CN206022995U - Air-conditioning transformer station energy-saving radiating structure - Google Patents

Abstract

This utility model is air-conditioning transformer station energy-saving radiating structure, is arranged in air-conditioning transformer station, and there is the machine room of air-conditioning transformer station power transformation box and air-conditioning temperature-reducing equipment, air-conditioning transformer station energy-saving radiating structure to include：Air inlet, is arranged in the metope of machine room；Air vent, is arranged in another metope of machine room；Heat exchange ventilation body, is arranged in machine room, and the two ends of heat exchange ventilation body are respectively communicated with air inlet and air vent；Inducing QI fan, is installed in heat exchange ventilation duct body, flows to air vent to guide gas from air inlet；Radiating fin, is arranged at heat exchange ventilation body；And heat-transfer device, the two ends of heat-transfer device connect the inner heat portion of radiating fin and power transformation box respectively.This utility model air-conditioning transformer station energy-saving radiating structure can improve the radiating effect of air-conditioning transformer station, reduce the setting of air-conditioning temperature-reducing equipment.

Description

Air-conditioning transformer station energy-saving radiating structure

Technical field

This utility model is related to a kind of energy-saving radiating structure, more particularly to a kind of air-conditioning transformer station energy-saving radiating structure, energy The heat in power transformation box inner heat portion is directly derived, is made shield heat away in transformer station's conditioned space, is improved dissipating for air-conditioning transformer station Thermal effect, and the setting or operating of air-conditioning temperature-reducing equipment is reduced, so as to reduce the electricity charge.

Background technology

Current air-conditioning transformer station is as shown in figure 1, arrange multiple power transformation boxes 1 and multiple air-conditioning temperature-reducing equipment in machine room H 2, above-mentioned power transformation box 1 includes power equipment and transformator, and using card formula or disk top formula fan by above-mentioned power transformation box 1 Heat discharged in the way of thermal convection current, the quantity of above-mentioned air-conditioning temperature-reducing equipment 2 increases according to the quantity of above-mentioned power transformation box 1, Reduce the temperature of machine room H whereby, so as to reduce indirectly the internal temperature of above-mentioned power transformation box 1.

However, in current air-conditioning transformer station, the quantity of above-mentioned air-conditioning temperature-reducing equipment 2 is with the quantity of above-mentioned power transformation box 1 And increase, cause more large-scale air-conditioning transformer station more to need substantial amounts of air-conditioning temperature-reducing equipment 2, in other words, spend to lower the temperature The electricity charge be very surprising.

Therefore, a kind of energy-saving radiating structure how is created, is arranged in air-conditioning transformer station, improve air-conditioning transformer station Radiating effect, and the setting of air-conditioning temperature-reducing equipment is reduced, so as to reduce the electricity charge, the setting of air-conditioning temperature-reducing equipment or operating, will be This utility model is be intended to actively to disclose part.

Utility model content

The purpose of this utility model is to provide a kind of air-conditioning transformer station energy-saving radiating structure, for improving air-conditioning transformer station Radiating effect, and reduce the electricity charge.

It is that this utility model provides a kind of air-conditioning transformer station energy-saving radiating structure, arranges up to above-mentioned purpose and other purposes In air-conditioning transformer station, the air-conditioning transformer station has multiple power transformation boxes and at least one air-conditioning temperature-reducing equipment, above-mentioned power transformation box and The air-conditioning temperature-reducing equipment is arranged in machine room, and the air-conditioning transformer station energy-saving radiating structure includes：Air inlet, is arranged in the machine room One metope；Air vent, is arranged in another metope of the machine room；Heat exchange ventilation body, is arranged in the machine room, and the heat exchange The two ends of ventilation body are respectively communicated with the air inlet and the air vent；At least one inducing QI fan, is installed on the heat exchange ventilation In body, the air vent is flowed to guide gas from the air inlet；Multiple radiating fins, are arranged at the heat exchange ventilation body； And multiple heat-transfer devices, the two ends of each heat-transfer device connect the inner heat portion of radiating fin and power transformation box respectively.

In air-conditioning transformer station energy-saving radiating structure of the present utility model, wherein, the inducing QI fan is two, respectively close to The air inlet and the air vent.

In air-conditioning transformer station energy-saving radiating structure of the present utility model, wherein, the inducing QI fan near the air inlet is Drawing fan, is scavenger fan near the inducing QI fan of the air vent.

In air-conditioning transformer station energy-saving radiating structure of the present utility model, wherein, above-mentioned radiating fin and above-mentioned heat conduction dress The quantity that puts corresponds to the quantity of above-mentioned power transformation box respectively.

In sum, this utility model air-conditioning transformer station energy-saving radiating structure can arrange a small amount of air-conditioning by said structure The radiating effect of air-conditioning transformer station in the case of cooling system, is improved, and reduces the electricity charge, the setting of air-conditioning temperature-reducing equipment or fortune Turn.

Description of the drawings

Fig. 1 is the schematic diagram of air-conditioning transformer station of the prior art；

Schematic diagrams of the Fig. 2 for the first embodiment of this utility model air-conditioning transformer station energy-saving radiating structure；

Schematic diagrams of the Fig. 3 for the second embodiment of this utility model air-conditioning transformer station energy-saving radiating structure.

【Symbol description】

10 air inlets

20 air vents

30 heat exchanges ventilation body

31 first ends

32 second ends

40 inducing QI fans

50 radiating fins

60 heat-transfer devices

61 first ends

62 second ends

100 air-conditioning transformer station energy-saving radiating structures

1000 air-conditioning transformer stations

1100 power transformation boxes

1110 inner heat portions

1200 air-conditioning temperature-reducing equipment

H machine rooms

W1 metopes

Another metopes of W2

Specific embodiment

For being fully understood by the purpose of this utility model, feature and effect, now by following specific embodiments, and coordinate attached Figure, is described in further details to this utility model, is described as follows：

Fig. 2 is refer to, which is shown as the signal of the first embodiment of this utility model air-conditioning transformer station energy-saving radiating structure 100 Figure, air-conditioning transformer station energy-saving radiating structure 100 are arranged in air-conditioning transformer station 1000, and the air-conditioning transformer station 1000 has multiple Power transformation box 1100 and at least one air-conditioning temperature-reducing equipment 1200, above-mentioned power transformation box 1100 and the air-conditioning temperature-reducing equipment 1200 are arranged at In machine room H, air-conditioning transformer station energy-saving radiating structure 100 includes：Air inlet 10, air vent 20, heat exchange ventilation body 30, extremely Few inducing QI fan 40, multiple radiating fins 50 and multiple heat-transfer devices 60.

In the first embodiment, the air inlet 10 is arranged in a metope W1 of machine room H；The air vent 20 is arranged in the machine Another metope W2 of room H, metope W1 can be located at the two ends of machine room H, but not limited to this respectively with another metope W2.This Outward, the air inlet 10 preferably includes drainage screen, and the air vent 20 preferably includes fly net.

The heat exchange ventilation body 30 is arranged in machine room H, and the two ends of heat exchange ventilation body H are respectively communicated with this Air inlet 10 and the air vent 20；More specifically, as shown in Fig. 2 the connection of first end 31 of the heat exchange ventilation body 30 should Air inlet 10, second end 32 of the heat exchange ventilation body 30 connect the air vent 20.Wherein, in the first embodiment, due to Metope W1 and another metope W2 is located at the two ends of machine room H respectively, therefore the air inlet 10 and the air vent 20 are located at respectively The two ends (i.e. the left side of Fig. 2 and right side) of machine room H, heat exchange ventilation body 30 by Fig. 2 in left side turn right setting；According to This, the heat exchange ventilation body 30 can be changed according to the position of the air inlet 10 and the air vent 20, and differing, it is straight to be set to Line advances.

The inducing QI fan 40 is installed in the heat exchange ventilation body 30, flows to the row to guide gas from the air inlet 10 QI KOU 20；More specifically, the air outside machine room H is led in the heat exchange ventilation body 30 from the air inlet 10, and It is discharged outside machine room H again from the air vent 20.

Above-mentioned radiating fin 50 is arranged in the heat exchange ventilation body 30, as shown in Fig. 2 above-mentioned radiating fin 50 wears In the pipe of the heat exchange ventilation body 30, but not limited to this, may also set up on the outer tube wall of the heat exchange ventilation body 30.

The two ends of each heat-transfer device 60 connect the inner heat portion 1110 of radiating fin 50 and power transformation box 1100 respectively； More specifically, the connection radiating fin 50 of first end 61 of each heat-transfer device 60, the second end of each heat-transfer device 60 The inner heat portion 1110 of 62 connection power transformation boxes 1100；Whereby, each heat-transfer device 60 is by produced by the inner heat portion 1110 Conduction of heat is to each radiating fin 50.

As it was previously stated, when cold air is directed to from outside machine room H in the heat exchange ventilation body 30 (such as by the air inlet 10 In Fig. 2 left side block arrows shown in), and each heat-transfer device 60 by the conduction of heat produced by the inner heat portion 1110 to each radiating After fin 50 (as shown in the wavy arrow in Fig. 2), conduct to each radiating fin 50 heat again with heat exchange ventilation body 30 Inner air tube carry out heat exchange, and it is outer (as represented by the arrows in the dashed line in figure 2) to be expelled to machine room H from the air vent 20.Whereby, So that the power transformation box 1100 of the air-conditioning transformer station 1000 is radiated.

Additionally, as shown in Fig. 2 the quantity of above-mentioned radiating fin 50 and above-mentioned heat-transfer device 60 is not required to and above-mentioned power transformation box 1100 quantity is identical, but when 60 quantity of above-mentioned radiating fin 50 and above-mentioned heat-transfer device correspond to the number of above-mentioned power transformation box respectively When measuring 1100, radiating effect is more.

This utility model air-conditioning transformer station energy-saving radiating structure 100 is directly come interior with this by the cold air outside machine room H Heat produced by portion's heating part 1110 carries out heat exchange, makes shield heat away in transformer station's conditioned space, reduces the air-conditioning temperature-reducing The burden lowered the temperature by equipment 1200, accordingly, in the case where a small amount of air-conditioning temperature-reducing equipment 1200 is arranged, still has high radiating effect Really, thus can effectively reduce the electricity charge.

Then, Fig. 3 refer to, which is shown as the second embodiment of this utility model air-conditioning transformer station energy-saving radiating structure 200 Schematic diagram.The component of the component of air-conditioning transformer station energy-saving radiating structure 200 and air-conditioning transformer station energy-saving radiating structure 100 Roughly the same, wherein, the inducing QI fan is two, respectively close to the air inlet 10 and the air vent 20；More specifically, close The inducing QI fan of the air inlet 10 is drawing fan 40a, is scavenger fan 40b near the inducing QI fan of the air vent 20, whereby, The speed of gas flowing is improved, and then causes heat exchange faster.

In sum, this utility model air-conditioning transformer station energy-saving radiating structure can arrange a small amount of air-conditioning by said structure The radiating effect of air-conditioning transformer station in the case of cooling system, is improved, and reduces the electricity charge, the setting of air-conditioning temperature-reducing equipment or fortune Turn.

This utility model is hereinbefore disclosed by preferred embodiment, so it will be understood by those skilled in the art that should Embodiment is only used for describing this utility model, and is not construed as limiting scope of the present utility model.It should be noted that every with The equivalent change of the embodiment and displacement, all should be set to be covered by category of the present utility model.Therefore, guarantor of the present utility model The scope that shield scope should be defined by claims is defined.

Claims (4)

1. a kind of air-conditioning transformer station energy-saving radiating structure, it is characterised in that be arranged in air-conditioning transformer station, air-conditioning transformer station tool There are multiple power transformation boxes and at least one air-conditioning temperature-reducing equipment, above-mentioned power transformation box and the air-conditioning temperature-reducing equipment to be arranged in machine room, should Air-conditioning transformer station energy-saving radiating structure includes：

Air inlet, is arranged in a metope of the machine room；

Air vent, is arranged in another metope of the machine room；

Heat exchange is divulged information body, is arranged in the machine room, and the two ends of heat exchange ventilation body be respectively communicated with the air inlet and The air vent；

At least one inducing QI fan, is installed in the heat exchange ventilation duct body, flows to the aerofluxuss to guide gas from the air inlet Mouthful；

Multiple radiating fins, are arranged in the heat exchange ventilation duct body；And

Multiple heat-transfer devices, the two ends of each heat-transfer device connect the inner heat portion of radiating fin and power transformation box respectively.

2. air-conditioning transformer station energy-saving radiating structure as claimed in claim 1, it is characterised in that the inducing QI fan is two, point Not near the air inlet and the air vent.

3. air-conditioning transformer station energy-saving radiating structure as claimed in claim 2, it is characterised in that near the inducing QI wind of the air inlet Fan as drawing fan, be scavenger fan near the inducing QI fan of the air vent.

4. air-conditioning transformer station energy-saving radiating structure as claimed any one in claims 1 to 3, it is characterised in that above-mentioned radiating The quantity of fin and above-mentioned heat-transfer device corresponds to the quantity of above-mentioned power transformation box respectively.