KR200304676Y1 - Fixation structure of heat working type overload relays - Google Patents

Abstract

The present invention relates to a fixed structure of the thermal overload relay.

The present invention is a thermal overload relay formed to protect the load device by opening and closing the contact of the electronic switch using the heat generated by the overload, the binding groove formed with a guide and a stopper having a projection for preventing separation to the top of the terminal base The both ends of the heating wire wound by a bimetal connected to the terminal pin via an insulating member are connected to the bimetal and the terminal, and a displacement generating part having a movable plate formed on the upper part of the bimetal is inserted into the terminal base. The bottom portion of the trip body having a built-in tripping part having a binding protrusion is formed so that the binding protrusion is inserted into the fixing recess and fixed, and an exposure hole is formed so that the terminal is exposed to the outside, and having locking protrusions integrally at both upper and lower ends. A cover is formed so that the tip of the binding protrusion is in contact with the stopper. It is designed to prevent the insertion and to be separated from each other by the binding projections which are in contact with the separation preventing projection, and to be fixed and fixed without using a separate assembly or fixture, thereby increasing the convenience of assembling work, and checking and It is to make replacement easy.

Description

Fixation structure of heat working type overload relays}

The present invention relates to a fixed structure of a thermal overload relay, and particularly in a thermal overload relay that automatically opens and closes a movable contact of an electronic switch using heat generated by an overload, a terminal base and a tripping mechanism with a built-in heating unit. It is possible to increase productivity by increasing the convenience of work and to facilitate inspection and replacement by attaching and fixing the built-in trip part to be fixed to each other without using a separate assembly. will be.

In general, the magnetic contactor has a main function in charge of opening and closing control of an electric circuit, and the operation is formed to be selectively operated by the operation of the electromagnet.

The magnetic contactor has a contactor, an operating electromagnet, and an overload motion device in one case, and when the pushbutton switch is operated at a long distance, the magnetic contactor is easily used to open and close the AC motor.

In addition, a thermal relay constituting the overload motion device is built in the case so that the circuit is cut off when an overcurrent continues to flow.

These thermal relays are usually configured to operate only when overcurrents that are likely to overheat are not operated, but do not operate with current flowing in a short time, such as overcurrents when starting the motor due to the slow operation of the bimetal. .

However, when using a magnetic contactor with a built-in thermal relay, there is a problem that the heat generated from the thermal relay is easily aged due to the heating of the case, the electromagnet provided inside the case.

In order to solve such a problem, another electronic switch has been proposed to selectively couple and fix the magnetic contactor and the thermal relay.

The thermal relay of the proposed electronic switch is separated into upper and lower bodies, so that when the overload is applied to the power applied through the terminal from the terminal of the contactor, the heat is proportional to the generated overload. The bimetal is bent in one direction by the heat generated at this time.

In addition, a movable plate is formed on the upper part of the bimetal to move like a bimetal bent in one direction to operate a mechanical intermittent part provided at the upper part thereof to cut off the power applied to the magnetic contactor, thereby automatically shutting off the power applied to the load side. It is formed to be blocked.

However, since the lower body with the built-in bimetal and the upper body with the mechanical intermittent part are fixedly coupled with a plurality of screws, there is a problem that is unproductive and uneconomical as many processes are required in manufacturing and assembling them.

In addition, since the upper and lower bodies are fixed by screws, when the screws are excessively tightened in the process of assembling and using, the upper and lower bodies are all replaced due to wear or damage of the fastening portion of the upper and lower bodies contacting the threads of the screws. There was a problem to be done.

In the process of inspecting and replacing, prepare a driver, which is a separate tool, and use a prepared screwdriver to disassemble the screw that secures the upper and lower bodies, and then replace the damaged parts or parts that are not working smoothly. There was this.

The present invention has been devised to solve such a problem, and the terminal base and the trip unit with a built-in heating mechanism that generates a predetermined heat when an overload occurs, the trip mechanism is formed to be separated from each other, each separated terminal base and trip By fixing the parts to each other without using a separate assembly or fastener, the convenience of manufacturing and assembly work can be increased to increase the productivity, and through this, a thermal type that can easily check and replace easily. The purpose is to provide a fixed structure for the overload relay.

The present invention for achieving the above object is a thermal overload relay formed to protect the load device by opening and closing the contact of the electronic switch using the heat generated by the overload, the guide having a projection for preventing separation to the top of the terminal base And a recessed groove portion formed with a stopper, and both ends of the heating wire wound through the insulating member on the bimetal connected to the terminal pin are connected to the bimetal and the terminal, and the displacement generating part having the movable plate formed on the upper part of the bimetal is inside the terminal base. Inserted into the, and forming a trip part having a binding protrusion at the bottom of the trip body with a built-in trip mechanism part so that the binding protrusion is inserted and fixed to the binding recess groove, and forms an exposure hole so that the terminal is exposed to the outside, the upper and lower ends To form a cover integrally with the locking projections; The object is achieved by providing a fixed structure of a thermal overload relay, characterized in that the stage is in contact with the stopper so that it is no longer inserted, and is prevented from being separated from each other by the binding projections in contact with the separation preventing projections. .

1 is a plan view showing a state in which the thermal overload relay according to the present invention is connected to the electromagnetic contactor.

Figure 2 is a longitudinal cross-sectional view showing the internal structure of the thermal overload relay and the electromagnetic contactor in accordance with the present invention in contact.

3 is an exploded perspective view of a thermal overload relay according to the present invention;

Figure 4 is an exploded perspective view of the main portion of the thermal overload relay according to the present invention.

Figure 5 is an enlarged main view longitudinal section in the state in which the trip unit and the terminal base constituting the thermal overload relay according to the present invention.

Figure 6 is a longitudinal cross-sectional view of the main portion enlarged in a different direction in the state in which the trip unit and the terminal base constituting the thermal overload relay according to the present invention.

<Brief description of symbols for main parts of the drawings>

100: terminal base 120: binding recess 121: projection for preventing separation

122: guide 123: stopper 200: displacement generating unit

210: terminal pin 220: bimetal 230: heating wire

240: insulating member 250: movable plate 260: terminal

300: trip part 310: trip body 320: trip mechanism part

330: binding protrusion 400: cover 410,420: locking projection

430: exposed ball

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

1 to 6, the fixed structure of the thermal overload relay according to the present invention is a terminal base 100, the displacement generating unit 200 formed inside the terminal base 100, and the terminal base ( The trip part 300 detachably provided at the upper part of the 100 and the trip part 300 fixed to the upper part of the terminal base 100 while preventing the displacement generating part 200 from being exposed to the outside are provided. It is composed of a cover 400 provided to prevent falling back.

Here, the terminal base 100 is formed so that the space portion 100 is divided into a plurality of partitions (110a) inside, the partitions (110a) is formed in a shape spaced apart at a predetermined interval from the top The movable plate 250 to be described later is formed to allow reciprocating movement from side to side.

In addition, the binding recess 120 formed on the upper portion of the terminal base 100 has a guide 122 formed with a separation preventing protrusion 121 having a predetermined length in the form of a groove, and the guide 122 A stopper 123 having a predetermined height is formed at the rear thereof, and is formed to prevent the binding protrusion 330 to be described later from falling further to the rear.

The separation preventing projection 121 is formed to have the same shape as the inclined surface of the triangular shape in which the inclination angle is increased toward the center from the inner surface of the guide 122, a part or the whole of the center of the guide 122 It may be used in the form of the same length.

In addition, the lower end side of the terminal base 100 is formed with a locking projection 130 having a triangular shape is formed to be coupled to the other locking projections 420 formed on both sides in the lower portion of the cover 400 to be described later.

The displacement generating unit 200 is to protect the load device by cutting off the power applied to the contactor by the heat generated in proportion to the load generated while the load device is driven, the terminal pin 210 and the terminal pin ( Bimetal 220 having a predetermined length vertically fixed to the rear lower portion of the 210 and a heating line 230 having a predetermined length wound in a state in which one side is in contact with the bimetal 220, a heating line An insulating member 240 for insulation is inserted between the 230 and the bimetal 220.

In addition, the upper part of the bimetal 220 is provided with a movable plate 250 having a protrusion 251 having a predetermined height on one side thereof to operate the lever 321 formed in the trip mechanism part 320 to be described later. It is.

In addition, the heating line 230 is connected to one side of the terminal 260 formed in a form bent so that the upper and lower ends of the heating line 230 is opposed to the other side fixed to the bimetal 220.

The trip part 300 is configured to cut off the power applied to the magnetic force generating part of the contactor according to the movement of the movable plate provided on the upper part of the bimetal bent according to the heat generated by the overload, the trip body 310, It is composed of a trip mechanism 320 provided in the trip body 310.

Here, the trip body 310 is formed so that the fixing projection 330 having a predetermined length in the lower portion is inserted into the fixing recess 120 formed in the upper portion of the terminal base 100 to be fixed. The upper part of the upper part is a return knob 340 for supplying power to the trip mechanism 320 to check the operation of the contactor, an emergency stop button 350, and an adjusting knob 360 for adjusting the sensitivity of the power supply (current). ) Is formed.

As shown in FIG. 4, the binding protrusion 330 is formed to have a triangular inclined surface shape so as to be in contact with the separation preventing protrusion 121 formed at both edges of the binding recess 120 to increase adhesion. It is.

In addition, a lower portion of the trip body 310 is provided so that the lever 321 having a switch function for selectively applying or blocking power to the trip mechanism 320 provided therein to be exposed to a predetermined length and the movable plate. It is formed to abut on the projection 251 formed on the (250).

The cover 400 is formed in a rectangular shape so as to cover one side surface of the terminal base 100 and the trip part 300 in a fixed connection state, and locking protrusions 410 and 420 are formed at edges of upper and lower sides thereof. And the other locking protrusion 130 formed at the lower portion of the terminal base 100 and the locking hole 311 formed at the trip part 300 to be coupled and fixed.

In addition, an exposed hole 430 having a predetermined width or area is formed at one side so that one end of the terminal 260 inserted into and fixed to the space 110 of the terminal base 100 may be exposed to the outside. Formed.

In the drawings, reference numeral 500 is a contactor, 510 is a fixed terminal, 520 is a movable terminal, 530 is a magnetic force generating portion, 540 is a spring, 550 is coupled to the connection terminal fixed The contact 560 is a connecting terminal.

Such thermal overload relays are provided in the space part 110 provided inside the terminal base 100 in a state where the movable plate 250 is fixed to the upper part of the bimetal 220 constituting the displacement generating unit 200. Inserting the displacement generating unit 200 is inserted so that the front end of the terminal pin 210 is exposed to one side of the terminal base (100).

At this time, it is preferable that the terminal 260 is inserted into the fixing groove 110b.

Next, while inserting the binding protrusion 330 formed at the bottom of the trip body 310 of the tripping portion 300 from the front of the binding recess 120 formed in the upper portion of the terminal base 100, the binding protrusion 330 The fixing of the terminal base and the trip part 300 is completed by inserting until one side thereof reaches the stopper 123 formed at the rear of the fastening recess 120.

Next, in the state in which one end of the terminal 260 is exposed through the exposure hole 430 formed in the cover 400, the locking projections 410, 420 formed in the upper and lower portions of the cover 400 are respectively caught by the trip body 310. The assembly of the thermal overload relay is completed by fixing the ball 311 to the other locking protrusion 130 of the terminal base 100.

Therefore, the binding protrusion 330 formed at the bottom of the trip body 310 of the trip unit 300 is inserted into the binding recess 120 formed at the upper portion of the terminal base 100, but the binding protrusion 330 The tip of the abutment stops the stopper 123 is no longer inserted, and at the same time is prevented from being separated from each other by the binding protrusion 330 in contact with the separation preventing projection 121.

In addition, while preventing the displacement generating part 200 inserted into the space part 110 of the terminal base 100 from being exposed to the outside, the trip part 300 fixedly coupled to the upper part is attached to the cover 400. It is prevented from moving to the rear by the separation.

In this state, the installation work is completed by fixing the terminal 260 and a wire (cable) not shown to the connection terminal 560 formed in the contactor 500.

When an overload occurs in the process of using the thermal overload relay installed in this state, the heating wire 230 is heated to generate heat, and the heat generated to bend the bimetal 220 formed therein to bend. At the same time, the movable plate 250 provided thereon is moved from left to right as in the direction of the arrow shown in FIG. 3.

Therefore, the protrusion 251 formed on one side of the movable plate 250 operates the lever 321 protruding from the bottom of the trip body 310 to cut off the power applied to the trip mechanism part 320, thereby resulting in a contactor ( The power applied to the magnetic force generating unit 530 provided inside the 500 is cut off, and at this time, the movable terminal 520 attached to the fixed terminal 510 is spaced apart by the elastic force of the spring 540. The contact is separated and the power applied to the load device through the connection terminal 560 is cut off to protect the load device.

Thus, the present invention is formed so as to separate the terminal base and the heating case with a built-in heating unit to generate a predetermined heat when the overload occurs, the trip case with a built-in trip unit, respectively, the terminal base and the trip case to separate the binding groove and the binding protrusion By using the mutual coupling fixation, it is possible to increase the productivity of the manufacturing and assembly operations to increase the productivity, and through this, to facilitate easy inspection and replacement.

Claims (2)

In the thermal overload relay formed to protect the load device by opening and closing the contact of the electronic switch using the heat generated by the overload, In the upper portion of the terminal base 100 to form a binding recess 120 formed with a guide 122 having a protrusion for preventing separation 121 and the stopper 123, the terminal pin 210 is connected to the bimetal 220 The heating wire 230 wound through the insulating member 240 is connected to the bimetal 220 and the terminal 260, and the displacement generating unit 200 having the movable plate 250 formed on the bimetal 220. The tripping unit 330 is inserted into the terminal base 100 to form a trip unit 300 having a binding protrusion 330 under the trip body 310 in which the trip mechanism 320 is built. It is inserted into the recess 120 to be fixed, the exposure hole 430 is formed so that the terminal 260 is exposed to the outside, and by forming a cover 400 having the locking projections (410, 420) integrally in the upper and lower ends The tip of the binding protrusion 330 abuts on the stopper 123 so that it is not inserted anymore, and fits into the separation preventing protrusion 121. Fixed structure of the thermal overload relay, characterized in that configured to prevent the mutual separation by the binding protrusions 330 in contact. The method of claim 1, The fixing protrusion 330 formed at the bottom of the trip body 310 is fixed structure of the thermal overload relay, characterized in that formed to have a triangular inclined surface form.