KR20130053470A - Ventilation modules intergrated controller - Google Patents

Abstract

PURPOSE: A controller integrated ventilation module is provided to improve the space utilization of a vehicular seat and to lower a production cost by integrally mounting a controller and a blower housing. CONSTITUTION: A controller integrated ventilation module comprises a blower housing(100), a controller(200), and a heat sink. The blower housing comprises an inlet, an outlet(160), and a blower. The blower comprises a blowing motor and a blowing fan. The controller is integrally installed on the outer surface of the blower housing. The heat sink is combined in the heating unit of a printed circuit board inside the controller and is extended to the inside of the housing. The heat sink is cooled through the inside air flow of the blower housing for cooling the heating element of the controller.

Description

Controller integrated ventilation module {VENTILATION MODULES INTERGRATED CONTROLLER}

The present invention relates to a controller integrated ventilation module, and more particularly, to an integrated ventilation module that achieves system stabilization by simplifying the system configuration and cooling the heating element of the controller by integrating the controller and blower housing.

In general, an automobile is provided with an air conditioner comprising an air conditioner and a heater, and the air conditioner controls the temperature of the room.

However, since the air conditioner does not have a function of controlling the temperature of the car seat, a separate device is provided to cover the heating and cooling of the seat, but the conventional ventilation module has a blower, a heat exchanger, and a controller. The space utilization of the vehicle seats was poor, and the development cost of the seats increased due to their separate development costs.

In addition, since a separate device must be attached for cooling the heating element through the configuration having a separate controller, there is a problem that the configuration of the cooling structure is difficult.

The present invention is to solve the above-mentioned problems of the prior art, by integrally mounting the controller and blower housing, it is possible to reduce the cost, increase the space utilization of the seat for the vehicle, the assembly of the seat air-conditioning device It is an object of the present invention to provide an integrated ventilation module that is facilitated.

In addition, the present invention provides an integrated ventilation module that can easily cool the heating element by using the wind inside the blower by installing a heat sink inside the blower housing that can efficiently cool the heating element of the controller. The purpose is.

Controller integrated ventilation module according to the present invention for solving the above problems, the blower 110 having a blower motor 111 and a blower fan 112 has an inlet 150 and outlet 160 therein Blower housing 100 is installed; A controller 200 that is integrally installed with the blower housing on an outer surface of the blower housing; A heat sink 120 coupled to the heat generating portion of the printed circuit board in the controller and extending into the housing; The heat sink is cooled by using a flow of air generated when the blower is rotated.

In addition, the controller integrated ventilation module according to the present invention, a suction port for suctioning air smaller than the outer diameter of the blower fan is installed on one side of the housing, the controller is characterized in that formed on the opposite side of the suction port of the blower housing The heat sink is characterized in that formed in the air flow path 130 between the blower fan of the blower for sucking and discharging the air from the suction port and the discharge port through which the sucked air is discharged.

In addition, when the blower housing and the controller is connected, the blower housing and the controller is characterized in that it has a structure that is directly connected to the first connector protruding from the controller power supply and the second connector of the blower fan power supply. When connected, the printed circuit board seating portion is formed to have a predetermined space in the blower housing so that a heating element is disposed on one side, and a printed circuit board on which a heat sink is disposed on one side is coupled to the controller cover.

In addition, the heat sink is characterized in that the coupling to the heat generating portion of the printed circuit board by any one of a connector or soldering method, the shape of the heat sink is plate-shaped or rod-shaped, is arranged parallel to the air flow direction It is characterized by.

According to the conventional seat ventilation module, the blower, the heat exchanger, and the controller are separately configured, and thus the space utilization of the vehicle seat is poor, and the development cost of the seat increases due to their separate development cost. By combining them integrally, the space utilization of the sheet is also increased, the assembly of the device is easy, and the cost is reduced.

In addition, the configuration of the cooling structure is simpler than the configuration with a separate controller, and because the wind inside the blue house is used, there is an effect that can easily cool the heating element without extra energy consumption.

1 is a layout view of a conventional seat ventilation module.
Figure 2 shows a perspective view of the controller integrated ventilation module.
Figure 3 is a perspective view showing the internal structure of the controller integrated ventilation module and the position of each component.
Figure 4 shows a side view of the controller integrated ventilation module.

Hereinafter, with reference to the accompanying drawings will be described in detail preferred embodiments of the controller integrated ventilation module according to the present invention (hereinafter referred to as 'ventilating module'). In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In the case of the conventional ventilation sheet as shown in Figure 1, the blower housing 11 including the blower and the heat exchanger is disposed on one side of the seat, the controller 12 for controlling this is arranged on the other side of the seat In this case, the space utilization of the vehicle seat is inferior, a problem of development cost when developing it separately, problems such as cooling of the controller heating element that consumes extra energy.

The present invention relates to a ventilation module mounted on a vehicle seat, wherein the seat in which the ventilation module is installed has an inlet for intake of air from the outside, and a discharge hole for discharging the remaining air discharged to the seat supply port of air sucked from the outside. A housing to be formed, a blower mounted inside the housing to be operated by a motor to distribute the introduced air to the outside of the housing, and a heat exchanger for cooling and heating the air introduced into the housing through the inlet. It provides a blower housing and a ventilation module, characterized in that the manufacturing a controller for controlling the integrally.

If the blower housing and the controller are integrated, the system configuration can be simplified first, thereby reducing the development cost of the product.

There are many options for designing the controller to be attached to one side of the blower housing. Depending on the size of the controller, the blower housing may be attached at various positions such as the top, bottom, and side of the blower housing.

At this time, the controller is preferably located on the opposite side of the inlet of the blower housing, Figure 2 shows the configuration of placing the controller 200 on the opposite side of the inlet of the blower housing 100. Through such a configuration, it is possible to optimize the size of the ventilation module and increase the space utilization of the seat.

On the other hand, when the controller operates, heat is generated in the heating element inside the controller, and a separate device for cooling it is required. In the present invention, this problem is solved by placing a separate heat sink in the air passage inside the blower housing. This allows the heat sink to be cooled through the air flow inside the blower housing without additional energy consumption, thereby cooling the heating element of the controller.

The heat sink can be arranged according to the position of the heating element of the controller. The heat sink is more advantageously disposed in the air passage before passing the heat exchanger through the blower in the housing of the blower. Efficiency can be indicated. The shape of the heat sink may have various shapes, and typical heat sinks may have a plate shape or a rod shape.

3 is a perspective view showing the internal structure of the controller integrated ventilation module and the position of each component, the blower 110 and the heat sink composed of the ventilation motor 111 and the ventilation fan 112 in the blower housing. 120, the air flow path 130, the rough arrangement position of the heat exchanger 140 is shown.

The heat sink may be arranged in various forms, and it is more preferable to arrange the heat sink in an arrangement that optimizes thermal efficiency without disturbing the air flow. However, in the case of rod-shaped, it is desirable to arrange in a number that does not interfere with the air flow.

3 shows a typical position of the heat sink, which is disposed in the air flow path 130 inside the blower housing, and has a rod-shaped heat sink 120 arranged in a channel that does not disturb the air flow. It is shown. When the shape of the heat sink is plate-shaped, it may be more advantageous to arrange the heat sink in a state in which the heat sink is disposed parallel to the air flow direction.

If the heat sink is arranged inside the blower, unlike the conventional case, there is an effect that the heating element of the controller can be easily cooled without additional energy consumption.

4 shows a side view of the integrated controller module, the shape of the controller 200 is coupled to the blower housing opposite to the inlet 150 of the blower housing, and passes through the heat exchanger 140. An outlet 160 for supplying air to the seat is shown.

Coupling between the controller and the blower housing can be performed in various ways. For example, there is a method of forming a printed circuit board seating portion in the blower housing and combining the same through a separate cover. In this case, a method of fixing a separate bolt and a hook using a hook may be used to couple the cover. In FIG. 4, a printed circuit board seating part is formed on one side of the blower housing, and the cover is coupled thereto. In addition, when the heat sink 120 is coupled to the heating element 210 of the controller, it can be done in various ways. It is recommended that the heat sink 120 is coupled by using a connector and a soldering method. .

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: blower housing 110: blower
111: blowing motor 112: blowing fan
120: heat sink 130: air flow path
140: heat exchanger 150: inlet
160: outlet 200: controller
210: heating element

Claims (8)

A blower housing having a suction port and a discharge port, the blower housing having a blower motor and a blower fan installed therein;
A controller integrated with the blower housing on an outer surface of the blower housing;
A heat sink coupled to a heat generating portion of the printed circuit board in the controller and extending into the housing;
Controller integrated ventilation module, characterized in that for cooling the heat sink using the flow of air generated when the blower rotates. The controller integrated ventilation module according to claim 1, wherein an inlet for sucking air smaller than an outer diameter of the blower fan is installed on one side of the housing, and the controller is formed on an opposite side of the inlet of the blower housing. . The controller integrated ventilation module according to claim 1, wherein the heat sink is formed in an air flow path between a blower fan of a blower for sucking and discharging air from the suction port and a discharge port through which the sucked air is discharged. The controller integrated ventilation module according to claim 1, wherein the blower housing and the controller are directly connected to a first connector protruding from a controller power supply and a second connector of a blower fan power supply. The printed circuit board of claim 1, wherein when the blower housing and the controller are connected, a printed circuit board seating part is formed to have a predetermined space in the blower housing so that a heating element is disposed at one side and a heat sink is disposed at one side. And a controller integrated ventilation module, characterized in that coupled to the controller cover. The controller integrated ventilation module according to claim 1, wherein the heat sink is coupled to the heat generating portion of the printed circuit board by any one of a connector and soldering. 7. The controller integrated ventilation module according to any one of claims 1 to 6, wherein the heat sink has a plate shape and is disposed in parallel to the air flow direction. 7. The controller integrated ventilation module according to any one of claims 1 to 6, wherein a shape of the heat sink is arranged in a rod shape.

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