KR200413028Y1 - Electric power machine ventilation and cooling structure of air radiant plate - Google Patents

Abstract

In the cooling structure inside the panel according to the installation of the components of the power device having a heating element, the panel forming the cooling structure of the power device, the front panel door formed in the front portion of the panel, and located on the rear of the panel A power device arrangement fixing mounting plate formed to fix the power device, a ventilation opening located at the lower end of the front panel to inject outside air, and a lower portion of the panel to transport cold air introduced from the ventilation opening. A lower ventilation path to configure, a rear ventilation path configured to vertically transfer the air transferred from the lower ventilation path to the rear of the power device arrangement fixing mounting plate, and a rear side of the power device fixed to the power equipment arrangement fixing mounting plate Located in and configured to contact the heat generated by the power device with the cold external air transferred through the rear ventilation path It provides a power device ventilation and cooling structure of the pneumatic heat sink consisting of a heat sink and an air outlet formed on the top of the panel to discharge the hot air passing through the heat sink.

Panel, Heat Sink, Power Equipment

Description

Electric power machine ventilation and cooling structure of air radiant plate

1 is a perspective view of a conventional power device ventilation and cooling structure.

2 is a view showing a power device ventilation and cooling structure of the pneumatic heat sink according to the present invention.

3 is a view showing an embodiment according to the present invention.

** SIGNS FOR MAIN PARTS OF THE DRAWINGS **

100: panel 110: panel front door

120: mounting arrangement of the power device 130: ventilation holes

140: bottom ventilation path 150: rear ventilation path

160: heat sink 170: air outlet

The present invention relates to a cooling structure inside a panel according to the installation of a component of a power device having a heating element, and more specifically, to form a power device inside the panel to form a heat sink on the rear of the panel to introduce cold air to the outside of the heat sink It relates to a power device ventilation and cooling structure of the pneumatic heat sink configured to cool the heat generated by the power device through.

In general, power devices have a structure that generates heat most of the time to properly cool the heat generation. The thermal cooling method of the power device is formed of aluminum, absorbs heat from one side to absorb unnecessary heat and releases it to the other side, absorbs heat from the heat generating portion of the power device and emits the absorbed heat to the outside to produce electronic components or heat Heat sinks for absorbing heat from the device to prevent overheating of the device have been used.

The power device is exposed to the outside air, but most of the power equipment is mounted inside a metal panel or a plastic panel.

1 is a structure of the conventional air cooling system as described above to form a vent hole in the lower front of the panel including the power equipment to introduce cold outside air and the inner circulation in the inside of the panel. The heat sink formed on the rear side of the power device absorbs the heat generated by the power device to cool in contact with the air introduced from the outside, and the air warmed by the radiator includes a ventilation fan formed on the front top of the panel It is configured to be discharged through the ship outlet.

However, the conventional air-cooled structure as described above requires forced air blower because air is forced air instead of natural air for smooth airflow. In this case, dust, impurities, etc. in the outside air are introduced into the air. Due to the mixing, there is a problem of contaminating or damaging the PCB, the main components of the power device inside the panel.

In addition, the filter had to be installed to remove the dust, impurities and the like, but the installation of the filter to completely block the impurities has a problem that takes a high cost.

The present invention was devised to solve the above problems and absorbs the heat generated from the power device by the heat sink to cool the absorbed heat due to the inflow of cold air from the outside, making the heat dissipation and cooling of the inside easier and more convenient. The purpose is to provide a power device ventilation and cooling structure of the pneumatic heat sink.

The present invention in the cooling structure inside the panel according to the installation of the components of the power device having a heating element,

A panel 100 forming a cooling structure of the power device;

A panel front door 110 formed at a front portion of the panel 100;

A power device arrangement fixing mounting plate (120) formed at a rear surface of the panel (100) to fix the power device;

A ventilation opening 130 located at a lower front portion of the panel 100 to introduce external air;

A bottom ventilation path 140 configured at the bottom of the panel 100 to transfer cold air introduced from the ventilation hole 130;

A rear ventilation path 150 configured to vertically transfer air transferred from the lower ventilation path 140 to a rear surface of the power device arrangement fixing mounting plate 120;

The heat sink 160 is located on the rear of the power device fixed to the power device arrangement fixed mounting plate 120 and configured to contact the heat generated by the power device with cold external air transferred through the rear ventilation path 150. );

And an air outlet 170 formed at an upper end of the panel 100 to discharge hot air passing through the heat sink 160.

The heat dissipation plate 160 is located at the rear of the power device arrangement fixing mounting plate 120 capable of placing and fixing the power device, and generates heat generated from the power device by the lower ventilation path 140 and the rear ventilation path 150. It is characterized by cooling using cold air transferred from.

In addition, the panel 100 is formed in a wall portion, it characterized in that the outside air can be introduced by the vent hole 130 at the bottom of the rear ventilation path 150.

Hereinafter, with reference to the accompanying drawings to describe the present invention in detail.

2 is a view showing the power device ventilation and air-cooled structure of the pneumatic heat sink according to the present invention.

As shown in FIG. 2, the power device is formed therein to form a panel 100 forming an external appearance of the ventilation and air-cooling structure, and a panel formed on a front surface of the panel 100 to open and close the inside of the panel. The front door 110 and the power device arrangement fixing mounting plate 120 capable of placing and fixing the power device inside the panel 100 are formed. The lower end of the front panel of the panel 100 forms a lower ventilation opening 130 to allow external cool air to flow therethrough to transfer the external cold air through the lower ventilation path 140. The air transferred from the lower ventilation path 140 is vertically transferred through the rear ventilation path 150 formed at the rear of the panel 100, and located at the rear of the power device arrangement fixing mounting plate 120. The heat sink 160 is formed to absorb heat generated by the power device. Heat absorbed by the heat sink 160 is cooled by external cold air transferred through the rear ventilation path 150, and the air warmed by the heat sink 160 is air formed at the top of the panel 100. It is discharged through the outlet 170.

3 is a view showing an embodiment of the present invention.

3 is an embodiment of the present invention to form a panel 100 including a power device on the wall surface to inject the outside cold air into the vent 130 formed in the lower rear of the panel 100. External cold air introduced into the vent 130 is vertically transferred through the rear vent 150 to cool the heat absorbed by the heat sink 160 formed at the rear of the power device arrangement fixing mounting plate 120. It is discharged through the air outlet 170.

As described above, although the preferred embodiment according to the present invention has been described, the present invention is not limited to the above-described embodiment, and the present invention belongs to the present invention without departing from the gist of the present invention as claimed in the following Utility Model Claims. Anyone with ordinary knowledge will have the technical spirit of the present invention to the extent that various modifications can be made.

The present invention prevents dust, impurities, etc. from polluting or damaging the PCB and main parts of the power equipment inside the panel by external air, which can prolong the life of the parts, and consumes the blower used for conventional forced ventilation. The lack of power has the effect of saving energy and reducing maintenance costs.

In addition, it is possible to minimize the deterioration of peripheral devices due to the circulation of the heated air outside the panel, and to freely arrange the device inside the panel, thereby increasing space utilization, and preventing outside air from being directly sucked into the panel. Thus, condensation may be prevented due to temperature differences in the panel and outside, thereby preventing malfunctions, extending the life of components, and improving convenience of maintenance.

Claims (3)

In the cooling structure inside the panel according to the installation of the components of the power device having a heating element, A panel 100 forming a cooling structure of the power device; A panel front door 110 formed at a front portion of the panel 100; A power device arrangement fixing mounting plate (120) formed at a rear surface of the panel (100) to fix the power device; A ventilation opening 130 located at a lower front portion of the panel 100 to introduce external air; A bottom ventilation path 140 configured at the bottom of the panel 100 to transfer cold air introduced from the ventilation hole 130; A rear ventilation path 150 configured to vertically transfer air transferred from the lower ventilation path 140 to a rear surface of the power device arrangement fixing mounting plate 120; The heat sink 160 is located on the rear of the power device fixed to the power device arrangement fixed mounting plate 120 and configured to contact the heat generated by the power device with cold external air transferred through the rear ventilation path 150. ); Power device ventilation and cooling structure of the pneumatic heat sink consisting of; an air outlet 170 formed on the top of the panel to discharge the hot air passing through the heat sink (160). The method of claim 1, The heat dissipation plate 160 is located at the rear of the power device arrangement fixing mounting plate 120 capable of placing and fixing the power device, and generates heat generated from the power device by the lower ventilation path 140 and the rear ventilation path 150. Ventilation and cooling structure of the power device of the pneumatic heat sink, characterized in that the cooling by using cold air transferred from. The method of claim 1, The panel 100 is formed in a wall portion of the power device ventilation and cooling structure of the pneumatic heat sink, characterized in that the outside air can be introduced by the ventilation hole 130 at the bottom of the rear ventilation path 150.

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