KR100359245B1 - Ptc resistance assembly of blower motor - Google Patents

Abstract

PURPOSE: A PTC(Positive Temperature Coefficient) resistance assembly of a blower motor is provided to simplify a structure of an assembly by using a heatsink structure for emitting effectively the heat generated from a PTC device. CONSTITUTION: A heatsink fixing plate(12) is installed on a base(11). A PTC plate(13) is inserted into the heatsink fixing plate(12). The heatsink fixing plate(12) is formed with a conductive material such as aluminium. A heatsink fin(16) is formed on one side of the heatsink fixing plate(12) in order to increase a surface area. A terminal portion(17) is formed at the heatsink fixing plate(12). Three terminals(15) are installed at a lower portion of the heatsink fixing plate(12) in order to fix the heatsink fixing plate(12) to the base(11). The terminals(15) are formed with a metallic material. The PTC plate(13) is inserted into a space portion(18) by using a conductive adhesive(14).

Description

PTC resistor assembly of blower motor

The present invention relates to a PTC resistor assembly for controlling the rotational speed of the blower motor, and more particularly to a PTC resistor assembly of the blower motor to improve the simplification and stability of the structure of the PTC resistor assembly.

In general, thermistor refers to a semiconductor resistance element whose electrical resistance varies greatly with temperature. A thermistor is a mixture of sintered metal oxides suitable for transition metal oxides such as manganese, cobalt, nickel, and iron in an oxygen atmosphere, and a resistive electrode is attached thereto. Negative temperature coefficient (NTC) of resistance is used for temperature measurement, temperature control, temperature compensation, and constant voltage circuit. PTC (positive temperature coefficient) with constant temperature coefficient of resistance is used as heating element of thermostat and electronics. It can be used to maintain a constant temperature while interrupting current with a switch.

On the other hand, the air conditioner of the vehicle is provided with a blower motor for generating a blowing force, it uses a plurality of PTC resistance elements to adjust the rotational speed of the blower motor.

One such conventional embodiment is disclosed in US Pat. No. 5,268,665.

1 is an exploded perspective view showing a PTC resistor assembly of a blower motor previously applied, and FIG. 2 is a circuit diagram of a conventional blower motor.

As previously applied, a conventional PTC device assembly is provided with a PTC device plate 1 having two surfaces, the device plate 1 having a plurality of PTC devices disposed on at least one of two surfaces of the PTC device. The electrode plates 3 are formed by being electrically separated from each other, and the terminal plates 5 having the terminal portions 4 which are electrically separated from each other in the same manner as the electrodes 3 of the PTC element plates and each extend are PTC element plates 1. It is provided so as to face both surfaces of the), the insulating film 6 and the fixing plate (7) are provided on both surfaces of the terminal plate (5) and fastened by the fastening means (8), the above-described assembly is the base (9) ) Has a structure that is mounted.

The conventional PTC resistance assembly thus constructed is supplied with power to the blower motor M and the rotational speed of the blower motor M is controlled by the PTC element plate 1 of the resistive component. That is, when the operator electrically connects any one of the electrodes of the plurality of PTC element plates 1, the rotational speed of the blower motor M in proportion to the room temperature resistance of the PTC element is adjusted, and the abnormal current is applied to the blower motor M. When the flow is restricted or the rotation of the blower motor (M) is constrained to protect the blower motor (M) and the circuit by limiting the current to a sudden resistance increase in accordance with the self-heating characteristics of the PTC element plate (1).

However, the above-described conventional PTC resistor assembly has a problem in that it does not effectively dissipate heat generated by the self-heating characteristics in the PTC device plate (1).

In addition, the assembly and assembly structure of the PTC resistance assembly has a complex disadvantage, there was a problem that the response to vibration and shock is not enough.

Accordingly, the present invention is to solve the above-mentioned disadvantages, employing a heat dissipation structure that can effectively dissipate heat generated by the self-heating characteristics of the PTC element, and improve the assemblability by simplifying the assembly structure. It is possible to provide, and to provide a PTC resistance assembly with improved durability by vibration and shock.

The present invention for achieving the above object is a base, a heat dissipation fin is formed so as to have a heat dissipation characteristics by increasing the surface area on one surface, and a heat dissipation fixing plate having a flat terminal surface on the other side, and a plurality of extending to the lower portion of the heat dissipation fixing plate Two terminals, the terminal penetrates through the base, and the terminal is drawn out to the lower part of the base, and the heat dissipation fixing plate is fixed on the base, and the pair of heat dissipation fixing plates are disposed to face each other while maintaining a space between the terminal surfaces. A PTC resistance assembly of a blower motor is provided in which a PTC element plate having two surfaces in a space portion is inserted and joined by a conductive adhesive.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

1 is an exploded perspective view showing a PTC resistance assembly of a blower motor previously applied;

2 is a circuit configuration diagram of a conventional blower motor;

3 is an exploded perspective view showing a PTC resistance assembly of the blower motor according to the present invention;

4 is a partial sectional view showing a PTC resistance assembly of the blower motor according to the present invention;

5 is a side view of FIG. 4;

6 is a bottom view of FIG. 4.

<Description of the symbols for the main parts of the drawings>

11; Base 12; Heat-resistant

13; PTC element board 14; Conductive adhesive

15; Terminal 16; Terminal

Heat radiation fins 18; Space

Hereinafter, a PTC resistor assembly of a blower motor according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is an exploded perspective view showing a PTC resistance assembly of the blower motor according to the present invention, and FIGS. 4 to 6 are partial sectional views, side views, and bottom views showing the PTC resistance assembly of the blower motor according to the present invention.

As shown, in the present invention, the heat dissipation fixing plate 12 is installed on the base 11, and the PTC element plate 13 is inserted and joined between the heat dissipation fixing plates 12.

The heat dissipation fixing plate 12 is made of a material having excellent heat transfer characteristics, such as aluminum, and good electrical conductivity, so that the heat dissipation fins 16 are formed to have heat dissipation characteristics by increasing the surface area on one surface, and the terminal portion 17 is formed on the other surface. It has a heat dissipation function and a terminal function for electrical connection with the PTC element plate 13.

On the other hand, three terminals 15 are extended below the heat dissipation fixing plate 12 so as to penetrate the base 11 to fix the heat dissipation fixing plate 12 to the base 11. The terminal 15 is made of a metal material having excellent electrical conductivity and predetermined rigidity, and has a function of electrically connecting an external terminal and a function of firmly fixing the heat dissipation fixing plate 12 to the base 11. .

Each of the three terminals 15 is divided into a common electrode, an electrode through the PTC element plate 13, and an electrode through which a current flows directly to the blower motor without passing through the PTC element plate 13. However, two stages can be selected.

Meanwhile, the heat dissipation fixing plate 12 is formed in a pair so as to face each other while maintaining the space 18 between the terminal faces, and the PTC element plate 13 having two surfaces in the space 18 is conductive. It is inserted and bonded by the adhesive body 14.

The PTC resistor assembly of the blower motor according to the present invention having such a configuration has a heat dissipation function capable of dissipating heat generated by the heat dissipation fixing plate 12 according to the self-heating characteristics of the PTC element, and the PTC element plate 13 and the electric element. It is connected to and performs the terminal function simultaneously.

In addition, the terminal 15 serves to firmly fix the heat dissipation fixing plate 12 to one end of the base 11 as well as a function of electrically connecting an external terminal which is a unique function of the terminal 15.

In addition, the conductive adhesive 14 is moved even if the vibration and shock is repeatedly applied to the PTC resistor assembly for a long time, the position of the PTC element plate 13 is moved or the electrical contact state of the terminal portion 17 of the heat dissipation fixing plate 12 Prevents deterioration

In the above description, it should be understood that those skilled in the art can only make modifications and changes to the present invention without changing the gist of the present invention as it merely illustrates a preferred embodiment of the present invention.

Therefore, according to the present invention, by providing a structure integrating the heat dissipation fixing plate and the PTC element plate with a conductive adhesive, it is possible to reduce the number of components of the PTC device assembly, simplify the assembly structure, and penetrate the terminal of the heat dissipation fixing plate. It is possible to obtain the effect of improving the vibration resistance against vibration and shock by fixing by.

Claims (1)

A heat dissipation fin is formed to have a heat dissipation characteristic by increasing the surface area on one surface, and a heat dissipation fixing plate having a terminal surface formed on the other surface, a plurality of terminals extending below the heat dissipation fixing plate, and the terminal penetrating the base. The heat dissipation fixing plate is fixed to the base while being drawn out to the lower portion of the base, and the pair of heat dissipation fixing plates are disposed to face each other while maintaining a space between the terminal surfaces, and a PTC element plate having two surfaces in the space is conductive. PTC resistance assembly of a blower motor inserted and bonded by an adhesive.

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