JP2016517262A - Power converter using heat exchange type power element module - Google Patents

Abstract

The present invention relates to a heat exchange type power element module capable of dissipating heat generated in a power element module used in a power conversion system (PCS, Power Conversion System) to the outside of the power conversion system. Disclosed is a power conversion device using the. A case having a storage space inside, a case where a power element is installed, an internal heat exchanger installed inside the case, and a power element module connected to the internal heat exchanger are included. The internal heat exchanger includes a heat exchange medium passage for allowing a heat exchange medium to pass therethrough, and the heat exchange medium passage and the inside of the case are isolated from each other, and the internal heat exchanger is connected to the internal heat exchanger. A heat release device for releasing the transferred heat to the outside of the case; [Selection] Figure 1

Description

  The present invention relates to a heat exchange type power element module capable of dissipating heat generated in a power element module used in a large power conversion device (PCS, Power Conversion System) to the outside of the power conversion device. The present invention relates to a power conversion apparatus using (Power Device Module).

  Generally, heat generated in the power element module of the power conversion device is released to the outside of the power conversion device by a fan (Fan) installed in the power conversion device. Thus, in the process of releasing the heat generated in the power element module to the outside of the power converter, the outside polluted air flows into the power converter and dust or foreign matter flows together to generate power. It will be deposited inside the converter.

  Therefore, the method of cooling the power element module of the power conversion device using a fan as in the prior art has an adverse effect on the performance of the power conversion device. When foreign matter such as dust accumulates on the power conversion device in this way, there is a problem that maintenance and repair costs increase because work for removing dust and the like must be performed as needed.

  The present invention has been proposed in order to solve the above-described problems, and an object of the present invention is to quickly dissipate heat generated in the power element module installed inside the power conversion device to the outside. At the same time, the power conversion using the heat exchange type power element module that prevents the foreign matter from flowing into the power conversion device and maintains the performance of the power conversion device, thereby reducing the maintenance and repair costs. To provide an apparatus.

  In order to achieve the above object of the present invention, the present invention includes a case in which a storage space is provided and a power element is installed, an internal heat exchanger installed in the case, and A power element module connected to the internal heat exchanger, wherein the internal heat exchanger includes a heat exchange medium passage for allowing a heat exchange medium to pass therethrough, and the heat exchange medium passage and the case Provided is a power conversion device using a heat exchange type power element module, wherein the inside includes a heat release device that is shielded from each other and releases heat transferred to the internal heat exchanger to the outside of the case To do.

  It is preferable that the heat release device includes a blower that discharges air outside the case to the outside by passing the heat exchange medium passage.

  The heat release device is preferably connected to a cooling device for circulating the heat exchange medium in the heat exchange medium passage.

  The cooling device includes a heat exchanger installed outside the case, a connection between the heat radiator and the heat exchange medium passage, and a heat exchange medium supply pipe for supplying the heat exchange medium to the heat exchange medium passage. A heat exchange medium discharge pipe for connecting the heat exchange medium passage and the radiator, and supplying the heat exchange medium to the radiator, and the heat exchange medium supply pipe or the heat exchange medium discharge. It is preferable to include a pump installed in the pipe line and for circulating the heat exchange medium.

  The internal heat exchanger is preferably made of a heat conductor.

  Preferably, the case is provided with a fan for circulating the heat inside and transferring the heat to the internal heat exchanger.

  Such an embodiment of the present invention quickly dissipates the heat generated by the power element module installed inside the power converter and the heat of the case to the outside, and the heat transfer medium is inside the case. This prevents the inflow, maintains the performance of the power converter, and thereby reduces the maintenance cost.

It is the perspective view which showed the power converter device using the heat exchange type | mold power element module which concerns on embodiment in this invention. It is sectional drawing when an internal heat exchanger is cut | disconnected by making the II-II part of FIG. 1 into a cross section. It is a figure for demonstrating the operation | movement process of the power converter device using the heat exchange type power element module which concerns on embodiment of this invention. It is a block diagram of the power converter device which uses the heat exchange type power element module for demonstrating another embodiment in this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings so that a person having ordinary knowledge in the technical field to which the present invention can easily carry out. However, the present invention can be applied to various forms and is not limited to the embodiments described here. In the drawings, parts unnecessary for the description are omitted to clearly describe the present invention, and the same or similar components are denoted by the same reference numerals throughout the specification and the drawings.

  FIG. 1 is a perspective view showing a power conversion device using a heat exchange type power device module according to an embodiment of the present invention, and FIG. 2 is a section taken along the line II-II of FIG. It is sectional drawing when the internal heat exchanger 3 is cut | disconnected.

  A power conversion device using a heat exchange type power element module according to an embodiment of the present invention (PCS (Power Conversion System). Hereinafter, also simply referred to as “power conversion device”) includes a case 1, an internal heat exchanger 3, and a power It includes an element module 5 (Power device module). In the embodiments of the present invention, the power conversion device means a device that converts power, such as a DC (direct current) / AC (alternating current) inverter, an AC / DC rectifier, a DC / DC chopper, an AC / AC converter, and the like. .

  In the embodiment of the present invention, the power element includes IGBT (insulated gate bipolar transistor), SCR (silicon controlled rectifier or thyristor), diode, BJT (bipolar (junction) transistor), triac (bidirectional thyristor), A power control element used in a power conversion device such as a MOSFET (metal oxide semiconductor field effect transistor).

  The case 1 has a storage space therein, and a large number of power elements constituting the power conversion device are arranged in the storage space. The embodiment of the present invention is suitable for a large power converter.

  The internal heat exchanger 3 is installed inside the case 1. The power element module 5 is connected to the internal heat exchanger 3.

  On the other hand, the internal heat exchanger 3 is made of a heat conductor excellent in thermal conductivity, and is made of an aluminum alloy or a metal material. The internal heat exchanger 3 includes a heat exchange medium passage 3a (see FIG. 2) inside. The heat exchange medium passage 3a is formed so as to penetrate the internal heat exchanger 3 in the length direction. As shown in FIG. 2, the cross section of the heat exchange medium passage 3a may have a wave shape in order to increase the heat transfer efficiency.

  Further, the heat exchange medium passage 3a is preferably configured to be cut off from the inside of the case 1. As an example of an embodiment of the present invention, as shown in FIG. 1 and FIG. 3 to be described later, an upper portion of the heat exchange medium passage 3a is provided with an inlet portion 3b, and an outlet portion is provided on the opposite side of the inlet portion 3b. 3c is provided. The aforementioned inlet portion 3b or outlet portion 3c is provided with a heat release device 7. 1 and 3, an example in which the heat release device 7 includes a blower 9 will be described. The blower 9 uses air outside the case 1 as a heat transfer medium, and plays a role of passing the heat transfer medium through the heat exchange medium passage 3a of the internal heat exchanger 3 and discharging it to the outlet portion 3c side.

  In other words, the blower 9 can cool the internal heat exchanger 3 by discharging external air to the outlet 3c side through the heat exchange medium passage 3a of the internal heat exchanger 3.

  In such an embodiment of the present invention, as indicated by a dotted arrow in FIG. 3, the external air is simply passed through only the heat exchange medium passage 3 a of the internal heat exchanger 3, so that the internal heat exchanger 3 Can be cooled. In other words, since external air does not flow into the case 1, it is possible to safely protect the power elements and the like inside the case 1 from the outside contaminated air. Such an embodiment of the present invention can prevent the inside of the case 1 from being contaminated in the cooling process, maintain stable performance of the power conversion device, and keep the inside of the case 1 clean. Maintenance costs can be reduced by reducing maintenance work.

  On the other hand, a separate fan 10 can be installed inside the case 1 to circulate the internal air of the case 1. In particular, the heat generated in the power element module is continuously transmitted to the internal heat exchanger 3. Can be fulfilled.

  In the embodiment of the present invention, an example in which one power element module 5 is connected to one internal heat exchanger 3 is illustrated and described, but the present invention is not limited to this, and one internal heat exchanger 3 is illustrated. A large number of power element modules 5 may be installed, and a large number of internal heat exchangers 3 may be arranged, and the power element modules 5 may be installed in the respective internal heat exchangers 3.

  FIG. 4: shows the block diagram for demonstrating another embodiment which concerns on the power converter device of this invention. In the description of another embodiment of the present invention, the same parts as those in the above-described example (examples shown in FIGS. 1 to 3) are replaced by the description, and only other parts will be described.

  In another embodiment of the present invention, the heat release device 7 includes a cooling device 11 that circulates the heat exchange medium in the heat exchange medium passage 3a. The cooling device 11 can include a radiator 13, a heat exchange medium supply line 15, a heat exchange medium discharge line 17, and a pump 19. As shown in FIG. 4, the pump 19 may be placed inside the case 1 or inside the external radiator 13. However, considering that the pump 19 generates heat, the case 1 It is preferable to put it outside.

  The radiator 13 is preferably installed outside the case 1. Then, the radiator 13 and the heat exchange medium supply conduit 15 are connected. Further, the radiator 13 and the heat exchange medium discharge pipe 17 are connected. The pump 19 is installed in the heat exchange medium supply pipe 15 or the heat exchange medium discharge pipe 17 to play a role of circulating the heat exchange medium. That is, the heat exchange medium is made of a refrigerant or the like, and by the pump 19, the heat exchange medium passage 3a, the heat exchange medium discharge pipe 17, the radiator 13, the heat exchange medium supply pipe 15, and the heat exchange medium passage 3a again. The heat of the internal heat exchanger 3 can be transmitted to the radiator 13 while circulating.

  In another embodiment of the present invention, the heat generated in the power element module 5 or the electric element inside the case 1 is quickly discharged to the outside through the internal heat exchanger 3 as in the above example. Can be made. Of course, in the process of exhausting the heat inside the case 1 to the outside in this way, external air and pollutants do not flow into the case 1, thereby causing contaminants to flow into the power converter. Can be prevented.

  The preferred embodiments of the present invention have been described above. However, the present invention is not limited to these embodiments, and various modifications may be made within the scope of the claims, the detailed description of the invention, and the attached drawings. Of course, this is also within the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Case 3 Internal heat exchanger 3a Heat exchange medium path 3b Inlet part 3c Outlet part 5 Power element module 7 Heat release device 9 Blower 10 Fan 11 Cooling device 13 Radiator 15 Heat exchange medium supply line 17 Heat exchange medium discharge line 19 Pump

Claims (6)

A case with a storage space inside and a power element installed;
An internal heat exchanger installed inside the case,
And a power element module connected to the internal heat exchanger,
The internal heat exchanger includes a heat exchange medium passage for allowing a heat exchange medium to pass through,
A heat exchange type power element comprising: a heat release device that cuts off the heat exchange medium passage and the inside of the case and releases heat transferred to the internal heat exchanger to the outside of the case Power conversion device using modules.   2. The power conversion using the heat exchange type power element module according to claim 1, wherein the heat release device includes a blower that exhausts air outside the case to the outside of the case by passing through the heat exchange medium passage. apparatus.   The power converter using the heat exchange type power element module according to claim 1, wherein the heat release device is connected to a cooling device for circulating the heat exchange medium in the heat exchange medium passage.   The cooling device includes a heat exchanger installed outside the case, a connection between the heat radiator and the heat exchange medium passage, and a heat exchange medium supply pipe for supplying the heat exchange medium to the heat exchange medium passage. A heat exchange medium discharge pipe for connecting the heat exchange medium passage and the radiator, and supplying the heat exchange medium to the radiator, and the heat exchange medium supply pipe or the heat exchange medium discharge. The power converter using the heat exchange type power element module according to claim 3 including a pump installed in a pipe line and circulating the heat exchange medium.   The power converter using the heat exchange type power element module according to claim 1, wherein the internal heat exchanger is made of a heat conductor. The power conversion device using the heat exchange type power element module according to claim 1, wherein the case is provided with a fan for circulating heat inside and transmitting the heat to the internal heat exchanger.