KR101335700B1 - Resistor for controlling motor of cooling module - Google Patents

Abstract

The invention for a resistor for controlling a motor of a cooling module is disclosed. The resistor for controlling the motor of the cooling module comprises; a connector part which is installed between a power part and the motor and transmits electric energy of the power part to the motor; a plate shape resisting part which forms a resisting body having electric resistance as a plate shape and controls voltage by being connected to the connector part; an insulating part which is molded into an insulating material and is installed by being in contact with the plate shape resisting part; and a supporting part which fixates the plate shape resisting part and the insulating part on the position separated from the connector part.

Description

Motor control register of cooling module {RESISTOR FOR CONTROLLING MOTOR OF COOLING MODULE}

The present invention relates to a motor control register of a cooling module, and more particularly, to a motor control register of a cooling module which can improve durability of components by improving cooling efficiency of a resistor for controlling a speed of a motor.

In general, a cooling module is installed for cooling a heat exchange medium circulating inside a heat exchanger such as a radiator and a condenser of a vehicle, and the cooling module includes a radiator, a shroud, a motor, and a cooling fan.

As the cooling fan is rotated by the driving of the motor, air is blown axially by the wings of the cooling fan, and the heat exchanger is cooled by the air thus blown.

The air volume of the cooling fan is controlled by the speed change of the motor, and the speed change of the motor is controlled by adjusting the voltage applied to the motor in each step.

The resistor connected to the motor controls the speed of the motor because it controls the magnitude of the voltage delivered to the motor.

Background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 2006-0106506 (published on October 12, 2006, title of the invention: a resistor assembly for a fan shroud assembly).

The shroud for controlling the voltage of the motor is installed between the radiator and the shroud of the cooling module, but as the specification of the motor increases, the heat output of the coil member increases, and the heat generated from the coil member installed inside the resistor Since heat dissipation is not smoothly outward, the durability of the resistor is degraded by overheating. Therefore, there is a need to improve this.

The present invention has been created by the necessity as described above, by preventing the overheating of the resistor to control the speed of the motor to improve the durability of the resistor, the cooling module that can prevent damage to other components due to the damage of the resistor The purpose is to provide a motor control register.

The motor control resistor of the cooling module according to the present invention includes: a connector part installed between the power supply part and the motor and transmitting electrical energy to the motor, and a resistor having an electrical resistance formed in a plate shape and connected to the connector part to supply a voltage. It includes a plate-shaped resistor portion for controlling the, and the insulating portion is formed of an insulating material and installed in contact with the plate-shaped resistor portion and the support portion for fixing the plate-shaped resistor portion and the insulating portion spaced apart from the connector portion.

In addition, the connector portion, the terminal member is connected to the power supply and the motor, the connecting member extending from the terminal member is connected to the plate-shaped resistor portion and is installed in a shape surrounding the outer side of the terminal member and the terminal member electrically connecting the terminal member and the plate-shaped resistor portion It is preferable to include a housing member protruding to the outside.

In addition, the connection member includes a first transfer member for transmitting electrical energy supplied through the terminal member to the plate-shaped resistor portion, and a second transfer member and a second transfer member for supplying electrical energy having a low voltage through the plate-shaped resistor portion to the terminal member. It is preferable to include a temperature fuse installed in and to block the movement of electrical energy above a set temperature.

In addition, it is preferable that the insulating part includes a first insulating plate formed in a plate shape and installed in contact with one side of the plate-shaped resistor part and a second insulating plate formed in contact with the other side of the plate-shaped resistor part and formed in a plate shape.

In addition, the present invention preferably further includes a heat sink portion provided in contact with the insulation portion and provided with a plurality of heat dissipation holes in which heat is exchanged with air.

In addition, the support portion, one side is connected to the connector portion and the other side is a pair of leg members extending to the outside of the connector portion, connecting the bridge member and extends from the connecting plate and connecting plate in contact with the insulated portion and the plate-shaped resistance portion and the insulating portion and It is preferable to include a fixing member installed in a shape surrounding the heat sink.

The motor control resistor of the cooling module according to the present invention is installed in a state where the plate resistor is spaced apart from the connector to facilitate cooling of the plate resistor, and prevents the heat generated from the plate resistor from being transferred to the connector. Deformation by heat can be prevented.

In addition, the present invention, since the temperature fuse is included in the connecting member for electrically connecting the terminal member and the plate resistor, it is possible to improve the durability of the parts by preventing overheating of the plate resistor, and to prevent damage to other parts due to breakage of the connector portion You can prevent it.

1 is a perspective view schematically showing a motor control register of a cooling module according to an embodiment of the present invention.
2 is a perspective view schematically illustrating a state in which an insulating part, a plate-shaped resistor part, and a heat sink part are stacked on an upper side of a connecting plate according to an exemplary embodiment of the present invention.
Figure 3 is a perspective view schematically showing a state in which the fixing member is bent in a shape surrounding the heat sink portion according to an embodiment of the present invention.
4 is a front view of a motor control register of a cooling module according to an embodiment of the present invention.
5 is a bottom perspective view of a motor control register of a cooling module according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the motor control register of the cooling module according to the present invention. The motor control register of the cooling module installed in the vehicle's cooling system will be described as an example. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a perspective view schematically illustrating a motor control resistor of a cooling module according to an embodiment of the present invention, and FIG. 2 is an insulating part, a plate resistor part, and a heat sink on an upper side of a connecting plate according to an embodiment of the present invention. 3 is a perspective view schematically illustrating a stacked state, and FIG. 3 is a perspective view schematically illustrating a bent state in which a fixing member surrounds a heat sink unit according to an embodiment of the present invention, and FIG. 4 is one of the present invention. 5 is a front view of the motor control register of the cooling module according to the embodiment, and FIG. 5 is a bottom perspective view of the motor control register of the cooling module according to the embodiment of the present invention.

As shown in Figure 1 to 5, the motor control register 1 of the cooling module according to an embodiment of the present invention, is installed between the power supply and the motor connector portion for transmitting the electrical energy of the power supply to the motor ( 10), and a resistor having an electrical resistance is formed in a plate shape and connected to the connector portion 10 to adjust the voltage, and the plate-shaped resistor portion 30, formed of an insulating material and installed in contact with the plate-shaped resistor portion 30 Insulating portion 40, the plate-shaped resistance portion 30 and the insulating portion 40 includes a support portion 50 for fixing in a position spaced apart from the connector portion (10).

The speed of the cooling fan installed in the cooling device of the vehicle is controlled by the resistance of the motor control resistor 1 of the cooling module.

The motor control register 1 of the cooling module according to an embodiment may be installed between the power supply unit and the motor of the vehicle, and may control the rotation speed of the motor by adjusting a voltage transmitted to the motor.

The connector unit 10 installed between the power supply unit and the motor may be formed in various shapes in the technical concept of transferring electric energy of the power supply unit to the motor.

The connector part 10 according to the exemplary embodiment includes a terminal member 12, a connection member 14, and a housing member 22.

The terminal member 12 connected to the power supply unit and the motor is provided at both sides of the housing member 22, and the terminal member 12 is connected to the connection member 14.

The connection member 14 extends from the terminal member 12 and is connected to the plate-shaped resistor portion 30, and may be formed in various shapes within the technical concept of electrically connecting the terminal member 12 and the plate-shaped resistor portion 30. Can be.

The connection member 14 according to an embodiment passes through the first transfer member 15 and the plate resistor 30 to transfer the electric energy supplied through the terminal member 12 to the plate resistor 30. And a second transfer member 16 for supplying the electric energy having a lowered voltage to the terminal member 12, and a temperature fuse 20 installed at the second transfer member 16 to block the movement of the electric energy above a set temperature. It includes.

The lower side of the first transfer member 15 is connected to the terminal member 12, and the upper side of the first transfer member 15 extends to the upper side of the housing member 22 and is installed in contact with the plate-shaped resistor portion 30. do.

Electrical energy moved from the power supply unit to the connector unit 10 is transmitted to the plate-shaped resistor unit 30 along the first transfer member 15.

The second transfer member 16 connecting the plate-shaped resistor portion 30 and the terminal member 12 supplies electric energy having a low voltage through the plate-shaped resistor portion 30 to the terminal member 12. The temperature fuse 20 is installed on the two transfer members 16.

The second transfer member 16 according to an embodiment may include a first member 17 extending downward of the plate-shaped resistor portion 30 and a second member 18 connected to both sides of the temperature fuse 20. And a third member 19 connecting the second member 18 and the terminal member 12.

The first member 17 connected to the second member 18 is formed in a thin and long shape to have a low value of electrical resistance.

The first member 17 according to an embodiment is formed of an electrically conductive material, and is bent to “b” to extend below the connecting plate 54. The upper side of the first member 17 is connected to the plate-shaped resistor part 30 through the second insulating plate 44 of the insulating part 40.

The connection member 14 protrudes to the outside of the housing member 22 installed in a shape surrounding the outside of the terminal member 12.

As the plate-shaped resistor unit 30 connected to the connecting member 14, resistors having various shapes may be used in a technical concept in which a resistor having an electrical resistance is formed in a plate shape.

In the plate resistor unit 30 according to the exemplary embodiment, a pattern for generating resistance is provided on an outer surface thereof, and the first transfer member 15 and the second transfer member 16 are connected to the pattern.

The power of the electric energy supplied to the plate-shaped resistor unit 30 through the first transfer member 15 is lowered while passing through the pattern of the plate-shaped resistor unit 30, and the electric energy of which the power is lowered is transferred to the second transfer member 16. And through the temperature fuse 20 to the terminal member 12.

The pattern provided in the plate-shaped resistor unit 30 may be formed in various shapes within the technical concept for generating an electrical resistance to lower the voltage of electrical energy.

The insulating part 40 installed in contact with the upper side and the lower side of the plate-shaped resistor part 30 is formed of an insulating material.

Insulating part 40 according to an embodiment, the first insulating plate 42 is formed in a plate shape and installed in contact with one side of the plate-shaped resistor portion 30, the plate-shaped resistor portion 30 is provided in contact with the other side of the plate The second insulating plate 44 is formed in a shape.

Since the first insulating plate 42 and the second insulating plate 44 are formed of a material having high thermal conductivity, the heat generated from the plate resistor 30 is transferred to the heat sink 60 and the outside.

The first insulating plate 42 is in contact with the plate-shaped resistor unit 30, and the second insulating plate 44 is in contact with the plate-shaped resistor unit 30.

The heat sink 60, which is installed in contact with the upper side of the first insulating plate 42, is installed in contact with the insulating part 40, and has a plurality of heat dissipation holes 62 in which heat is exchanged with air. It may be formed in a shape.

The heat sink 60 according to an embodiment is formed in a rectangular plate shape, and the plurality of heat dissipation holes 62 are successively installed on the upper side of the heat sink 60, thereby increasing the area of heat exchange with air.

The heat sink 60 is formed of a material having high thermal conductivity, and heat generated from the plate resistor 30 is transferred to the heat sink 60 through the insulation 40, and then the heat sink 60. Heat exchange with the air passing through

The support part 50 which fixes the plate-shaped resistance part 30, the insulation part 40, and the heat sink part 60 to the position spaced apart from the connector part 10 is fixed to the connector part 10.

Support portion 50 according to an embodiment, one side is connected to the connector portion 10 and the other side is a pair of leg members 52 extending to the outside of the connector portion 10, connecting the leg member 52 And a connecting member 54 which is in contact with the insulating part 40 and a fixing member which extends from the connecting plate 54 and is formed to surround the plate-shaped resistor part 30, the insulating part 40, and the heat sink part 60. And 56.

The lower side of the leg member 52 is inserted into and fixed to the housing member 22, and the upper side of the leg member 52 is connected to the connecting plate 54.

The plate-shaped connecting plate 54 supports the lower side of the second insulating plate 44 and is installed in a horizontal direction, and the fixing member 56 protruding to the upper side of the connecting plate 54 includes the heat sink 60. It is bent and fixed in a form to surround the outside of the insulating portion 40 and the plate-shaped resistor portion 30.

Hereinafter, with reference to the accompanying drawings will be described in detail the operating state of the motor control register (1) of the cooling module according to an embodiment of the present invention.

Electrical energy supplied from the power supply unit is transmitted to the plate-shaped resistor unit 30 through the terminal member 12 and the first transfer member 15.

The electric energy of which the voltage is lowered while passing through the plate-shaped resistor part 30 passes through the first member 17, the second member 18, the temperature fuse 20, and the third member 19 to the terminal member 12. Delivered.

The electrical energy in the state where the voltage is lowered is transmitted to the motor through the terminal member 12 to adjust the rotational speed of the motor.

The plate resistor unit 30 generates heat by the energy loss generated while the voltage decreases.

The heat generated from the plate-shaped resistor unit 30 is transferred to the first insulating plate 42 and the second insulating plate 44, and the heat transferred to the first insulating plate 42 is exchanged with air through the heat sink 60. This is done.

In more detail, the motor control register 1 of the cooling module installed between the power supply unit and the motor is installed between the radiator of the cooling module and the shroud. Heat generated in the plate-shaped resistor unit 30 is radiated by air passing through the motor control register 1 of the cooling module through the radiator.

When the motor control register 1 of the cooling module is operated together with the cooling module, heat generated in the plate resistor unit 30 may be easily dissipated due to the rotation of the cooling fan, but the rotation of the cooling fan is stopped. The connector portion 10 may be melted by the heat generated by the plate-shaped resistor portion 30.

The temperature fuse 20 is connected to the connection member 14 to prevent overheating of the plate-shaped resistor unit 30, and the operation of the temperature fuse 20 can be performed more quickly in a state where the cooling fan is stopped. The heat is generated in the first member 17 so that.

Since the first member 17 is made of a conductive material and is formed in an elongated shape, resistance is generated when electrical energy passes.

That is, heat is generated in the first member 17 when electrical energy passes through the first member 17, as heat generated by the resistance is generated when the electrical energy passing through the wide cross-sectional area passes through the narrow cross-sectional area.

Since the heat generated from the first member 17 by the electrical resistance is relatively low temperature, the heat generated from the first member 17 does not properly affect the temperature fuse 20 when the cooling fan is operated. .

However, when the operation of the cooling fan is stopped, heat generated in the first member 17 is transferred to the temperature fuse 20, and heat generated in the plate resistor 30 is also transferred to the temperature fuse 20. The operation of the temperature fuse 20 can be made more quickly.

When the operation of the cooling fan is stopped, the temperature fuse 20 is quickly operated to block the supply of electrical energy to the plate resistor 30, thereby preventing overheating of the motor control resistor 1 of the cooling module. .

According to the configuration as described above, the motor control resistor 1 of the cooling module according to an embodiment, the plate-shaped resistor portion 30 is installed with the connector portion 10 spaced apart from the plate-shaped resistor portion 30 of the Cooling may be easily performed, and heat generated from the plate-shaped resistor part 30 may be prevented from being transferred to the connector part 10 to prevent the connector part 10 from being deformed by heat.

In addition, since the temperature fuse 20 is included in the connection member 14 electrically connecting the terminal member 12 and the plate-shaped resistor unit 30, the durability of the component may be improved by preventing overheating of the plate-shaped resistor unit 30. It is possible to prevent damage to other components due to breakage of the connector unit 10.

In addition, since the cross-sectional area of the leg member 52 supporting the connecting plate 54 is reduced, the heat generated from the plate-shaped resistor unit 30 is blocked from being transmitted to the connector unit 10, thereby preventing the injection of the connector unit 10. Melting can be prevented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

In addition, the motor control register of the cooling module installed in the cooling device of the vehicle has been described as an example, but this is merely exemplary, and the motor control register of the cooling module according to the present invention may be used in another mechanical device in which the cooling fan is installed.

Accordingly, the true scope of protection of the present invention should be defined by the claims.

1: Register for motor control of cooling module
10: connector portion 12: terminal member
14: connecting member 15: first transfer member
16: second delivery member 17: first member
18: second member 19: third member
20: temperature fuse 22: housing member
30: plate resistor 40: insulation
42: first insulating plate 44: second insulating plate
50: support 52: leg member
54: connecting plate 56: fixing member
60: heat sink 62: heat dissipation hole

Claims (6)

A connector unit installed between the power unit and the motor, and configured to transfer electrical energy of the power unit to the motor;
A resistor having an electrical resistance is formed in a plate shape and connected to the connector to adjust a voltage;
An insulating part formed of an insulating material and installed in contact with the plate-shaped resistor part; And
It includes a support for fixing the plate-shaped resistance portion and the insulated portion spaced apart from the connector portion,
The connector unit may include a terminal member connected to the power supply unit and the motor;
A connection member extending from the terminal member and connected to the plate resistor, and electrically connecting the terminal member and the plate resistor; And
Installed in a shape surrounding the outside of the terminal member, the motor control register of the cooling module, characterized in that it comprises a housing member protruding outward .
delete The method of claim 1,
The connection member may include: a first transfer member configured to transfer electrical energy supplied through the terminal member to the plate resistor;
A second transfer member passing the plate-shaped resistor and supplying electrical energy having a low voltage to the terminal member; And
Installed in the second transfer member, the motor control register of the cooling module, characterized in that it comprises a temperature fuse for blocking the movement of electrical energy above a set temperature.
The method of claim 1,
The insulating portion is formed in a plate shape, the first insulating plate which is installed in contact with one side of the plate-shaped resistor; And
And a second insulating plate disposed in contact with the other side of the plate-shaped resistor unit and formed in a plate shape.
The method of claim 1,
And a heat sink provided in contact with the insulation and having a plurality of heat dissipation holes for exchanging heat with air.
The method of claim 5, wherein
The support portion, one side is connected to the connector portion and the other side of the pair of leg members extending to the outside of the connector portion;
A connecting plate connecting the leg members and in contact with the insulating part; And
And a fixing member extending from the connecting plate and configured to surround the plate-shaped resistor portion, the insulating portion, and the heat sink portion.

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