3rd pipeline, two sections The second entrance of heat exchanger (5) is connected with the second outlet of two sections of heat exchangers (5) by the 4th pipeline；

Liquid after one section of heat exchanger (2) cools is entered in two sections of heat exchangers (5) by two sections of water pumps, with two sections of heat exchangers (5) refrigerant of the refrigerant side in is exchanged heat.

2. efficiently segmented Control device of liquid cooling according to claim 1, it is characterised in that：

The high-temp liquid becomes liquid after cooling completely after cooling twice.

3. efficiently segmented Control device of liquid cooling according to claim 1, it is characterised in that：

One section of temperature sensor (3) is provided with the first outlet of one section of heat exchanger.

4. efficiently segmented Control device of liquid cooling according to claim 1, it is characterised in that：

Two sections of temperature sensors (6) are provided with the first outlet of two sections of heat exchangers.

5. efficiently segmented Control device of liquid cooling according to claim 1, it is characterised in that：

The evaporator refrigerant temperature of one section of heat exchanger refrigerant side and the evaporator refrigerant temperature of two sections of heat exchanger refrigerant sides are not Together, evaporator refrigerant temperature of the evaporator refrigerant temperature of one section of heat exchanger refrigerant side higher than two sections of heat exchanger refrigerant sides.

6. efficiently segmented Control device of liquid cooling according to claim 1, it is characterised in that：

The high-temp liquid enters the first entrance of one section of heat exchanger via one section of water pump.

7. efficiently segmented Control device of liquid cooling according to claim 1, it is characterised in that：

The high-temp liquid after one section of heat exchanger cools down enters the first entrance of two sections of heat exchangers via two sections of water pumps.

8. efficiently segmented Control device of liquid cooling according to claim 1, it is characterised in that：

The surge tank is arranged between one section of heat exchanger and two sections of water pumps.

9. a kind of efficiently segmented Control device of liquid cooling, it is characterised in that the efficiently segmented Control device of liquid cooling includes：Extremely Few two sections of refrigeration units, every section of refrigeration unit include heat exchanger, water pump；In multi-sectional refrigerating unit, adjacent heat exchange device is gone here and there successively Connection；

The heat exchanger is respectively equipped with first entrance, first outlet, second entrance, second outlet, and first entrance, first outlet are used In cooled liquid communication；Second entrance, second outlet circulate for refrigerant.