JP6098119B2 - Cooling device for power converter - Google Patents

Description

  The present invention relates to a cooling device for a power conversion device that cools a power conversion device arranged in a housing.

  In a semiconductor power conversion device, a semiconductor power conversion unit that constitutes a main circuit, a portion that cools a heat generating device such as a main circuit, and a portion that cools a control unit constituted by an electric device of a control printed circuit board are individually separated. It is stored separately in a panel (housing).

  In particular, in a panel (housing) that stores a main circuit that generates a large amount of heat, a forced ventilation system is employed in which an exhaust port is provided in the front and exhausted by an exhaust fan installed on the ceiling (see, for example, Patent Document 1). ).

  In the conventional example described in Patent Document 1, the semiconductor power conversion unit is forcibly cooled by the cooling air introduced from the front air inlet, and the exhaust is exhausted by the exhaust fan installed on the ceiling. Is disclosed.

JP 2007-74865 A

  In the conventional example described in Patent Document 1, an exhaust fan is installed on the upper surface of the housing. At this time, it is necessary to provide a maintenance space having a diameter of ½ or more of the exhaust fan between the exhaust fan and the ceiling portion of the installation facility. If this space cannot be secured, the discharge air volume of the exhaust fan decreases.

  However, since recent power conversion devices are required to be small and save space, there are many cases where there is no space in the installation location. In such a case, since the above-mentioned maintenance space cannot be secured between the upper surface of the housing and the ceiling portion of the installation facility, the cooling efficiency is lowered.

  Therefore, an exhaust fan may be installed on the side surface of the casing. However, in that case, a large amount of cooling air is introduced from the intake port on the front surface of the housing, passes through the interior of the housing, reaches the exhaust fan on the side surface, and is exhausted to the outside. There was an unsolved problem that pressure loss occurred and the air volume required for cooling the semiconductor power conversion unit could not be secured.

The cause of the large pressure loss is that the cross-sectional area of the air passage in the housing is small with respect to the air volume required by the power converter.
In addition, since the exhaust fan is disposed on the side surface of the casing, the air path in the casing is bent in the middle and the pressure loss increases.

  Therefore, the present invention has been made paying attention to the unsolved problems of the above-described conventional example, and a power conversion device capable of ensuring a necessary air volume with a simple configuration even in an installation place where there is not enough space. It aims to provide a cooling device.

In order to achieve the above object, according to the present invention, a converter panel in which a semiconductor power conversion unit is housed in a housing, a control panel in communication with the converter panel and disposed on a side surface thereof, a converter board of the cooling air inlet portion formed in the front, is disposed in the upper portion within the converter board, and an exhaust duct in communication with the control panel, which is disposed on a side surface of the control board exhaust And a wind tunnel for supplying the cooling air sucked by the cooling air intake unit to the control panel via the semiconductor power conversion unit inside the converter panel, from the cooling air intake unit A first cooling air passage that leads to the exhaust fan through a wind tunnel and a second cooling air passage that leads from the cooling air intake section to the exhaust fan through the exhaust duct are formed. And a cooling device for the power converter.

According to the present invention, in the above configuration, the exhaust fan is disposed at a position facing the exhaust duct.
According to the present invention, in the above configuration, the exhaust fan is disposed at a position facing the wind tunnel.

In order to achieve the above-mentioned object, according to the present invention, a converter board having a housing containing a semiconductor power conversion unit, a first communication board that communicates with the converter board and is arranged on the right side surface thereof. A control panel, a second control panel arranged on the left side of the converter panel, a cooling air intake section formed on the front surface of the converter panel , and the converter panel disposed in the upper portion, said first and second control panel and communicating exhaust duct through a first first exhaust fan disposed on the side surface of the control panel, the second control A second exhaust fan disposed on a side surface of the panel, and the cooling air sucked into the converter panel by the cooling air intake unit through the semiconductor power conversion unit. A wind tunnel to be supplied to the control panel from the cooling air intake section to the first exhaust fan via the wind tunnel. A first cooling air passage, a second cooling air passage from the cooling air intake section through the exhaust duct and the first exhaust fan, and from the cooling air intake section through the wind tunnel, A third cooling air passage extending to the second exhaust fan and a fourth cooling air passage extending from the cooling air intake portion through the exhaust duct to the second exhaust fan. And a cooling device for the power converter.

  According to the present invention, in the above configuration, the cooling device for the power conversion device, wherein the first and second exhaust fans are disposed at positions facing the exhaust duct; To do.

  According to the present invention, in the above configuration, the first and second exhaust fans are disposed at positions facing the wind tunnel.

  According to the present invention, it is possible to realize a cooling device for a power conversion device that can secure a necessary air volume with a simple configuration even in an installation place where there is not enough space.

It is a front view which shows the Example of this invention. It is a right view which shows the Example of this invention.

  An embodiment of the present invention will be described below with reference to the drawings. However, the following description is merely an example of the present invention, and the present invention is not limited to this. That is, it is possible for a person having ordinary knowledge in the field to implement many modifications within the technical idea of the present invention.

[Configuration of the embodiment of the present invention]
The configuration of the embodiment of the present invention will be described below with reference to FIGS.
FIG. 1 is a front view showing an embodiment of the present invention. FIG. 2 is a right side view showing an embodiment of the present invention. 1 is a housing, 2a and 2b are converter panels, 3a and 3b are control panels, 4a and 4b are semiconductor power conversion units, 5 is a cooling air inlet, 6g and 6h are exhaust fans, and 7 is an exhaust fan storage , 8 is an in-panel wind tunnel, 9 is an exhaust duct, 10c to 10f are communication portions, and 11 is cooling air.

  The housing 1 (board) is formed in a rectangular parallelepiped shape. The housing 1 is composed of converter boards 2a and 2b that house semiconductor power conversion units 4a and 4b, and control boards 3a and 3b that house devices that control the semiconductor power conversion units 4a and 4b. .

Transducer panels 2a and 2b are arranged and arranged in a substantially central portion of the housing 1. Four cooling air inlets 5 are formed in front portions of the converter boards 2a and 2b.
A control panel 3a is disposed on the left side of the converter panel 2a. A control panel 3b is disposed on the right side surface of the converter panel 2b.

  Exhaust fans 6g and 6h are arranged in series on the right side surface of the control panel 3b. The exhaust fans 6g and 6h are housed in an exhaust fan housing portion 7 formed inside the control panel 3b.

The converter boards 2a and 2b are communicated with each other by a communication part 10c. Moreover, the converter board 2b and the control board 3b are connected by the communication part 10d.
Here, in the converter panels 2a and 2b, an in-panel wind tunnel 8 reaching the communication part 10d via the communication part 10c is formed above the semiconductor power conversion units 4a and 4b.

  Further, the converter boards 2a and 2b are formed with an exhaust duct 9 on the upper surface thereof. The exhaust duct 9 is communicated by a communication portion 10e inside thereof. Further, the exhaust duct 9 is communicated with an exhaust fan housing portion 7 formed inside the control panel 3b by a communication portion 10f. The exhaust duct 9 communicates with the internal wind tunnel 8.

  Further, the exhaust fan 6g is disposed at a position facing the exhaust duct 9 or the in-panel wind tunnel 8. That is, the exhaust fan 6g is arranged so that its vertical position is approximately the same as that of the exhaust duct 9 or the in-panel wind tunnel 8.

[Operation of the embodiment of the present invention]
The operation of the embodiment of the present invention will be described below.
The exhaust fans 6g and 6h formed on the right side surface portion of the control panel 3b are rotationally driven, whereby a negative pressure is generated in the housing. Thereby, the cooling air 11 is sucked from the cooling air inlet 5 formed in the front part of the converter boards 2a and 2b.

  The cooling air 11 rises from the lower side of the converter boards 2a and 2b, cools the semiconductor power conversion units 4a and 4b, passes through the in-board wind tunnel 8 through the communication part 10c, and is further controlled through the communication part 10d. A first cooling air passage that reaches the exhaust fan housing portion 7 inside the panel 3b and reaches the exhaust fans 6g and 6h is formed.

  The cooling air 11 rises from the lower side of the converter boards 2a and 2b, cools the semiconductor power conversion units 4a and 4b, passes through the exhaust duct 9 via the communication part 10e, and further passes through the communication part 10f. A second cooling air passage that reaches the exhaust fan accommodating portion 7 inside the control panel 3b and reaches the exhaust fans 6g and 6h is formed.

[Effect of the embodiment of the present invention]
Thus, according to the embodiment of the present invention, when the exhaust duct 9 is added and the second cooling air passage passing through the exhaust duct 9 is formed, the exhaust fans 6g and 6h are installed on the side surface. Even so, it is possible to secure the air volume necessary for cooling the semiconductor power conversion units 4a and 4b.

  When the exhaust fans 6g and 6h are installed on the side surfaces, the amount of air necessary for cooling the semiconductor power conversion units 4a and 4b is insufficient with only the first cooling air passage that passes through the in-panel wind tunnel 8. This is because the cross-sectional area of the in-panel wind tunnel 8 is small with respect to the required air volume, and the exhaust fan 6g and 6h are installed on the side surface, so that the air path is bent and the pressure loss increases. is there.

  On the other hand, in the embodiment of the present invention, an exhaust duct 9 is added, and a second cooling air passage is formed in addition to the first cooling air passage to increase the overall air volume, thereby providing an exhaust fan. Even when 6g and 6h are installed on the side surfaces, it is possible to secure the air volume necessary for cooling the semiconductor power conversion units 4a and 4b.

  As a result, even if there is no room for installing the power conversion device, there is a height restriction, and no maintenance space can be provided on the ceiling, the exhaust fans 6g and 6h are installed on the side surface, and the semiconductor power The air volume necessary for cooling the conversion units 4a and 4b can be ensured.

  At this time, since the exhaust fans 6g and 6h are installed on the side surfaces, when performing maintenance, the exhaust fans 6g and 6h can be easily taken out and replaced, and the maintainability can be improved.

  Further, the exhaust fan 6g is disposed so as to face the exhaust duct 9 or the in-panel wind tunnel 8. In this way, by making the vertical positions of the exhaust fan 6g and the exhaust duct 9 or the internal wind tunnel 8 approximately the same, the bending of the cooling air path is reduced, and the distance of the air path is shortened. can do. Therefore, pressure loss can be prevented and a larger air volume can be secured.

  In addition, although the said embodiment demonstrated the case where the exhaust fans 6g and 6h and the exhaust fan accommodating part 7 were formed in the inside of the control panel 3b, it is not limited to this. Exhaust fans 6g and 6h and an exhaust fan housing portion 7 are disposed not on the control panel 3b but on the control panel 3a, and the first cooling air passage and the second cooling air extending from the front surface of the housing 1 to the left side surface portion. A passage can also be formed.

  Further, the exhaust fans 6g and 6h and the exhaust fan storage portion 7 are disposed in both the control panels 3a and 3b, respectively, so that the first cooling air passage and the second cooling air passage leading to the right side surface portion of the housing 1 are provided. In addition, a third cooling air passage and a fourth cooling air passage reaching the left side surface portion of the housing 1 can be formed. In this case, the cooling efficiency can be further improved.

  Moreover, although the said Example demonstrated the case where the four cooling air inlets 5 were formed in the front side of the housing | casing 1, it is not limited to this. You may make it form 1 thru | or 3 or 5 or more cooling air inlets which are long horizontally.

DESCRIPTION OF SYMBOLS 1 Case 2a, b Converter board 3a, b Control board 4a, b Semiconductor power conversion unit 5 Cooling air inlet 6g, h Exhaust fan 7 Exhaust fan storage part 8 In-panel wind tunnel 9 Exhaust duct 10c, d, e, f Communication part 11 Cooling air

Claims (6)

A converter panel containing a semiconductor power conversion unit in a housing;
A control panel in communication with the converter panel and disposed on the side surface thereof;
A cooling air intake section formed in front of the converter board;
Is disposed in the upper portion inside the converter board, and an exhaust duct in communication with the control panel,
An exhaust fan disposed on a side surface of the control panel;
Inside the converter panel, provided with a wind tunnel for supplying the cooling air sucked by the cooling air intake unit to the control panel through the semiconductor power conversion unit,
A first cooling air passage from the cooling air intake section through the wind tunnel to the exhaust fan, and a second cooling air passage from the cooling air intake section through the exhaust duct to the exhaust fan. And a cooling device for a power conversion device. 2. The cooling apparatus for a power conversion apparatus according to claim 1, wherein the exhaust fan is disposed at a position facing the exhaust duct. The cooling device for a power converter according to claim 1 or 2, wherein the exhaust fan is disposed at a position facing the wind tunnel. A converter panel containing a semiconductor power conversion unit in a housing;
A first control panel in communication with the converter panel and disposed on the right side surface thereof;
A second control panel in communication with the converter panel and disposed on the left side thereof;
A cooling air intake section formed in front of the converter board;
Is disposed in the upper portion inside the converter board, and an exhaust duct in communication with said first and second control panel,
A first exhaust fan disposed on a side surface of the first control panel;
A second exhaust fan disposed on a side surface of the second control panel;
A wind tunnel for supplying cooling air sucked by the cooling air intake section to the first and second control panels via the semiconductor power conversion unit, inside the converter board;
A first cooling air passage from the cooling air intake section through the wind tunnel to the first exhaust fan;
A second cooling air passage from the cooling air intake section through the exhaust duct to the first exhaust fan;
A third cooling air passage from the cooling air intake section through the wind tunnel to the second exhaust fan;
A cooling device for a power converter, wherein a fourth cooling air passage is formed from the cooling air intake section through the exhaust duct to the second exhaust fan. The cooling device for a power converter according to claim 4, wherein the first and second exhaust fans are disposed at positions facing the exhaust duct. . The cooling device for a power conversion device according to claim 4 or 5, wherein the first and second exhaust fans are disposed at positions facing the wind tunnel. .