CN208508809U - A kind of inverter radiator structure - Google Patents

Abstract

The utility model discloses a kind of inverter radiator structures, including inverter shell, air inlet, fan, air outlet, inversion mainboard is equipped with above air inlet, transformer is equipped with above inversion mainboard, heat dissipation channel is equipped at inversion mainboard, the heat dissipation channel is hollow and both ends are equipped with opening, open at one end corresponding with air inlet, another end opening is corresponding with transformer, and the heat dissipation channel is made of heat sink material.The setting of inversion mainboard is equipped with heat dissipation channel below air inlet, inversion mainboard, and the heat that inversion mainboard can be generated first passes through heat dissipation channel heat dissipation, then again distributed the heat in heat dissipation channel by the fan of air inlet；One end face transformer of heat dissipation channel, the heat that transformer generates will be distributed at air outlet by heat dissipation channel, can make inverter heat dissipation good as long as an air inlet and fan in this way, optimize radiator structure, the space that heat dissipation uses is reduced, and has saved the energy, reduces consumption.

Description

A kind of inverter radiator structure

Technical field

The utility model relates to equipment coolings, particularly, are related to a kind of inverter radiator structure.

Background technique

Inverter is the equipment for direct current energy being transformed into alternating current.It is widely used in air-conditioning, home theater, driven sand Wheel, electric tool, sewing machine, DVD, VCD, computer etc..In use, inversion mainboard and transformer can generate greatly inverter Calorimetric amount will cause that working efficiency is poor, and equipment is easy to aging if heat is excessively high, or even cause failure.So the heat dissipation of inverter It is extremely important.It is respectively transformer and inversion mainboard drop that power frequency inverter heat dissipation on existing market, which mostly opens up multiple channels, Temperature, each channel are designed with air outlet, air inlet and a fan.This design occupies a large amount of inner space, and equipment becomes Greatly, while consumption is increased, wastes the energy.

Utility model content

For overcome the deficiencies in the prior art, the inverter that the utility model provides that a kind of structure is simple, energy saving dissipates Heat structure.

The technical scheme adopted by the utility model to solve the technical problem is as follows:

A kind of inverter radiator structure, including inverter shell, positioned at outer casing underpart air inlet, be mounted on air inlet Fan, the air outlet above inverter shell, be equipped with inversion mainboard above the air inlet, be equipped with above the inversion mainboard Transformer is equipped with heat dissipation channel at inversion mainboard, and the heat dissipation channel is hollow and both ends are equipped with opening, open at one end and air inlet Mouth is corresponding, and another end opening is corresponding with transformer, and the heat dissipation channel is made of heat sink material.

Preferably, the heat dissipation channel two sides are made of multiple cooling fins, and perfect heat-dissipating is solid and reliable.

Preferably, the shell of the inverter is equipped with multiple apertures, sheds convenient for inverter internal heat.

Preferably, the inverter shell is equipped with the mounting hole being mounted on wall, convenient for the installation of inverter.

Preferably, the transformer installs another end opening close to heat dissipation channel, and transformer heat dissipation effect is more preferable.

The utility model has the beneficial effects that

It, can will be inverse by above scheme it is found that inversion mainboard, which is arranged at air inlet, inversion mainboard, is equipped with heat dissipation channel Become the heat that mainboard generates and first pass through heat dissipation channel heat dissipation, is then again blown the heat in heat dissipation channel by the fan of air inlet It is distributed at air outlet；One end face transformer of heat dissipation channel, the heat that transformer generates will be by heat dissipation channel in air outlet Place distributes, and can make inverter heat dissipation good as long as an air inlet and fan in this way, optimize radiator structure, reduce scattered The space that heat uses, and the energy has been saved, reduce consumption.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 is the utility model overall structure diagram；

Fig. 2 is the utility model heat dissipation channel schematic diagram.

Figure label: 1- shell, 2- air inlet, 3- fan, 4- air outlet, 5- inversion mainboard, 6- transformer, 7- heat dissipation are logical Road.

Specific embodiment

Referring to Fig.1, Fig. 2, a kind of inverter radiator structure, including inverter shell 1, the air inlet positioned at 1 lower part of shell 2, it is mounted on the fan 3 at air inlet 2, the air outlet 4 above inverter shell 1, is equipped with inversion mainboard above the air inlet 2 5, transformer 6 is equipped with above the inversion mainboard 5, is equipped with heat dissipation channel 7 at inversion mainboard 5, the heat dissipation channel 7 it is hollow and Both ends are equipped with opening, and open at one end corresponding with air inlet 2, another end opening is corresponding with transformer 6, and the heat dissipation channel 7 is by dissipating Hot material is constituted.

Inversion mainboard 5 is arranged at air inlet 2, and heat dissipation channel 7 is equipped with below inversion mainboard 5, inversion mainboard 5 can be produced Raw heat first passes through the heat dissipation of heat dissipation channel 7, is then again blown to out the heat in heat dissipation channel 7 by the fan 3 at air inlet 2 It is distributed at air port 4；One end face transformer 6 of heat dissipation channel 7, the heat that transformer 6 generates will be by heat dissipation channel 7 in air outlet It is distributed at 4.Entire inverter is radiated by wind, and the flow direction of wind is to pass through inversion mainboard 5 and heat dissipation channel from air inlet 2 7, then air outlet 4 is arrived by transformer 6.Inverter heat dissipation can be made good as long as an air inlet 2 and fan 3 in this way, it is excellent Radiator structure is changed, has reduced the space that heat dissipation uses, and saved the energy, reduce consumption.

7 two sides of heat dissipation channel are made of multiple cooling fins, and perfect heat-dissipating is solid and reliable.

The shell 1 of the inverter is equipped with multiple apertures, sheds convenient for inverter internal heat.

The inverter shell 1 is equipped with the mounting hole being mounted on wall, convenient for the installation of inverter.

The transformer 6 installs another end opening close to heat dissipation channel 7, and such 6 heat dissipation effect of transformer is more preferable.

The above is the better embodiment of the utility model, but the utility model is not limited to above-described embodiment, As long as its technical effect for reaching the utility model with any same or similar means, should all fall into the protection model of the utility model Within enclosing.

Claims (5)

1. a kind of inverter radiator structure, including inverter shell (1), the air inlet (2) that is located at shell (1) lower part, it is mounted on The air outlet (4) above fan (3), inverter shell (1) at air inlet (2), it is characterised in that: on the air inlet (2) Side is equipped with inversion mainboard (5), is equipped with transformer (6) above the inversion mainboard (5), and it is logical that heat dissipation is equipped at inversion mainboard (5) Road (7), the heat dissipation channel (7) is hollow and both ends are equipped with opening, open at one end corresponding with air inlet (2), another end opening and Transformer (6) is corresponding, and the heat dissipation channel (7) is made of heat sink material.

2. a kind of inverter radiator structure according to claim 1, it is characterised in that: heat dissipation channel (7) two sides by Multiple cooling fins are constituted.

3. a kind of inverter radiator structure according to claim 1, it is characterised in that: on the shell (1) of the inverter Equipped with multiple apertures.

4. a kind of inverter radiator structure according to claim 1, it is characterised in that: set on the inverter shell (1) There is the mounting hole being mounted on wall.

5. a kind of inverter radiator structure according to claim 1, it is characterised in that: transformer (6) installation is close Heat dissipation channel (7) another end opening.