KR200153481Y1 - Electromagnetic relay - Google Patents

Abstract

The present invention is designed to improve the assembly structure to simplify the assembly process and reduce the cost, in combination with the magnetic contactor and thermal overload relay, which is attached to the rail plate attached to the magnetic contactor and the thermal overload relay. The base plate is formed, respectively, so that the rail plate and the base plate are inserted and coupled to each other, so that the magnetic contactor and the thermal overload relay can be conveniently used without screwing.

Description

Combination structure of magnetic contactor and thermal overload relay

The present invention relates to a combination structure of a magnetic contactor and a thermal overload relay, and forms a rail plate attached to the magnetic contactor and a base plate attached to the thermal overload relay, respectively, and connects each plate by an insert assembly method. Will be improved.

Magnetic contactor is a device that opens and closes the circuit by the operation of electromagnet, and thermal overload relay has the function to cut off the switch by bimetal bending when overload occurs. It has a function of protecting against damage caused by open-phase operation.

The structure of the magnetic contactor and thermal overload relay is briefly described as follows.

The magnetic contactor has a fixed core and a movable core, and has a movable contact connected to the movable core and a fixed contact fixed to the case.

The coil is wound around the fixed core, and the fixed contact is connected to the terminal block.

When a current flows in the coil by the switch operation, a magnetic field is formed in the fixed core to attract the movable core.

When the movable core is sucked down, the movable contact is also moved downward to be brought into contact with the fixed contact, thereby forming a converter between the terminal blocks and allowing current to flow.

When the current flowing in the coil is cut off, the magnetic field of the fixed core disappears and the movable core returns upward by the action of the spring, and the current between the terminal blocks is blocked by separating the movable contact from the fixed contact.

The thermal overload relay includes a terminal to which a heater and a bimetal are connected, and a pressing plate is attached to the lower part of the bimetal to contact the mechanism.

The mechanism part has a lever, an ambient temperature compensation bimetal and a trip part.

When an overcurrent exceeding the rated current flows through the terminal, the bimetal is bent by the heat generated by the heater and pushes the pressure plate hanging on the lower part. Accordingly, the pressure plate is pushed to the side to press the ambient temperature compensation bimetal of the mechanism.

When the ambient temperature compensation bimetal is pressed, a lever fixed thereto presses the tripping portion, causing a trip and turning off the power supply. Ambient temperature compensation bimetal is curved to the left or right according to the ambient temperature, thereby adjusting the gap with the pressure plate to compensate for the change in the rated current according to the temperature change.

1 is a side view showing a conventional combination structure in the magnetic contactor and thermal overload relay as described above.

The thermal overload relay 4 is fastened to the connecting plate 3 having the fastening part 30 by a screw 6, and the magnetic contactor 5 is connected to the fastening part 30 of the connecting plate 3. It is fastened with a connecting screw (7).

By doing so, the magnetic contactor is connected to the thermal overload relay through the connection plate.

However, since the conventional magnetic contactor and thermal overload relay combination structure uses a method of fastening using a plurality of screws, the assembly process is cumbersome and the material cost is excessively required.

The present invention was devised to solve the problems of the prior art as described above, and its purpose is to simplify the assembly process and reduce the required cost in using a combination of a magnetic contactor and a thermal overload relay.

In order to achieve the above object, the present invention forms a rail plate attached to the electromagnetic contactor and a base plate attached to the thermal overload relay, respectively, so that the rail plate and the base plate can be inserted and coupled, and easily Allows a combination of contactor and thermal overload relay.

1 is a side view showing a combination structure of a conventional magnetic contactor and thermal overload relay;

2 is a side view and a detailed view of the coupling portion showing a combination structure of the magnetic contactor and thermal overload relay of the present invention;

Figure 3 is a perspective view showing the structure of the coupling portion of the rail plate and the base plate of the present invention

<Explanation of symbols for main parts of drawing>

1: Rail Plate

2: Base plate

10: engaging projection

11: insertion groove

20: joining piece

21: coupling groove

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same or equivalent parts as in the related art will be described with the same reference numerals.

2 is a side view and a detailed view of the coupling portion showing the combination structure of the electromagnetic contactor and the thermal overload relay of the present invention, Figure 3 is a perspective view showing a detailed structure of the coupling portion of the rail plate and the base plate.

As shown, the rail plate 1 is attached to the bottom of the magnetic contactor 5, and the base plate 2 is attached to the bottom of the thermal overload relay 4.

A coupling protrusion 10 and an insertion groove 11 having a V-shaped cross section are formed at a coupling portion of the rail plate 1, and a coupling piece 20 and a copper coupling are formed at the coupling portion of the base plate 2. There is a coupling groove 21 formed in the piece.

When the coupling piece 20 of the base plate 2 is inserted into the insertion groove 11 of the rail plate 1, the coupling protrusion 10 is pushed upward by elasticity and fixed in the coupling groove 21 of the coupling piece.

By combining and fixing the rail plate and the base plate as described above, the magnetic contactor and the thermal overload relay can be firmly fixed without screwing.

As described above, the present invention allows the combination of the magnetic contactor and the thermal overload relay to be used without screwing, thereby simplifying the assembly work and reducing the time and cost required for the assembly process.

The present invention aims to easily improve the combined structure of the magnetic contactor and thermal overload relay.

Claims (1)

In the magnetic contactor, which allows the magnetic contactor 5 and the thermal overload relay 4 to be used in combination, the rail plate 1 forms a coupling protrusion 10 and an insertion groove 11 at the engaging portion, and the base The plate 2 forms a coupling piece 20 and a coupling groove 21 in the coupling portion, and the coupling piece 20 is inserted into the insertion groove 11 so that the coupling protrusion 10 is inserted into the coupling groove 21. Combination structure of the magnetic contactor and thermal overload relay, characterized in that the rail plate and the base plate are coupled by being fixed.