CN205016327U - Radiating structure of transformer - Google Patents

Abstract

The utility model discloses a radiating structure of transformer, a serial communication port, include: and a housing, be provided with in the shell the transformer, the shell includes first side, second side, third side, fourth side, first side is relative with the third side to be set up, the second side is relative with the fourth side to be set up, the below of first side, second side, third side, fourth side all is provided with the air inlet, the top of third side is provided with the gas outlet, be provided with first baffle on the first side, be provided with the second baffle on the third side, first baffle is located the downside of second baffle, connect air conditioning equipment on the air inlet, connect air extractor on the gas outlet. The utility model discloses a radiating structure of transformer has improved the utilization efficiency of cold air greatly to promote the refrigerated effect, saved the energy.

Description

A kind of transformer radiator structure

Technical field

The utility model relates to a kind of radiator structure, and be specifically related to a kind of transformer radiator structure, the utility model belongs to transformer field of radiating.

Background technology

In existing transformer radiation processes, but the mode of the air-conditioning cold air of some employings heat radiation., existingly utilize in cold air radiating mode, the time of the sidewall contact of its cold air and transformer is short, and the efficiency that the heat that transformer distributes is taken away by cold air is just not high yet.The temperature difference between the cold air causing exhaust outlet hot-air out and air inlet to come in is little.Therefore air conditioner is needed constantly to work to provide cooling.

Summary of the invention

For solving the deficiencies in the prior art, the purpose of this utility model is to provide a kind of transformer radiator structure, to solve the inefficient technical problem of prior art cooling.

In order to realize above-mentioned target, the utility model adopts following technical scheme:

A kind of transformer radiator structure, it is characterized in that, comprise: shell, described transformer is provided with in described shell, described shell comprises the first side, second side, 3rd side, 4th side, described first side and the 3rd side are oppositely arranged, described second side and the 4th side are oppositely arranged, described first side, second side, 3rd side, the below of the 4th side is provided with air inlet, the top of described 3rd side is provided with described gas outlet, described first side is provided with the first baffle plate, described 3rd side is provided with second baffle, described first baffle plate is positioned at the downside of second baffle, described air inlet connects air-conditioning equipment, described gas outlet connects exhaust equipment.

Aforesaid a kind of transformer radiator structure, is characterized in that, described first baffle plate, second baffle are all arranged on the inner side of shell.

Aforesaid a kind of transformer radiator structure, is characterized in that, described first baffle plate is perpendicular to the first side, and described second face to face perpendicular to the 3rd side.

Aforesaid a kind of transformer radiator structure, it is characterized in that, one end of described first baffle plate connects the first side, the other end of the first baffle plate stretches into the downside of described second baffle.

Aforesaid a kind of transformer radiator structure, it is characterized in that, described exhaust equipment comprises air exhaust passage and air exhauster, connection gas outlet, air exhaust passage one end, and the air exhaust passage other end connects air exhauster.

Usefulness of the present utility model is: a kind of transformer radiator structure of the present utility model, substantially increases the utilization ratio of cold air, thus improve the effect of cooling, save the energy.

Accompanying drawing explanation

Fig. 1 is a structural representation preferably implemented of the present utility model.

Fig. 2 is the overall diagram that the utility model is preferably implemented.

The implication of Reference numeral in figure:

1, shell, the 2, first side, the 3, second side, the 4, the 3rd side, the 5, the 4th side, 6, air inlet, 7, gas outlet, 8, air-conditioning equipment, 9, exhaust equipment, 10, air exhaust passage, 11, air exhauster, the 12, first baffle plate, 13, second baffle.

Embodiment

Below in conjunction with the drawings and specific embodiments, concrete introduction is done to the utility model.

Shown in seeing figures.1.and.2, a kind of transformer radiator structure of the present utility model, comprise: shell, described transformer is provided with in described shell, described shell comprises the first side, second side, 3rd side, 4th side, described first side and the 3rd side are oppositely arranged, described second side and the 4th side are oppositely arranged, described first side, second side, 3rd side, the below of the 4th side is provided with air inlet, the top of described 3rd side is provided with described gas outlet, described first side is provided with the first baffle plate 12, described 3rd side is provided with second baffle 13, described first baffle plate 12 is positioned at the downside of second baffle 13, described air inlet connects air-conditioning equipment, described gas outlet connects exhaust equipment.

The utility model utilizes, and the density ratio hot-air of cold air is large.Therefore, air inlet 6 of the present utility model is in the below of the first side 3, side 2, second, the 3rd side 4, the 4th side 5, and the cold wind of therefore coming in from air inlet 6, after entering shell 1, can not appear from gas outlet 7 quickly.But can assemble in the downside of shell 1 inside, carry out heat exchange with transformer.Simultaneously, the utility model is provided with air inlet 6 in the first side 3, side 2, second, the 3rd side 4, the 4th side 5, and first side 2 and the 3rd side 4 be oppositely arranged, described second side 3 and the 4th side 5 are oppositely arranged, therefore from the first side 2, the 3rd side 4 cold air of coming in can carry out mutual disturbance a period of time, from the 3rd side 4, the 4th side 5 cold air of coming in can carry out mutual disturbance a period of time, this disturbance can extend the time of cold air at shell 1, thus increase cold air and transformer carry out the time of heat exchange.The more important thing is, the utility model arranges the inner side that the first baffle plate 12 and second baffle 13, first baffle plate 12, second baffle 13 are all arranged on shell.First baffle plate 12 and second baffle 13 are all arranged on the top of transformer, first baffle plate 12 is in the below of second baffle 13, if inlet charge is too fast, produce too much cold air, make cold air not with transformer sufficient heat exchange, when the cold air of non-sufficient heat exchange runs into the first baffle plate 12, the obstruction of the first baffle plate 12 will be subject to, therefore cold air can move downward along the arrow of Fig. 2 again, further with transformer heat exchange, and can not directly appear from gas outlet.

As further improvement, the first baffle plate 12 is perpendicular to the first side, and described second face to face perpendicular to the 3rd side.This setup makes baffle plate can stop the cold air of too fast infiltration to greatest extent.

In addition, in the utility model optimized design, one end of the first baffle plate 12 connects the first side, and the other end of the first baffle plate 12 stretches into the downside of described second baffle 13.As shown in Figure 1, the first baffle plate 12 and second baffle 13 form a vent passages.Now, fully the cold air of heat-shift can only not enter from this passage, moves along the direction of the arrow in Fig. to air outlet.The cold air that this design makes baffle plate can make to greatest extent to come in from air inlet and transformer carry out heat exchange.

Further, exhaust equipment 9 comprises air exhaust passage 10 and air exhauster 11, connection gas outlet, air exhaust passage 10 one end 7, and air exhaust passage 10 other end connects air exhauster 11.As shown in Figure 1.The hot-air extracted by air exhauster 11 can outside discharge chamber.

In addition, the utility model is in order to increase the utilization ratio of cold air further, one side inside shell 1 can be positioned in the first side 2 some baffle plates 12 are set, similar, be positioned at one side inside shell 1 in the second side 3 and some baffle plates 12 are set, be positioned at one side inside shell 1 in the 3rd side 4 and some baffle plates 12 are set, be positioned at one side inside shell 1 in the 4th side 5 and some baffle plates 12 are set.This baffle plate 12 can effectively be avoided when air exhauster 11 power is excessive, and cold air is from too fast discharge bottom shell 1.It has the effect stopping that cold air moves upward.

More than show and describe general principle of the present utility model, principal character and advantage.The technical staff of the industry should understand, and above-described embodiment does not limit the utility model in any form, the technical scheme that the mode that all employings are equal to replacement or equivalent transformation obtains, and all drops in protection range of the present utility model.

Claims (5)

1. a transformer radiator structure, it is characterized in that, comprise: shell, described transformer is provided with in described shell, described shell comprises the first side, second side, 3rd side, 4th side, described first side and the 3rd side are oppositely arranged, described second side and the 4th side are oppositely arranged, described first side, second side, 3rd side, the below of the 4th side is provided with air inlet, the top of described 3rd side is provided with gas outlet, described first side is provided with the first baffle plate, described 3rd side is provided with second baffle, described first baffle plate is positioned at the downside of second baffle, described air inlet connects air-conditioning equipment, described gas outlet connects exhaust equipment.

2. a kind of transformer radiator structure according to claim 1, is characterized in that, described first baffle plate, second baffle are all arranged on the inner side of shell, and the first baffle plate and second baffle are all arranged on the top of transformer.

3. a kind of transformer radiator structure according to claim 2, is characterized in that, described first baffle plate is perpendicular to the first side, and described second lateral vertical is in the 3rd side.

4. a kind of transformer radiator structure according to claim 3, is characterized in that, one end of described first baffle plate connects the first side, and the other end of the first baffle plate stretches into the downside of described second baffle.

5. a kind of transformer radiator structure according to claim 4, it is characterized in that, described exhaust equipment comprises air exhaust passage and air exhauster, connection gas outlet, air exhaust passage one end, and the air exhaust passage other end connects air exhauster.