KR101846225B1 - Thermal Overload Relay - Google Patents

Abstract

The thermal overload relay according to an embodiment of the present invention includes a terminal movable contact and a terminal fixed contact, and an inverted terminal movable contact that operates inversely to the opening and closing of the terminal movable contact and the terminal fixed contact, and a thermal overload A relay device comprising: a body portion having a head capable of receiving a user's input and a spring capable of storing an elastic force against an upward pressure; And a test button comprising a leg provided with a power transmitting lever.

Description

Thermal Overload Relay {Thermal Overload Relay}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a thermal overload relay, and more particularly, to a thermal overload relay having a test button for determining whether a trip operation is normally performed.

Generally, a thermal overload relay is a low voltage power device which is mainly used in a circuit for power supply interrupting of an electric motor which is used by constructing an electromagnetic switch in combination with a magnetic contactor, The movable contact of the electromagnetic contactor is driven to the circuit open position and the load on the circuit is safely maintained by utilizing the thermal property of the bimetal which curves when the overcurrent is energized.

For example, a thermal overload relay is an electric power device used to prevent overcurrent from burning out the motor by opening the circuit to sense overcurrent when an overcurrent occurs in the motor.

Fig. 1 shows a reset state as an internal structure of a thermal overload relay according to the prior art. The terminal movable contact 95 and the terminal fixed contact 96 are in contact with each other in the reset state and the inverted terminal movable contact 97 and the inverted terminal fixed contact 98 are separated from each other.

FIG. 2 shows the trip state of the thermal overload relay according to the prior art. In the tripped state, the terminal movable contact 95 and the terminal fixed contact 96 are separated, and the inverted terminal movable contact 97 and the inverted terminal fixed contact 98 are in contact with each other.

The operation principle of the thermal overload relay according to the prior art is as follows. When the overcurrent flows on the circuit in the reset state of FIG. 1, when the bimetal 24 is deformed by heat and rotates in the counterclockwise direction, the release lever 23 coupled thereto also rotates counterclockwise. When the projecting portion 25 at the end of the release lever 23 presses the middle portion of the inverting terminal movable contact 97, the inverting terminal movable contact 97 is moved to the inverting terminal fixed contact 98 by the elastic force of the reversing spring 28 . At this time, the inverting terminal movable contact 97 contacts the intermediate protruding portion 32 of the auxiliary holder 31 to raise the auxiliary holder 31. At this time, the lower protruding portion 36 of the auxiliary holder 31 contacts the terminal movable contact 95), the terminal movable contact 95 is separated from the terminal fixed contact 96. Thus, a trip state as shown in Fig. 2 is achieved.

3 shows a state of pulling the test button 41 forcibly to perform a trip operation, that is, a state for determining whether or not a trip operation is normally performed using the test button 41. [ When the test button 41 is pulled upward, the power transmission lever 45 of the test button 41 pushes up the upper protrusion 37 of the auxiliary holder 31 to move the auxiliary holder 31 upward. At this time, the inverting terminal movable contact 97 is brought into contact with the intermediate protruding portion 32 of the auxiliary holder 31 to raise the auxiliary holder 31, and the lower protruding portion 36 of the auxiliary holder 31 is brought into contact with the terminal movable contact 95 The terminal movable contact 95 is separated from the terminal fixed contact 96 and the tripped state is established.

However, in the thermal overload relay according to the related art, the gap between the terminal movable contact 95 and the terminal fixed contact 96 may be different from the interval between the inverted terminal movable contact 97 and the inverted terminal fixed contact 98 have. 2, the inverting terminal movable contact 97 is in contact with the inverting terminal fixed contact 98 while pushing up the intermediate protruding portion 32 of the auxiliary holder 31, and in the same test as in FIG. 3 In the operating state, when the power transmitting lever 45 of the test button 41 pushes the upper protruding portion 37 of the auxiliary holder 31 and the inverting terminal movable contact 97 is in contact with the inverting terminal fixed contact 98 It is because.

As a result, the trip operation in the steady state may be inconsistent with the trip in the test operation. In addition, there may be a possibility of inconsistency of the switching of the contacts due to the difference between the interval of the terminal contacts and the interval of the inverting terminal contacts.

Reference may be made to Korean Patent No. 10-0689321 entitled " Thermal Overload Relay ", as a prior art related to the present invention.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a thermal overload relay in which a trip operation and a test operation coincide with each other by making the interval between the terminal contacts and the interval between the inverted terminal contacts coincide with each other.

The thermal overload relay according to an embodiment of the present invention includes a terminal movable contact and a terminal fixed contact, and an inverted terminal movable contact that operates inversely to the opening and closing of the terminal movable contact and the terminal fixed contact, and a thermal overload A relay device comprising: a body portion having a head capable of receiving a user's input and a spring capable of storing an elastic force against an upward pressure; And a test button comprising a leg provided with a power transmitting lever.

Here, the power transmission lever includes a support portion projecting laterally from the leg portion and an extension portion extending rearwardly from the support portion.

The power transmission lever may further include a contact portion protruding from the end portion of the power transmission lever.

According to the thermal overload relay of the embodiment of the present invention, since the moving distance of the movable contact during the trip operation is the same as the moving distance of the movable contact during the test operation, the reliability of the test result is improved. In addition, since the clearance of the terminal contact portion and the clearance of the reversal terminal contact portion are formed to the same, there is an effect that the possibility of inconsistency of the contact switching is reduced.

FIG. 1 is an internal view of an open / close device of a thermal overload relay according to the related art, and shows a reset state.
Fig. 2 shows the trip state in Fig.
FIG. 3 shows the test trip state in FIG.
4 is a perspective view of a test button applied to a thermal overload relay according to the prior art.
5 is an internal view of an opening / closing device of a thermal overload relay according to an embodiment of the present invention, and shows a reset state.
FIG. 6 shows the test trip state in FIG.
7 is a perspective view of a test button applied to the thermal overload relay according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, which are intended to illustrate the present invention in a manner that allows a person skilled in the art to easily carry out the invention. And does not mean that the technical idea and scope of the invention are limited.

5 is an internal view of an opening / closing device of a thermal overload relay according to an embodiment of the present invention, and shows a reset state. FIG. 6 shows a test trip state in FIG. 7 is a perspective view of a test button applied to the thermal overload relay according to an embodiment of the present invention. The thermal overload relay according to each embodiment of the present invention will be described in detail with reference to the drawings.

The thermal overload relay according to the embodiment of the present invention includes a terminal movable contact 95 and a terminal fixed contact 96 and a reverse terminal operation which operates inversely to the opening and closing of the terminal movable contact 95 and the terminal fixed contact 96 A thermal overload relay comprising a contact (97) and an inverting terminal fixed contact (98), comprising: a head part (61) capable of receiving a user input; a spring (70) And a leg portion 67 provided with a power transmission lever 69 projecting vertically to the side so as to be able to move in contact with the inverting terminal movable contact 97. [ 60).

The reset state of the thermal overload relay according to one embodiment of the present invention is shown in FIG. The terminal movable contact 95 and the terminal fixed contact 96 are in contact with each other in the reset state and the inverted terminal movable contact 97 and the inverted terminal fixed contact 98 are separated from each other.

The test trip state of the thermal overload relay according to an embodiment of the present invention is shown in FIG. In the tripped state, the terminal movable contact 95 and the terminal fixed contact 96 are separated, and the inverted terminal movable contact 97 and the inverted terminal fixed contact 98 are in contact with each other.

The test button 60 mainly comprises a head portion 61, a body portion 64, and a leg portion 67.

The head portion 61 may be formed with a handle 62 that is recessed to be hand-held by a user.

The body portion 64 is formed with an insertion groove 65 into which a spring 70 can be inserted.

A stopper 66 protrudes horizontally from the lower end of the body 64. The stopper 66 is formed on a part of the inner wall of the upper case 22 of the thermal overload relay so as to support the spring 70 when the test button 60 rises as the head 61 is pulled And contacts the spring pedal jaw 19 to determine the rising limit of the test button 60. [

The leg portion 67 is inserted into the test link 51, and a locking protrusion 68 capable of moving the test link 51 protrudes forward. Further, a power transmitting lever 69 is protruded from the leg portion 67 so as to be perpendicular to the side surface. The power transmission lever 69 is composed of a support portion 69a projecting to the side in the drawing and an extension portion 69b formed to be bent rearward from the support portion 69a. The contact portion 69c may protrude upward from the end of the extended portion 69b. It is possible to accurately determine the position at which the power transmission lever 69 contacts the reversing terminal movable contact 97 by the formation of the contact portion 69c and there is an effect that the action force is concentrated.

The operation of the thermal overload relay according to one embodiment of the present invention will be described. The test trip operation is as follows.

When the user pulls the test button 60 upward, the power transmission lever 69 of the leg portion 67 pushes the lower portion of the inverting terminal movable contact 97 upward. The contact portion 69c of the power transmission lever 69 pushes up the lower portion of the inverting terminal movable contact 97 precisely. At this time, the inverting terminal movable contact 97 pushes up the auxiliary holder 31 upward as it comes in contact with the intermediate protrusion 32 of the auxiliary holder 31. The terminal movable contact 95 of the auxiliary holder 31 pushes upward the terminal movable contact 95 so that the terminal movable contact 95 is separated from the terminal fixed contact 96. [ The test trip operation according to the present embodiment has the same moving distance of the inverting terminal movable contact 97 as the actual tripping operation.

The operation for testing whether only the terminal movable contact 95 is normal or not is as follows. The drawings of this operation are not separately shown.

When the user presses the head 61 of the test button 60 downward, the test button 60 is lowered and the engaging protrusion 68 is engaged with the lower surface 55a of the vertical slot 55 of the test link 51 ). At this time, the spring 70 is compressed between the descending head portion 61 and the fixed spring support step 19. The test link 51 rotates in the clockwise direction around the rotating shaft hole 53. As a result, As a result, the opening protrusion 58 of the test link 51 also rotates in the clockwise direction so that the terminal movable contact 95 is separated from the terminal stationary contact 96 and pushed upward. Therefore, in the open state in which the inverting terminal movable contact 97 and the inverting terminal fixed contact 98 are separated from each other, only the terminal contact open from the terminal stationary contact 96 is completed for the terminal movable contact 95 .

In this state, when the user releases his or her hand from the test button 60, the test button 60 is raised by the elastic restoring force of the spring 70 and returned to the initial state. The terminal protrusion 58 of the test link 51 is rotated counterclockwise and is spaced downwardly from the terminal movable contact 95 and the terminal movable contact 95 is moved in the initial state by the resilient restoring force of the leaf spring, That is, the terminal fixed contact 96. [

According to the thermal overload relay of the embodiment of the present invention, since the moving distance of the movable contact during the trip operation is the same as the moving distance of the movable contact during the test operation, the reliability of the test result is improved. In addition, since the clearance of the terminal contact portion and the clearance of the reversal terminal contact portion are formed to the same, there is an effect that the possibility of inconsistency of the contact switching is reduced.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

19 spring base jaw 22 upper case
31 auxiliary holder 32 intermediate protrusion
36 Lower protrusion 51 Test link
53 Pivot shaft hole 55 Vertical slot
55a lower surface 58 opening protrusion
60 Test button 61 Head
62 Handle 64 Body
65 Insertion slot 66 Stopper
67 Leg portion 68 Strapping
69 Power transmission lever 69a Support
69b extension portion 69c contact portion
70 Spring 95 Terminal operation contact
96 Terminal fixed contact 97 Reverse terminal movable contact
98 Reverse terminal fixed contact

Claims (3)

There is provided a thermal overload relay comprising a terminal movable contact and a terminal fixed contact and an inverted terminal movable contact and an inverted terminal fixed contact operating in opposition to opening and closing of the terminal movable contact and the terminal fixed contact,
And a test button including a head portion capable of receiving a user's input, a body portion having a spring capable of storing an elastic force against an upward pressure, and a leg portion having a power transmission lever projecting perpendicularly to the side surface ,
Wherein the power transmission lever comprises:
A support portion projecting laterally from the leg portion, an extension portion extending rearwardly from the support portion, and a contact portion protruding from an end of the extension portion,
And the contact portion pushes up the inverting terminal movable contact when the test button is lifted up.
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