KR100968615B1 - Manufacturing Method of Motor Control Register - Google Patents

Abstract

The present invention relates to a method for manufacturing a motor control register, and a housing member 10 having a coil storage chamber 11 having one side opened, and inserted into an interior of the coil storage chamber 11, both ends of the housing member ( 10 includes a resistance coil member 20 protruding to the outside and having an arbitrary resistance value, and a molding member 30 filled in the coil storage chamber 11 of the housing member 10, wherein the molding member 30 ), Alumina (AL ₂ O ₃ ) cement is used.

The present invention by molding the housing member 10 using alumina cement having high insulation, thermal conductivity and heat resistance, thereby preventing the risk of product deformation, fire, and explosion caused by heat generation of the resistance coil member 20 during use. There is.

In addition, the present invention is to preheat the housing member 10 to shorten the drying time of the molded alumina cement to shorten the process time of the molding operation, it is effective to minimize the shrinkage by moisture evaporation during drying.

Therefore, it is a very useful invention which increases the safety and productivity of the motor control register.

Description

Manufacturing Method of Resistor for Controlling Motor

The present invention relates to a method for manufacturing a motor control resistor, and more particularly, to manufacture through alumina cement molding to invent safety and durability as well as workability and productivity.

In general, a car can keep the indoors contaminated by the passenger's breathing, outdoor atmosphere, or external temperature change in a fresh state, or by cooling and heating the room temperature to maintain a comfortable temperature for the passenger's body. An air conditioning system is installed.

In the air conditioner, a radiator, a heat exchanger such as a condenser, and the like, are equipped with a cooling fan that cools the fluid to be heat exchanged, and the cooling fan is operated by being rotated by a fan motor.

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

The motor control register controls the voltage applied to the fan motor to control the speed change of the fan motor, and is wound around the cylindrical ceramic body member 1 and the cylindrical ceramic body member 1 as shown in FIG. 1. Non-flammable cement (3) is wrapped around the outer side of the resistance coil (2), the resistance coil (2), the both ends of the resistance coil (2) protrudes outward to prevent contact with the outside air; It is provided on each end side of the cylindrical ceramic body member 1, and includes a terminal member (4) wound around the cylindrical ceramic body member (1) protruding to one side and both ends of the resistance coil (2) are respectively connected to each other. do.

The resistance coils 2 protrude to both sides of the non-combustible cement 3 and are welded and fixed to the terminal member 4, respectively, and the terminal members 4 are respectively connected to connectors for wiring connection with a motor. It is connected.

However, the conventional motor control resistor has a problem that the non-combustible cement surrounding the resistance coil on the outside of the cylindrical ceramic body is easily peeled off by the heat generated from the shock and the resistance coil generated from the outside, thereby exposing the resistance coil to the outside.

As described above, since the resistance coil exposed to the outside is oxidized by contact with air, causing a malfunction, there is a closed end that requires maintenance.

In addition, the non-combustible cement of the conventional motor control resistor has a low insulation and thermal conductivity, which is a factor to increase the risk of deformation, fire, explosion, etc. of the product, thereby causing a problem that the stability of the motor resistor is greatly reduced. .

SUMMARY OF THE INVENTION An object of the present invention is to provide a method of manufacturing a resistor for controlling a motor that molds a resistance coil member with alumina cement having high insulation, thermal conductivity, and heat resistance to prevent deformation, fire, and explosion of a product, and to increase product safety. There is.

Another object of the present invention is to provide a method of manufacturing a motor control resistor that shortens the process time of a molding operation and increases the productivity of a product through preheating.

The present invention provides a housing preheating step of heating a housing member having a coil storage chamber having one side opened, and inserting a resistance coil member into a coil storage chamber of the housing member;

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A molding process of filling the alumina cement poured into the coil storage chamber of the housing member through the housing preheating process;

It is solved by providing a method for manufacturing a motor control resistor including a molding drying process for drying the molded alumina cement after the molding process.

The present invention by molding the housing member using alumina cement having high insulation, thermal conductivity, heat resistance, there is an effect that the risk of deformation, fire, explosion of the product due to the heat generated by the resistance coil member during use.

In addition, the present invention has the effect of shortening the drying time of the molded alumina cement by preheating the housing member to shorten the process time of the molding operation, minimizing shrinkage due to moisture evaporation during drying.

Therefore, it is a very useful invention which increases the safety and productivity of the motor control register.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

2 is an exploded perspective view of the present invention, in which the housing member, the resistance coil member, the connection terminal member, and the molding member are respectively disassembled and shown.

3 is a cross-sectional view showing the internal structure of the present invention, showing a state in which alumina cement is filled and molded in the coil storage chamber of the housing member.

Fig. 4 is a state diagram of use of the present invention, showing an example in which the motor control register according to the present invention is attached to a connector.

FIG. 5 is a block diagram sequentially illustrating a manufacturing method of the present invention, and schematically illustrates a housing preheating process, a molding process, and a molding drying process.

Hereinafter, as shown in FIGS. 2 to 3, the housing member 10 includes a coil storage chamber 11 into which a resistance coil member 20 can be inserted into one side of a body, and the coil storage chamber 11 is One surface is formed by being dug into one surface of the body of the housing member 10 in an open groove shape.

And the housing member 10 is not broken or damaged by the heat generated from the resistance coil member 20 during operation using a ceramic housing made of a ceramic material, and found that it can be made of any material having a high heat resistance in addition to the ceramic. Put it.

Both sides of the housing member 10 is preferably formed with a terminal guide groove 12 is inserted into the connection terminal member 40 to be described later around the body.

The terminal guide groove 12 is to guide the coupling position of the connection terminal member 40 to be wrapped around the outer periphery of the housing member 10 to be able to assemble the position of the connection terminal member 40 in a constant manner.

The resistance coil member 20 is based on the use of nichrome wire, which is an alloy of nickel and chromium, and any material having a resistance that interrupts the flow of current is included in the configuration of the present invention.

The resistance coil member 20 is embedded in the coil storage chamber 11 so that both ends protrude to the outside of the housing member 10 to protrude to a position corresponding to the terminal guide groove 12, respectively.

In addition, after the resistance coil member 20 is inserted, the coil storage chamber 11 of the housing member 10 is filled with a molding member 30 to block the resistance coil member 20 from external air.

Since the resistance coil member 20 is oxidized upon contact with external air, a quality problem occurs, and thus the resistance coil member 20 is completely blocked from the external air by filling the molding member 30.

The molding member 30 preferably uses alumina (AL ₂ O ₃ ) cement.

The alumina cement is a cement material having an alumina (AL ₂ O ₃ ) content of 70% or more. The alumina cement is known to have high insulation and thermal conductivity and high heat resistance.

The alumina cement has a high insulation property to prevent the occurrence of short circuit due to the current flow to the outside, as well as to prevent the deformation of the external shape due to the high heat generated in the resistance coil member when the overcurrent, overvoltage due to high heat resistance, It is thermally conductive to quickly release heat to the outside to prevent the occurrence of fire and explosion due to overheating.

The alumina cement is mixed with water and then poured into the coil storage chamber 11 of the housing member 10 to mold the coil storage chamber 11 and then dry.

The molding member 30 is preferably used by mixing a fluid with the alumina cement, and the alumina cement and the fluid are mixed in a weight ratio of more than 100: 0.0 and less than 0.03.

The fluid is to protect the surface by forming a thin coating film on the surface after drying the alumina cement.

In addition, the flow material is to make the alumina cement to clarify well in water to be easily poured with a small amount of water to reduce the shrinkage rate by evaporation of water after drying and to speed up the drying, that is, the curing speed.

In addition, the fluid increases fluidity to facilitate filling of the alumina cement into the coil reservoir 11.

The fluid is based on the use of a polymer resin having a product name of PERAMIN CONPAC 149S, the PERAMIN CONPAC 149S is a kind of known fluid sold as a detailed description will be omitted.

The molding member, that is, alumina cement is filled and molded in the coil storage chamber 11 and dried to prevent oxidation of the resistance coil member 20 due to external air, thereby increasing durability of the product.

On the other hand, both sides of the housing member 10 is provided with a coupling terminal member 40 is coupled to each side, the connecting terminal member 40 is made of a conductive material and formed of a terminal plate having a predetermined width and length Both sides of the housing member 10 are coupled along the terminal guide grooves 12.

One end of the connection terminal member 40 is bent to protrude to the outside of the housing member 10 is formed of a terminal connecting portion 41 which is connected to the connector terminal portion 53 to be described later, the other end of the housing member 10 It is bent to protrude to the outside, it is formed to be a coil fixing portion 42 is bent to overlap the arbitrary length by the terminal connecting portion 41 and the coil fixing groove 42a is formed at the end.

As shown in FIG. 3, both ends of the resistance coil member 20 protrude to one surface to which the molding member 30 is filled, and are inserted into the coil fixing groove 42a of the coil fixing part 42 to connect the terminal connection part ( 41).

The coil fixing part 42 is welded and fixed to the terminal connection part 41 together with both ends of the resistance coil member 20 protruding through the coil fixing groove 42a.

As described above, both ends of the resistance coil member 20 are inserted into the coil fixing groove 42a of the coil fixing part 42 and connected to the terminal connecting part 41 at a predetermined position.

Therefore, it is possible to maintain a constant quality during the automation of the manufacturing process of the product, it is possible to mass production with a uniform quality.

On the other hand, the motor control register of the present invention is mounted on the connector 50 for wiring connection with the motor, respectively, as shown in FIG.

The connector casing 50a of the connector 50 is provided with first and second connector portions 51 and 52 that can be connected to and coupled with other connectors for wiring with a motor thereon.

In addition, the connector 50 is provided with a fuse (60) to prevent fire in the event of overcurrent and overload.

The lower part of the connector casing (50a) is provided with a connector terminal portion 53, each of which is connected to each terminal connecting portion 41 of the connection terminal member 40 is fixed to projecting, the housing member of the motor control resistor on both sides The housing support 54 which supports 10 and firmly mounts is protruded.

Since the housing support 54 is heated by the heat generation of the resistance coil member 20 during operation, the housing support 54 is preferably made of a metal material to prevent deformation due to heat generated from the motor control resistor. The manufactured housing support 54 is fixed to both sides of the connector casing (50a) by insert injection method during the manufacturing of the connector casing (50a).

In the motor control register of the present invention, the terminal connecting portion 41 is welded and fixed to the connector terminal portion 53 of the connector 50, and both ends of the housing member 10 are supported by the housing support 54, thereby providing a connector 50. And the connector 50 is electrically wired with the fan motor through the first and second connector parts 51 and 52, thereby controlling the speed of the fan motor with the motor control register of the present invention.

Wiring and principle for controlling the speed of the fan motor with the motor control register of the present invention is well known and detailed description thereof will be omitted.

On the other hand, the motor control resistor of the present invention is produced by the manufacturing method as shown in Figure 5 in molding the coil storage chamber 11 of the housing member 10 by using alumina cement as the molding member 30 will be.

 Once the housing member 10 is subjected to a housing preheating process 100 that is heated in the heating chamber.

In the housing preheating process 100, the housing member 10 is placed in a heating chamber (not shown) having an internal temperature maintained at 70 ° C. to 120 ° C., and heated for 30 minutes or more. And inserting the resistance coil member 20 into the coil storage chamber 11.

The housing preheating process 100 is to speed up the drying of the molding member 30 including the alumina cement filled therein, as well as to reduce the amount of shrinkage due to moisture evaporation due to drying after molding.

The housing member 10 is subjected to a molding process 110 for filling the alumina cement poured into the coil storage chamber 11 after the housing preheating process 100.

The molding process 110 includes a molding material mixing step 111 of mixing the fluid with alumina cement and pouring it into water.

In the molding material mixing step 111, the alumina cement and the fluid are mixed and used in a weight ratio of more than 100: 0.0 and less than 0.03.

The fluid is to protect the surface by forming a thin coating film on the surface after drying the alumina cement.

In addition, the flow material is to make the alumina cement to clarify well in water to be easily poured with a small amount of water to reduce the shrinkage rate by evaporation of water after drying and to speed up the drying, that is, the curing speed.

In addition, the fluid increases fluidity to facilitate filling of the alumina cement into the coil reservoir 11.

The fluid is based on the use of a polymer resin having a product name of PERAMIN CONPAC 149S, the PERAMIN CONPAC 149S is a kind of known fluid sold as a detailed description will be omitted.

The housing member 10 includes a molding drying process 120 for drying and curing the molded alumina cement after the molding process 110.

The molding drying process 120 may be left by drying the alumina cement-molded housing member 10 at room temperature, but heat-dried by inserting the alumina cement-molded housing member 10 into a heating chamber (not shown) It is desirable to.

The housing member 10 is dried in a closed state in a heating chamber maintained at an internal temperature of 40 ℃ to 60 ℃ (preferably 50 ℃) is to be quickly dried and cured, thereby drying in the molding member 30 The cracks can be prevented from occurring.

The present invention is not limited to the above-described embodiments, and various changes can be made without departing from the gist of the present invention, which is understood to be included in the configuration of the present invention.

1 is a perspective view showing a conventional motor control register

2 is an exploded perspective view of the present invention

Figure 3 is a cross-sectional view showing the internal structure of the present invention

4 is a state diagram used in the present invention

5 is a block diagram sequentially illustrating a manufacturing method of the present invention.

* Description of the major symbols in the drawings *

10: housing member 11: coil storage chamber

12: terminal guide groove 30: molding member

40: connecting terminal member 41: terminal connection

42: coil fixing part 50: connector

100 housing preheating process 110 molding process

111: molding material mixing step 120: molding drying process

Claims (5)

delete delete A housing preheating process of heating a housing member having a coil storage chamber having one side opened and inserting a resistance coil member into a coil storage chamber of the housing member; A molding process of filling the alumina cement poured into the coil storage chamber of the housing member through the housing preheating process; After the molding process comprises a molding drying process for drying the molded alumina cement, The molding process includes a molding material mixing step of pouring a fluid in alumina cement and pouring it into water, and in the molding material mixing step, the alumina cement and the fluid are mixed in a weight ratio of more than 100: 0.0 and less than 0.03. A method of manufacturing a motor control resistor. delete The method according to claim 3, The molding drying process is a method of manufacturing a motor control resistor, characterized in that the drying by inserting the housing member molded alumina cement into the heating chamber.

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