KR200304675Y1 - forcibly trip device for manual motor starter - Google Patents

Abstract

The present invention relates to a motor protection circuit breaker, commonly referred to as MMS (Manual Motor Starter), and more specifically, a user of the motor protection circuit breaker for checking whether the mechanism is operating normally by artificially operating the mechanism installed inside the circuit breaker. It relates to a forced trip device.

The present invention has a bimetal corresponding to each phase as an overcurrent and phase detection means, a first shifter and a second shifter which are brought into contact with the bimetal according to the shape displacement of the bimetal, and are coupled between the shifters and the shifter. In the tripping device for a motor protection circuit breaker consisting of a shifter lever moving together, the projection jaw is integrally formed on the shifter lever and the inclined surface is formed on the projection jaw so that the shifter lever is moved as the tip of the tool is connected to the inclined surface. As a forced trip device of a motor protection circuit breaker, the shifter lever is moved just by inserting a tool, so that the trip operation is quick and easy.

Description

Forced trip device of circuit breaker for motor protection {forcibly trip device for manual motor starter}

The present invention relates to a motor protection circuit breaker, commonly referred to as MMS (Manual Motor Starter), and more specifically, a user of the motor protection circuit breaker for checking whether the mechanism is operating normally by artificially operating the mechanism installed inside the circuit breaker. It relates to a forced trip device.

The motor protection circuit breaker is an electric device that protects the motor as a load against various types of accidents such as overcurrent, phase loss, instantaneous current, short circuit current, and the like. An overcurrent trip unit for disconnecting the supply, an instantaneous trip unit for detecting an instantaneous current or a short circuit current that is several times the rated current, and momentarily shutting off the power supply to the load, and the overcurrent trip unit or the instantaneous trip unit It consists of an opening and closing mechanism that operates in conjunction with the operation, the contact portion which is contacted or spaced apart according to the operation of the opening and closing mechanism, and the arcing portion for extinguishing the arc generated when the contact of the contact portion is spaced to the outside. .

Therefore, during normal energization, the movable contact point and the fixed contact point of the contact part are connected to conduct current flowing into the power supply terminal to the load terminal.However, if an overcurrent or short circuit current occurs, the overcurrent trip part or the instantaneous trip part detects this and opens and closes the switching mechanism part. The movable contact block is moved downward by the opening and closing mechanism to move the movable contact point of the movable contact point away from the fixed contact point of the fixed contact point to block current from flowing to the load side.

In the circuit breaker as described above, the overcurrent trip part related to the present invention, as shown in FIG. 1, has a bimetal (4) whose shape is displaced according to temperature, a heater (5) wound around the bimetal and generates heat during overcurrent or an image formation, and an upper end portion of the bimetal. The first shifter 1 and the second shifter 2, which are provided and move in accordance with the shape displacement of the bimetal, are coupled between the shifter and the shifter lever 3 that moves while interlocking when the shifter moves.

Each of the bimetals 4 is installed in each phase in correspondence with three-phase currents (R phase, S phase, and T phase), and the bimetal 3 is provided in each of the shifters 1 and 2 as shown in FIGS. 2 and 3. Contact portions (1a) and (2a) are formed for the connection with the protrusions, and the protrusions (3a) are formed on the shifter lever (3) so that these protrusions (3a) are holes (1b) (2b) of the shifters (1) (2). ) Are fitted together.

Accordingly, when an overcurrent occurs in the circuit, the bimetal 4 is heated by the heat of the heater 5 to cause a shape displacement, and the second shifter 2 and the shifter lever 3 are caused by the shape displacement of the bimetal 4. In the drawing, if the phase is formed in the circuit, the bimetal is displaced in the direction opposite to the occurrence of the overcurrent due to the cooling of the bimetal, so that the first shifter 1 and the shifter lever 3 are It will move upward and right.

At this time, a tripping operation is performed in which the end of the shifter lever 3 pushes the latch to drive the opening and closing mechanism to cut off the power.

On the other hand, unlike a trip operation caused by an abnormal current such as an overcurrent, an open phase or an instantaneous current, the user may artificially trip the mechanism to check whether the mechanism operates normally. Such an artificial trip operation is called a forced trip. .

Conventionally, a step 3b is formed in the shifter lever 3 coupled between the first shifter 1 and the second shifter 2, and a tool such as a driver is formed as a step 3b in the case of the breaker. Test holes (not shown) were formed to allow the user to insert the circuit breaker to force the breaker.

In other words, when the user inserts the tool through the test hole formed in the breaker case and pushes the shifter lever 3 in the trip direction (left direction in the drawing) while the tool is positioned at the stepped portion 3b, the shifter lever 3 is forced. Since the tripping operation occurs by pushing the latch while moving to the user, the user can check whether the mechanism is operating normally.

However, in the conventional forced trip device as described above, the user must confirm the position of the step 3b of the shifter lever 3 through the test hole and operate the tool sideways. have.

It is an object of the present invention to provide a forced trip device of a motor protective circuit breaker configured to allow a user to move the shifter lever by a simple operation.

According to an embodiment of the present invention for achieving the above object, a bimetal corresponding to each phase as a detection means for overcurrent and an image, and a first shifter and a second shifter moving in contact with the bimetal according to the shape displacement of the bimetal. And, a tripping device for a motor protection circuit breaker comprising a shifter lever coupled over each of the shifters to move together with the shifter, wherein the protruding jaw is integrally formed on the shifter lever and an inclined surface is formed on the protruding jaw. There is provided a forced trip device of a motor protective circuit breaker which causes the shifter lever to move as the is connected to the inclined surface.

1 is a perspective view showing the inside of the motor protection circuit breaker to which the present invention is applied

Figure 2 is a perspective view of the shifter and the shifter lever for explaining the conventional device

Figure 3 is an exploded perspective view of the shifter and the shifter lever showing the present invention

Figure 4 is a perspective view of the shifter lever and the tool for explaining the device of the present invention

5 is a front view of FIG. 4

Explanation of symbols for main parts of the drawings

1, 2: shifter 3: shifter lever

3c: protruding jaw 3d: slope

3 is a perspective view of the shifter and the shifter lever for explaining the device of the present invention, wherein the shifter lever 3 is coupled between the first shifter 1 and the second shifter 2.

Protruding jaw 3c is integrally formed on the shifter lever 3, and an inclined surface 3d is formed on the protruding jaw 3c.

A test hole for inserting a tool such as a driver is formed in the case of the circuit breaker, and the test hole has an inclined surface 3d when the tool 6 is inserted in the vertical direction in the drawing as shown in FIG. 5. It is formed in the position which can contact).

Therefore, when the user inserts the tool 6 into the test hole formed in the breaker case in order to forcibly trip the breaker, the end of the tool comes into contact with the inclined surface 3d formed on the protruding jaw 3c of the shifter lever 3. If the tool 6 is continuously pushed in the state, the tool slides along the inclined surface 3d, and the shift lever 3 moves to the left in the drawing to trip the breaker. At this time, the shifter lever 3 The moving distance is determined by the inclination of the inclined surface 3d.

As described above, the present invention only inserts the tool into the test hole of the breaker, unlike the conventional apparatus, which had to move the shifter lever by a double action of pushing the tool in one direction after connecting the tip of the tool to the step of the shifter lever. When the tip of the tool is connected to the inclined surface of the protrusion and the shifter lever is moved at the same time, the mechanism of the breaker can be tripped quickly and easily even in a narrow space.

Claims (1)

Bimetal corresponding to each phase as a detection means for overcurrent and an image, A first shifter and a second shifter moving in contact with the bimetal according to the shape displacement of the bimetal; In the motor protection circuit breaker consisting of a shifter lever coupled across each shifter and moving with each shifter, Forced tripping device of the motor protection circuit breaker, characterized in that the shifter lever integrally formed on the shifter lever and the inclined surface formed on the projecting jaw to move the shifter lever as the tip portion of the tool is connected to the inclined surface.