CN208336839U - A kind of parallel water cooling system of reactor - Google Patents

Abstract

The utility model discloses a kind of parallel water cooling system of reactor, including cabinet body, interior of the cabinet are provided with pusher side reactor and network reactor, and pusher side reactor and network reactor are adjacent and the bottom of cabinet body is arranged in parallel；It further include blower and water wind heat exchanger；Water wind heat exchanger is positioned close to the side of pusher side reactor, and wind chamber is provided between water wind heat exchanger and pusher side reactor；Blower is fixed on water wind heat exchanger, and the air inlet of the air outlet face water wind heat exchanger of blower；The parallel water cooling system of reactor can high efficiency and heat radiation, and at low cost, high reliablity.

Description

A kind of parallel water cooling system of reactor

Technical field

The utility model relates to device cooling technique field, in particular to a kind of parallel water cooling system of reactor.

Background technique

As the power grade of electric cabinet is increasing, the heat dissipation importance of electrical equipment is also more prominent, especially right It is required in the heat dissipation solution of the big calorific value such as reactor or transformer higher and higher.If reactor can not be solved effectively The heat dissipation problem of the big fever metering device of class, not only results in reactor class device itself and crosses cause thermal damage, also result in whole cabinet Heat dissipation be deteriorated, influence the reliability of other heat-sensitive devices.

In the prior art, the heat dissipation solution of fever metering device big for reactor, mainly include the following types:

The prior art 1, the degree of protection for sacrificing cabinet body, the aperture on cabinet body door-plate install ventilation heat exchange device, really It can reduce device temperature, but due to separate ventilation in cabinet body, the pollution air outside cabinet body, moisture, salt fog easily caused to enter In cabinet, lead to failure of insulation generating device damage accident, it is many for seriously polluted area or offshore applications risk.

The prior art 2, using inside reactor install muti-piece water-cooled plate radiate to it, such scheme disadvantage is The water route of muti-piece water-cooled plate is concatenated, easily generation water-cooled plate water line block problem, there is the blocking of one piece of water-cooled plate, entire reactance Overtemperature damage will occur for device, and reliability is lower, and reactor replacement is difficult.And the reactor cost of such built-in water-cooling plate It is very high.

The prior art 3, another solution such as Nanche Zhuzhou Electric Locomotive Institute Co., Ltd apply for public platform A kind of " radiator of reactor cabinet body " of 105656289 A of CN uses water wind heat exchanger to pusher side reactance, net side electricity Anti- device successively carries out cooling scheme, and then heat is exchanged to external cooling medium by water wind heat exchanger.Such solution party Case, compared to the prior art 1 and the prior art 2 as above, solve cabinet body degree of protection be destroyed, the reactor of built-in water-cooling plate The problems such as cost high reliability is low, but its there is also other disadvantages, first is that since its water wind heat exchanger is mounted in cabinet body Front door on, cause Door of communication apparatus cabinet plate it is prominent influence it is beautiful；Second is that its using pusher side reactor and network reactor above and below The mode of installation, the reactor installation and follow-up maintenance being located above since reactor weight is big are all very inconvenient；Third is that cold But the reactor that air passes through lower section becomes hot-air later, is unfavorable for the heat dissipation of top reactor and other heat-sensitive devices.

Utility model content

The purpose of the utility model is to provide a kind of parallel water cooling systems of reactor.

For this purpose, technical solutions of the utility model are as follows:

A kind of parallel water cooling system of reactor, including cabinet body, interior of the cabinet are provided with pusher side reactor and net side electricity Anti- device, pusher side reactor and network reactor are adjacent and the bottom of cabinet body is arranged in parallel；It further include blower and water wind heat exchanger； Water wind heat exchanger is positioned close to the side of pusher side reactor, and wind chamber is provided between water wind heat exchanger and pusher side reactor；Wind Machine is fixed on water wind heat exchanger, and the air inlet of the air outlet face water wind heat exchanger of blower；The air outlet and water wind of blower Wind chamber is formed between the air inlet of heat exchanger；It is equipped on pusher side reactor and network reactor side and the side of cabinet body anti- Only several wind deflectors that cold wind is flowed on cabinet body.

Further, being additionally provided on the cabinet body between the pusher side reactor and network reactor prevents cold wind to cabinet body The wind deflector of upper flowing.

The gap of 5mm~30mm is formed between the wind deflector and above-mentioned pusher side reactor and network reactor.

The position of the wind deflector setting on the cabinet is pusher side reactor or network reactor height

At 1/2~4/5.

Further, breath width is between the pusher side reactor and network reactor inside envelope curve

5mm~30mm.

Compared with prior art, the parallel water cooling system of the reactor carries out reactor using water wind heat exchanger scattered Heat is able to maintain that the high-protection level of cabinet body；Network reactor and the pusher side reactor are all mounted on bottom, and installation is facilitated to tie up Shield；The cold air of wind chamber is simultaneously advanced into the network reactor and pusher side reactor, being capable of high efficiency and heat radiation；Using air-cooled reactance Device, high reliablity at low cost compared to the reactor of built-in water-cooling plate.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the parallel water cooling system of reactor provided by the utility model.

Fig. 2 is the main view of the parallel water cooling system of reactor provided by the utility model.

Fig. 3 is the top view of the parallel water cooling system of reactor provided by the utility model.

Fig. 4 is the radiating principle schematic diagram of the parallel water cooling system of reactor provided by the utility model.

Specific embodiment

With reference to the accompanying drawing and specific embodiment is described further the utility model, but following embodiments are right absolutely not The utility model has any restrictions.

Embodiment 1:

A kind of parallel water cooling system of reactor, as shown in figures 1-4, including cabinet 1, cabinet body 1 are internally provided with pusher side electricity Anti- device 3 and network reactor 4, pusher side reactor 3 and network reactor 4 are adjacent and the bottom of cabinet body 1 is arranged in parallel；Further include Blower 5 and water wind heat exchanger 2；Water wind heat exchanger 2 is positioned close to the side of pusher side reactor 3, water wind heat exchanger 2 and pusher side electricity Wind chamber 8 is provided between anti-device 3；Blower 5 is fixed on water wind heat exchanger 2, and the air outlet face water wind heat exchanger of blower 5 Air inlet；Wind chamber 8 is formed between the air outlet of blower 5 and the air inlet of water wind heat exchanger 2；Pusher side reactor 3 and net side electricity Several wind deflectors 7 for preventing cold wind from flowing on cabinet body 1 are equipped on anti-4 side of device and the side of cabinet body 1.

Being additionally provided on cabinet body 1 between the pusher side reactor 3 and network reactor 4 prevents cold wind upper to cabinet body 1 Dynamic wind deflector 7.

It is formed between 5mm~30mm between the wind deflector 7 and above-mentioned pusher side reactor 3 and network reactor 4 Gap.

The wind deflector 7 be arranged in the position on cabinet body 1 be 4 height of pusher side reactor 3 or network reactor 1/2~ At 4/5.

Breath width is 5mm~30mm between the 4 inside envelope curve of pusher side reactor 3 and network reactor.

The working method of the parallel water cooling system of reactor provided by the utility model is as follows:

Blower 5 sucks the hot-air in cabinet body 1, and water wind heat exchanger 2 is equipped with cooling liquid inlet 2-1 and cooling liquid outlet 2- 2, hot-air becomes cold air entrance after being admitted to the cooling liquid progress heat exchange fed after the water wind heat exchanger 2 with outside Wind chamber 8, cold air enter the network reactor 4 and pusher side reactor 3 under the action of the wind chamber 8 and the wind deflector 7 Air gap 13 in, cold air takes away the heat generated in 3 operational process of network reactor 4 and pusher side reactor and becomes hot-air, Hot-air is inhaled into blower 5, into next heat dissipation cyclic process.

Claims (5)

1. a kind of parallel water cooling system of reactor, including cabinet body (1), cabinet body (1) be internally provided with pusher side reactor (3) and Network reactor (4), pusher side reactor (3) and network reactor (4) is adjacent and parallel setting cabinet body (1) bottom；It is special Sign is, further includes blower (5) and water wind heat exchanger (2)；Water wind heat exchanger (2) is positioned close to the one of pusher side reactor (3) Side is provided with wind chamber (8) between water wind heat exchanger (2) and pusher side reactor (3)；Blower (5) is fixed on water wind heat exchanger (2) On, and the air inlet of the air outlet face water wind heat exchanger (2) of blower (5)；The air outlet and water wind heat exchanger (2) of blower (5) Air inlet between be formed with wind chamber (8)；On the side of pusher side reactor (3) and network reactor (4) side and cabinet body (1) Equipped with several wind deflectors (7) for preventing cold wind from flowing on cabinet body (1).

2. the parallel water cooling system of reactor according to claim 1, which is characterized in that the pusher side reactor (3) wind deflector (7) for preventing cold wind from flowing on cabinet body (1) is additionally provided on the cabinet body (1) between network reactor (4).

3. the parallel water cooling system of reactor according to claim 2, which is characterized in that the wind deflector (7) with The gap of 5mm~30mm is formed between above-mentioned pusher side reactor (3) and network reactor (4).

4. the parallel water cooling system of reactor according to claim 3, which is characterized in that the wind deflector (7) is set Set is at the 1/2~4/5 of pusher side reactor (3) or network reactor (4) height in the position on cabinet body (1).

5. the parallel water cooling system of reactor described according to claim 1~any one of 4, which is characterized in that described Pusher side reactor (3) and the internal envelope curve of network reactor (4) between breath width be 5mm~30mm.