CN205245639U - Cooling water circulation uses treatment facility - Google Patents

Abstract

The utility model discloses a cooling water circulation uses treatment facility, including first water -cooling circulation system and reserve second water -cooling circulation system, first water -cooling circulation system includes: deareator, with the main circulating pump of deareator intercommunication, with main circulating pump's tee bend switching -over valve and heating filtering component, plate heat exchanger, heater and main filter, wherein tee bend switching -over valve, the two double -phase interconnection of heating filtering component and plate heat exchanger three are led to and should be heated the flow route that filtering component can automatic switch -over water deareator 0, heater and heating filtering component intercommunication, main filter and heater intercommunication. Its small restriction that does not receive the space, have the standby cooling system, do not need when maintaining to shut down, can normally work, entire system pressure stability is guaranteed to gas in can water separation.

Description

Cooling water circulation uses treatment facility

Technical field

The utility model relates to a kind of Cycle Cool Water Treatment field, and more particularly, it relates to a kind of cooling water circulation and uses treatment facility.

Background technology

Along with the development of electron electric power, electric power modular power is increasing, its heating power is also along with increasing, the heat flow density of module is also increasing, and the type of cooling of power model also develops into cooling by water mode from the natural type of cooling, the Section Bar Heat Sinks type of cooling, the heat pipe type of cooling gradually; And what adopt at most in the type of cooling of water-cooled at present is the cooled plate type of cooling.

Cooled plate i.e. processing or assembling water channel in metallic plate, in water channel, process radiated rib, cooled plate surface installation power module, when operation, cooling water flows from water channel, the heat that power model distributes reaches radiated rib and cooling water from metallic plate, and because cooling water has high thermal capacity, therefore this cooled plate radiating mode is widely adopted at the radiating mode of high power module.

But the cooled plate type of cooling generally adopts running water cooling at present, a large amount of pure cold water just emits after cooled plate heats up, and causes serious waste.

In order to solve this technical barrier, prior art publication No. is CN104596174A, a kind of cooling-cycle device for mine power equipment is disclosed, regulate for the temperature that automatically realizes this mine power equipment, comprise a Water-cooling circulating loop, this Water-cooling circulating loop comprises a cooled plate, for reducing the operating temperature of this power equipment, and a water circulating pump and a storage tank; One detector module, this detector module is arranged in this Water-cooling circulating loop, for surveying the operational factor in this Water-cooling circulating loop; One control module, this control module is connected with this Water-cooling circulating loop and this detector module, according to this Water-cooling circulating loop of this operational factor control.

But prior art has several places shortcoming:

1, the many and function singleness of equipment component, thus cause Whole Equipment volume large; In the time installing and using, can be subject to the restriction in space;

2, only have a set of cooling system, need to shut down when plant maintenance, impact is normally worked;

3, in cooling water, can contain certain gas, it causes whole system pressure instability, produces false alarm; Also have discharge not reach specified flow.

Utility model content

The deficiency existing for prior art, the purpose of this utility model is to provide a kind of cooling water circulation to use treatment facility, the little restriction that is not subject to space of its volume; There is reserved cooling system, while maintenance, do not need to shut down, can normally work; Gas in can Separation of Water, ensures whole system pressure stability.

For achieving the above object, the utility model provides following technical scheme: cooling water circulation uses treatment facility, it is characterized in that, comprises the first water-cooling circulating system and the second water-cooling circulating system for subsequent use; Described the first water-cooling circulating system comprises: moisture trap, and it is for separating of the gas in water cooling medium;

The main circulation pump being communicated with moisture trap, it provides power for water cooling media flow;

With the three-way diverter valve of main circulation pump, it is for switching the second water-cooling circulating system;

And heating and filtering assembly, plate type heat exchanger, heater and main filter, wherein three-way diverter valve, heating and filtering assembly and plate type heat exchanger three are interconnected and can the automatically switch flow route of water cooling medium of this heating and filtering assembly between two; Described heater is communicated with heating and filtering assembly, and described main filter is communicated with heater;

While being cooled equipment low temperature: be switched to the low temperature water-cooled closed circuit being formed by moisture trap, main circulation pump, three-way diverter valve, heating and filtering assembly, heater and main filter successively according to water inlet route;

While being cooled equipment high-temperature: be switched to the high-temperature water cooling closed circuit being formed by moisture trap, main circulation pump, three-way diverter valve, plate type heat exchanger, heating and filtering assembly, heater and main filter successively according to water inlet route.

Adopt the technical program, while work at ordinary times, open wherein a set of water-cooling circulating system; When equipment will be safeguarded, can be switched to another set of water-cooling circulating system, guarantee equipment is not shut down, and normally works.

Operation principle: the equipment that is cooled produce heat with pure water by water pipe by main frame water inlet access arrangement, separate the gas in water outlet through moisture trap, enter again main circulation pump (driving source of water flow), then enter three-way diverter valve, out (now can shunt) from three-way diverter valve; While being cooled equipment low temperature state, can be switched to the low temperature water-cooled closed circuit being formed by moisture trap, main circulation pump, three-way diverter valve, heating and filtering assembly, heater and main filter; While being cooled equipment high temperature condition, can be switched to the high-temperature water cooling closed circuit being formed by moisture trap, main circulation pump, three-way diverter valve, plate type heat exchanger, heating and filtering assembly, heater and main filter.

Further preferably, also comprise water charging system, it is communicated with the first water-cooling circulating system and the second water-cooling circulating system respectively, for to the first water-cooling circulating system and the second water-cooling circulating system moisturizing.

Adopt the technical program, equipment lacks water in when debugging or system, can fill into cooling water by water charging system; Ensure the metered flow of water.

Further preferably, described water charging system comprises ion tank, and it is for removing the zwitterion of water cooling medium; With the accurate filter that ion tank is communicated with, it is for filtering removal impurity; The surge tank being communicated with accurate filter, it uses treatment facility to press equilibrium of forces for ensureing cooling water circulation.

Further preferably, described the second water-cooling circulating system includes main circulation pump for subsequent use and plate type heat exchanger for subsequent use, and the described main circulation pump for subsequent use connectivity structure in parallel with main circulation pump is located at the first water-cooling circulating system; The described plate type heat exchanger for subsequent use connectivity structure in parallel with plate type heat exchanger is located at the first water-cooling circulating system.

In the technical program, main circulation pump for subsequent use and main circulation pump, plate type heat exchanger for subsequent use and plate type heat exchanger are arranged in parallel on a Water-cooling circulating loop, thereby have formed two Water-cooling circulating loops; , normal a use, another is for subsequent use.

Compared with prior art, the beneficial effect that the utility model possesses:

1, it is simple in structure, rationally distributed, and the little restriction that is not subject to space of volume is convenient to install;

2, there is reserved cooling system, while maintenance, do not need to shut down, can normally work;

3, the gas in can Separation of Water, ensures whole system pressure stability, can not produce false alarm; Ensure that discharge can reach specified flow simultaneously;

4, have water charging system, system can be supplemented in time.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2 is the first water-cooling circulating system of the utility model embodiment and the Jiang-Wu Road schematic diagram of the second water-cooling circulating system;

Fig. 3 is the low temperature water-cooled closed circuit of the utility model embodiment and the water flow route schematic diagram of high-temperature water cooling closed circuit;

Fig. 4 is the partial structurtes schematic diagram of the utility model embodiment.

Detailed description of the invention

Referring to figs. 1 through Fig. 4, the utility model embodiment is described further.

Cooling water circulation uses treatment facility, has two water-cooling circulating systems, and Electric Appliance Cabinet 1 provides electric power for two water-cooling circulating systems. While work at ordinary times, open wherein a set of water-cooling circulating system; When equipment will be safeguarded, can be switched to another set of water-cooling circulating system, guarantee equipment is not shut down, and normally works.

With reference to Fig. 1 and 2, the first water-cooling circulating system comprises: moisture trap 3, main circulation pump 9, three-way diverter valve 13 and heating and filtering assembly 10, plate type heat exchanger 4, heater 20 and main filter 14. Main circulation pump 2 for subsequent use is arranged in parallel on the first water-cooling circulating system with plate type heat exchanger 4 with main circulation pump 9, plate type heat exchanger for subsequent use 5, has formed Article 2 water-cooling circulating system, is the second water-cooling circulating system.

See Fig. 4, moisture trap 3, it is for separating of the gas in water cooling medium. The main circulation pump 9 being communicated with moisture trap 3, it provides power for water cooling media flow. With the three-way diverter valve 13 of main circulation pump 9, it is for being switched to main circulation pump 9 main circulation pump 2 for subsequent use. Wherein three-way diverter valve 13, heating and filtering assembly 10 and plate type heat exchanger 4 threes are interconnected between two. Heater 20 is communicated with heating and filtering assembly 10, and main filter 14 is communicated with heater 20. Between each parts, all connect connection by water pipe.

With reference to figure 3, the equipment that is cooled produce heat with pure water by water pipe by main frame water inlet 18 access arrangements, separate the gas in water outlet through moisture trap 3, enter again main circulation pump 9(or main circulation pump for subsequent use 2), enter again three-way diverter valve 13, out (now can shunt by heating and filtering assembly 10 for the equipment that is cooled of different temperatures from three-way diverter valve 13; Heating and filtering assembly 10 comprises three-way ball and YE (on figure depending on not going out). There are two flow channels heating and filtering assembly 10 inside, and one is to be communicated with three-way diverter valve 13 and heater 20; Another is to be communicated with plate type heat exchanger 4(or plate type heat exchanger for subsequent use 5) and heater 20. YE can be controlled three-way ball and change its inner flow route). Circuit 1 flows to heating and filtering assembly 10 by three-way diverter valve 13; Circuit 2 flows to plate type heat exchanger 4(or plate type heat exchanger for subsequent use 5 by three-way diverter valve 13); Circuit 3 is by plate type heat exchanger 4(or plate type heat exchanger for subsequent use 5) flow to heating and filtering assembly 10.

Be cooled equipment sometimes in low-temperature condition sometimes in the condition of high temperature. YE can be controlled three-way ball according to the temperature conditions of surveying and change route. (as just started working time in low-temperature condition, along with increasing of working application time, the temperature of equipment can be more and more higher) that is when being cooled equipment low temperature state, YE can be controlled three-way ball and cut off route 2 and route 3, is switched to the low temperature water-cooled closed circuit being made up of moisture trap 3, main circulation pump 9, three-way diverter valve 13, heating and filtering assembly 10, heater 20 and main filter 14; This road enters heating and filtering assembly 10 and flow out from main frame delivery port 19 equipment of being cooled that enters after heater 20, main filter 14 filters from three-way diverter valve 13 water out. When being cooled equipment high temperature condition, YE can be controlled three-way ball and cut off route 1, is switched to by moisture trap 3, main circulation pump 9, three-way diverter valve 13, plate type heat exchanger 4(or plate type heat exchanger for subsequent use 5), the high-temperature water cooling closed circuit that forms of heating and filtering assembly 10, heater 20 and main filter 14. This road enters plate type heat exchanger 4, heating and filtering assembly 10 and flow out from main frame delivery port 19 equipment of being cooled that enters after heater 20, main filter 14 filters from three-way diverter valve 13 water out. Wherein, plate type heat exchanger 4 and plate type heat exchanger for subsequent use 5 are all connected with outer water filter 15. Also be provided with and the outer water filter 15 for subsequent use outer water filter 16 being communicated with in parallel.

Equipment lacks water in when debugging or system, can be supplemented in time. In the first water-cooling circulating system and the second water-cooling circulating system, be provided with water charging system.

Water charging system comprises ion tank 6, and it is for removing the zwitterion of water cooling medium; The accurate filter 8 being communicated with ion tank 6, it is for filtering removal impurity; The surge tank 7 being communicated with accurate filter 8, it uses treatment facility to press equilibrium of forces for ensureing cooling water circulation.

When maintenance heating and filtering assembly 10 or more enable reserve filter 11 when renew cartridge; Outer water entrance 17 connects external refrigeration tower and carries out cooling; System is in running, and part water enters ion tank 6 and enters accurate filter 8 again, enters surge tank 7 after filtration, then flows into system stroke partial circulating; When system lack of water by small pump moisturizing. Wherein, in water charging system, also there is water charging system for subsequent use. Also connect with ion tank 6 the ion tank 6 for subsequent use arranging, turn on water charging system.

The above is only preferred embodiment of the present utility model, and protection domain of the present utility model is also not only confined to above-described embodiment, and all technical schemes belonging under the utility model thinking all belong to protection domain of the present utility model. It should be pointed out that for those skilled in the art, in the some improvements and modifications that do not depart under the utility model principle prerequisite, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (4)

1. cooling water circulation uses treatment facility, it is characterized in that, comprises the first water-cooling circulating system and the second water-cooling circulating system for subsequent use; Described the first water-cooling circulating system comprises: moisture trap, and it is for separating of the gas in water cooling medium;

The main circulation pump being communicated with moisture trap, it provides power for water cooling media flow;

With the three-way diverter valve of main circulation pump, it is for switching the second water-cooling circulating system;

And heating and filtering assembly, plate type heat exchanger, heater and main filter, wherein three-way diverter valve, heating and filtering assembly and plate type heat exchanger three are interconnected and can the automatically switch flow route of water cooling medium of this heating and filtering assembly between two; Described heater is communicated with heating and filtering assembly, and described main filter is communicated with heater;

While being cooled equipment low temperature: be switched to the low temperature water-cooled closed circuit being formed by moisture trap, main circulation pump, three-way diverter valve, heating and filtering assembly, heater and main filter successively according to water inlet route;

While being cooled equipment high-temperature: be switched to the high-temperature water cooling closed circuit being formed by moisture trap, main circulation pump, three-way diverter valve, plate type heat exchanger, heating and filtering assembly, heater and main filter successively according to water inlet route.

2. cooling water circulation according to claim 1 uses treatment facility, it is characterized in that, also comprise water charging system, it is communicated with the first water-cooling circulating system and the second water-cooling circulating system respectively, for to the first water-cooling circulating system and the second water-cooling circulating system moisturizing.

3. cooling water circulation according to claim 2 uses treatment facility, it is characterized in that, described water charging system comprises ion tank, and it is for removing the zwitterion of water cooling medium; With the accurate filter that ion tank is communicated with, it is for filtering removal impurity; The surge tank being communicated with accurate filter, it uses treatment facility to press equilibrium of forces for ensureing cooling water circulation.

4. cooling water circulation according to claim 1 uses treatment facility, it is characterized in that, described the second water-cooling circulating system includes main circulation pump for subsequent use and plate type heat exchanger for subsequent use, and the described main circulation pump for subsequent use connectivity structure in parallel with main circulation pump is located at the first water-cooling circulating system; The described plate type heat exchanger for subsequent use connectivity structure in parallel with plate type heat exchanger is located at the first water-cooling circulating system.