KR20120094697A - Battery cooling device for vehicle - Google Patents

Abstract

PURPOSE: A battery cooling device is provided to prevent damages due to friction between a flange and a blower case, and to prevent noise due to air leak by absolutely sealing between the flange and the blower case. CONSTITUTION: A battery cooling device comprises a blower. The blower comprises: a blower case; a motor(130) arranged inside the blower case in order to absorb and discharge inner air in the battery housing, and connecting to a battery housing; a flange(140) for mounting the motor in the blower case; a wire(150) drawn to outside the blower case in order to electrically connect the motor to outside; and a guide element(160) sealing a distance between the blower case and the flange by being inserted between the blower case and the flange.

Description

Battery Cooling Device for Vehicles {Battery cooling device for vehicle}

The present invention relates to a vehicle battery cooling device, and more particularly to a vehicle battery cooling device for cooling the battery by smoothly discharging the hot air in the housing containing the battery.

Recently, the development of another type of vehicle that is environmentally friendly and fuel-efficient in a vehicle using a combustion engine, that is, a hybrid vehicle or an electric vehicle, is actively being developed worldwide.

In general, such a hybrid vehicle or an electric vehicle is equipped with a high-capacity battery to supply electric power to the motor when needed, and to charge the electric energy generated from the renewable power source when the vehicle is decelerated or stopped.

Such high-capacity batteries generate heat during repeated charging and discharging, and if the temperature rises rapidly, the battery life will be shortened and the battery cannot be used optimally. Therefore, to maintain the optimum performance of the battery, There is a need for a cooling system that properly cools.

Such a battery cooling system may exist in various forms, but most of them adopt an air cooling method, and supply an air to the battery through a duct through an independently controlled battery and discharge the heated air to the outside of the vehicle. Method is used.

1 illustrates a conventional vehicle battery cooling device.

As shown in FIG. 1, the conventional air-cooled cooling apparatus is configured to discharge suction air from the suction duct 30 and suction the air in the vehicle compartment to the battery housing 10 installed in the trunk room 1 of the vehicle, respectively. Consists of the discharge duct 40, a separate blower 50 is additionally installed on the discharge duct 40 for smooth air flow.

In addition, when the blower 50 is operated, air in the vehicle interior is sucked into the battery housing 10 through the suction duct 30, and the sucked air cools the battery 20 and then discharges the duct 40. Is discharged through).

In this case, the blower 50 is made of a BLDC (Brush Less DC) motor is assembled to the blower case, the BLDC motor is a flange (Flange) that is airtightly installed in the blower case and a wire (Wire) for electrical connection, etc. Is provided.

However, in the conventional vehicle battery cooling apparatus, there is a problem that air tightness is not good due to the clearance between the blower case and the flange when the blower case and the BLDC motor are assembled.

In addition, in the conventional vehicle battery cooling apparatus, damage such as peeling of the wire may occur due to friction caused by the contact between the blower case and the flange, such that disconnection may occur or the motor may not be operated.

In order to solve such a conventional problem, the present invention provides a vehicle battery cooling device that prevents damage to the wire and improves the airtightness between the blower case and the flange.

The vehicle battery cooling apparatus according to the present invention is for cooling the battery by discharging the hot air inside the battery housing including the battery to the outside, and is connected to the blower case and the battery housing and sucks and discharges the air in the battery housing. And a blower having a motor disposed inside the blower case so that the blower includes a flange for seating the motor on the blower case, and a wire drawn out of the blower case to electrically connect the motor to the outside. And a guide member interposed between the blower case and the flange to seal the clearance between the blower case and the flange and through which the wire penetrates.

The vehicle battery cooling apparatus according to the present invention prevents the wire from being burned out by friction with the flange and the blower case, and completely reduces the noise caused by the air leak by completely sealing the flange and the blower case.

1 illustrates a conventional vehicle battery cooling apparatus,
Figure 2 shows a perspective view of a vehicle battery cooling apparatus according to an embodiment of the present invention,
3 is a partial cross-sectional view of a vehicle battery cooling apparatus according to an embodiment of the present invention,
Figure 4 is an exploded perspective view of the blower according to an embodiment of the present invention,
5 is a perspective view showing a part of a blower according to an embodiment of the present invention,
6 is an exploded perspective view showing a part of a blower according to an embodiment of the present invention;
7 is a cross-sectional view showing a part of a blower according to an embodiment of the present invention;
8 is a cutaway perspective view showing a part of a blower according to an embodiment of the present invention.

Hereinafter, the technical configuration of the vehicle battery cooling apparatus according to the accompanying drawings in detail.

Figure 2 shows a perspective view of a vehicle battery cooling apparatus according to an embodiment of the present invention, Figure 3 shows a partial cross-sectional view of the vehicle battery cooling apparatus according to an embodiment of the present invention, Figure 4 is the present invention 5 illustrates an exploded perspective view of a blower according to an embodiment of the present disclosure, FIG. 5 is a perspective view illustrating a part of a blower according to an embodiment of the present invention, and FIG. 6 illustrates a portion of the blower according to an embodiment of the present invention. 7 is a cross-sectional view illustrating a part of a blower according to an embodiment of the present invention, and FIG. 8 is a cutaway perspective view illustrating a part of a blower according to an embodiment of the present invention.

As illustrated in FIGS. 2 to 8, the vehicle battery cooling apparatus 100 cools the battery 102 by discharging hot air inside the battery housing 101 including the battery 102 to the outside.

The battery housing 101 is typically installed in the lower rear seat of the vehicle or in the luggage compartment. Of course, the battery housing 101 may be installed in various places of the vehicle depending on the vehicle model.

A plurality of batteries 102 are accommodated in the battery housing 101, and a predetermined gap is formed between the battery housing 101 and the battery 102 to allow air to flow. In this case, an electrical equipment 103 for controlling the battery 102 may be installed at one side of the battery housing 101.

The vehicle battery cooling apparatus 100 includes a blower 110. The blower 110 includes a blower case 120 and a blower fan 135 provided with a motor 130. The motor 130 is disposed inside the blower case 120 and communicates with the battery housing 101 and sucks and discharges air in the battery housing 101.

The blower 110 includes a flange 140, a wire 150, and a guide member 160.

The flange 140 is a component forming the blower fan 135 together with the motor 130. The flange 140 seats the motor 130 on the blower case 120, has an annular band shape, It may be integrally formed on one side. The flange 140 may be seated on the top surface of the blower case 110 and may be fixed to the blower case 110 using a separate bolt or the like.

The wire 150 electrically connects the motor 130 to the outside, and is drawn out from the inside of the blower case 120. The wire 150 is connected to a control unit for controlling the motor 130.

The guide member 160 is interposed between the blower case 120 and the flange 140 to seal the clearance between the blower case 120 and the flange 140. In addition, the wire 150 penetrates the guide member 160 to be drawn out from the inside of the blower case 120.

Therefore, when the blower case 120 and the motor 130 are assembled, the covering of the wire 150 may be prevented from being peeled off due to scratches between the flange 140 and the blower case 120 made of aluminum. .

In addition, by completely sealing between the blower case 120 and the flange 140, it is possible to prevent the air leak (air leak) due to the clearance between the blower case 120 and the flange 140 and thereby reduce the noise. In particular, it is possible to prevent the air leak due to the play caused by the thickness of the wire 150 that passes between the blower case 120 and the flange 140 to the outside.

In this case, at least one through hole 161 is formed in the guide member 160 to allow the wire 150 to pass therethrough. The through hole 161 is elongated in the longitudinal direction of the guide member 160, that is, the direction in which the wire 150 is drawn out from the inside of the blower case 120.

As shown in the drawing, a plurality of through holes 161 may be formed to correspond to the number of strands of the wire 150, and may be formed in a single shape in the form of a long hole. The diameter of the through hole 161 may be appropriately designed so that the wire 150 may be sufficiently passed through, but not too much play occurs.

As the through-hole 161 is formed in the guide member 160 as described above, the play caused by the withdrawal of the wire 150 can be greatly reduced, and the wire 150 can be easily withdrawn to the outside. Is improved.

In addition, the guide member 160 is a plate shape having a thickness larger than the diameter of the wire 150, it is preferably made of a flexible material having elasticity.

As described above, as the guide member 160 is formed in a plate shape of a flexible material, the wire 150 may be drawn out between the flange 140 and the blower case 120 having a relatively thin thickness, and the sealing may be effectively performed. .

In addition, the flange 140 has a recess groove 141 is formed. The recess groove 141 is formed at one end surface of the flange 140 facing the blower case 120 to accommodate the guide member 160.

Therefore, when the guide member 160 is assembled between the flange 140 and the blower case 120, it is possible to completely eliminate the play that may be caused by the thickness of the guide member 160, the guide member 160 May be guided to the home position between the flange 140 and the blower case 120.

In addition, a sealing member 170 may be further provided to seal the entire mounting surface between the blower case 120 and the flange 140. The sealing member 170 is formed over the entire contact surface between the flange 140 and the blower case 120, and is formed in an annular shape corresponding to the shape of the contact surface.

Thus, the sealing between the blower case 120 and the flange 140 can be better.

In addition, the guide member 160 is formed to have the same height as the height of the recessed groove 141. Therefore, when the sealing member 170 is coupled to one surface of the flange 140 in a state where the guide member 160 is seated in the recess groove 141, the guide member 160 does not protrude toward the sealing member 170. Complete sealing is achieved without play in the vertical direction.

In addition, the recess groove 141 is formed to extend in the radial direction of rotation of the motor 130 on the flange 140 surface. Therefore, the operation of assembling the guide member 160 into the recessed groove 141 is easy, and the left and right sealing performance of the guide member 160 is further improved.

The vehicle battery cooling apparatus according to the present invention has been described with reference to the embodiments shown in the drawings, but this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Accordingly, the scope of the true technical protection should be determined by the technical idea of the appended claims.

101: battery housing 102: battery
110: blower 120: blower case
130: motor 140: flange
150: wire 160: guide member
141: recess groove 170: sealing member
100: cooling device 135: blowing fan

Claims (7)

It is for cooling the battery 102 by discharging hot air inside the battery housing 101 having the battery 102 to the outside, and communicates with the blower case 120 and the battery housing 101 and the battery housing. In the vehicle battery cooling device including a blower 110 having a motor 130 disposed inside the blower case 120 to suck and discharge the air in the 101,
The blower 110 is:
A flange 140 for seating the motor 130 on the blower case 120;
A wire 150 drawn out of the blower case 120 to electrically connect the motor 130 to the outside; And
Interposed between the blower case 120 and the flange 140 to seal the clearance between the blower case 120 and the flange 140, and includes a guide member 160 through which the wire 150 is penetrated. Vehicle battery cooling device, characterized in that. The method according to claim 1,
At least one through hole (161) is formed in the guide member (160) so that the wire (150) penetrates. The method according to claim 1,
The guide member (160) has a plate shape having a thickness greater than the diameter of the wire (150), the vehicle battery cooling device, characterized in that made of a flexible material having elasticity. The method according to claim 1,
The flange 140 is a vehicle battery cooling device, characterized in that the inlet groove (141) is formed so that the guide member (160) is accommodated on the surface facing the blower case (120). The method according to claim 1,
Vehicle cooling device for a vehicle characterized in that the sealing member 170 is further provided for sealing the entire mounting surface between the blower case 120 and the flange 140. The method of claim 4,
The guide member 160, the vehicle battery cooling apparatus, characterized in that formed to have the same height as the height of the recess groove (141). The method of claim 4,
The recess groove (141), the vehicle battery cooling apparatus, characterized in that formed in the radial direction of the rotation of the motor 130 on the flange (140) surface.

Images