KR100518256B1 - Structure for mounting contact terminal of magnetic contactor - Google Patents

Abstract

The present invention relates to a contact mounting structure of a magnetic contactor, comprising: a plurality of movable contacts protruding on both sides along a thickness direction of the crossbar, and arranged side by side to be spaced apart from each other along a longitudinal direction of the crossbar; And a fixed contactor installed on the frame to be spaced apart along the thickness direction of the crossbar and having one end electrically connected / shorted to each movable contactor and the other end fixed through a terminal screw. An object of the present invention is to provide a contact mounting structure of a magnetic contactor capable of preventing poor contact and abnormal noise.

Description

Contact structure of magnetic contactor {STRUCTURE FOR MOUNTING CONTACT TERMINAL OF MAGNETIC CONTACTOR}

The present invention relates to a magnetic contactor, and more particularly, to a contact mounting structure of a magnetic contactor.

In general, the magnetic contactor has a main function of controlling the opening and closing of an electric circuit, and is used for the purpose of protecting and controlling the load by operating / stopping a load such as a motor. Formed.

That is, the magnetic contactor detects when an overcurrent flows to a load by a thermal overload relay and detects this and turns off the operation power of the magnetic contactor so that the magnetic contactor stops the load. Used in combination with each other, it is called an electronic switch (MS).

Such a magnetic contactor is largely composed of an electromagnet portion, a contact portion, and a frame for combining them into one, 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, the thermal overload relay is configured to interrupt the circuit when an overload occurs due to an overload.

On the other hand, Figure 3 is a diagram showing the structure of a conventional magnetic contactor.

As shown, the conventional magnetic contactor is configured by the upper and lower frames (1, 2) the outer shape of the magnetic contactor, the upper frame (1) is connected to the power input side and the load-side terminals of the electrical circuit, respectively A plurality of fixed contactors 3 are provided.

In addition, a bobbin coil 4 is formed at a lower portion of the inner space formed by the upper / lower frames 1 and 2 to generate a magnetic force according to the application of power, and the bobbin coil 4 is provided at a lower portion of the bobbin coil 4. A fixed core 5 which is magnetized according to the magnetic force generation of the coil 4 is provided, and on the upper part of the fixed core 5, a movable core 6 which moves up and down in accordance with the magnetic force generation and the magnetic force is removed is provided. A return spring 7 is provided between the bobbin coil 4 and the movable core 6 to provide a restoring force to the movable core 6.

In addition, a crossbar 8 that moves up and down together with the movable core 6 is provided above the movable core 6, and the crossbar 8 is electrically connected to each of the fixed contactors 3. The movable contact 9 which is short-circuited is provided.

In the magnetic contactor configured as described above, when the fixed core 5 and the movable core 6, the fixed contactor 3, and the movable contactor 9 are separated from each other and a circuit is disconnected, a current is applied to the bobbin coil 4. As the bobbin coil 4 is excited, the fixed core 5 installed at the lower portion thereof is magnetized.

The movable core 6 installed on the upper part of the fixed core 5 is magnetized by the magnetic force of the fixed core 5, and the crossbar coupled to the movable core 6 as well as close to the fixed core 5. 8) also descends while compressing the return spring (7).

Accordingly, the plurality of movable contacts 9 installed on the crossbar 8 are connected to the fixed contacts 3 fixedly installed on the upper frame 1, so that the circuit is opened, and conversely, the magnetic force of the bobbin coil 4 When this disappears, the movable core 6 is separated from the fixed core 5 in the disconnected state in the reverse order described above.

However, in the case of the conventional magnetic contactor as described above, each of the contactors 3 and 9 is disposed to be disposed vertically on the upper end of the fixed core 5 and the movable core 6. During the wiring work, dust inevitably occurred and stuck to the contact surfaces of the cores 5 and 6, resulting in noise or poor contact.

That is, the magnetic contactor is in contact with the fixed contactor 3 and the movable contactor 9 by the force of the electromagnetic force generated in the fixed core (5) and the movable core (6), and the current is energized, As described above, when foreign matter such as dust adheres to the contact surfaces of the cores 5 and 6, the electromagnetic force is weakened, resulting in poor contact between the fixed contactors 3 and the movable contacts 9. There was a problem of generating noise.

Therefore, the present invention has been made in order to solve the above problems, by changing the mounting structure of the movable contactor and the fixed contactor of the electromagnetic contactor, which can prevent the poor contact and abnormal noise phenomenon caused by dust generation in advance Its purpose is to provide a contact mounting structure for a contactor.

The present invention for achieving the above object is provided with a bobbin coil installed in the inner space in the frame to generate a magnetic force according to the application of power, and a fixed core is installed in the lower portion of the bobbin coil and magnetized according to the magnetic force generated by the bobbin coil; And a movable core installed on the fixed core to move up / down to approach or spaced apart from the fixed core according to magnetic force generation, and a crossbar installed on the movable core to move up / down together with the movable core. An electromagnetic contactor comprising: a plurality of movable contactors protruding on both sides along a thickness direction of the crossbar, and arranged side by side to be spaced apart from each other along a longitudinal direction of the crossbar; And a fixed contactor installed on the frame to be spaced apart along the thickness direction of the crossbar and having one end electrically contacted / shorted with each movable contactor and the other end fixed through a terminal screw.

In addition, the fixed contact is characterized in that it is formed to have a cross-section of the "b" shape so that it can be installed over the frame.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 2 are views showing the structure of the magnetic contactor and the mounting structure of the contactor according to the present invention.

The contact mounting structure of the magnetic contactor according to the present invention is such that the arrangement direction of the movable contactor and the fixed contactor is arranged perpendicular to the arrangement direction of the movable core and the fixed core.

As shown in the figure, a bobbin coil 14 for generating a magnetic force in response to the application of power is installed in the lower portion of the inner space formed by the upper and lower frames 11 and 12 forming the external shape of the magnetic contactor. In the lower part of 14, a fixing core 15 which is magnetized in accordance with the magnetic force generation of the bobbin coil 14 is provided.

The upper portion of the fixed core 15 is provided with a movable core 16 for moving up and down in accordance with the generation of magnetic force and the extinction of the magnetic force, the movable core 16 between the bobbin coil 14 and the movable core 16. Is provided with a return spring 17 which provides a restoring force.

In addition, a crossbar 18 that moves up and down together with the movable core is installed on the movable core 16, and the crossbar 18 is provided with a movable contact, which will be described below.

The crossbars 18 are provided with a plurality of movable contactors 19 which protrude on both sides along the thickness direction thereof and are arranged side by side to be spaced apart from each other along the longitudinal direction of the crossbars 18.

On the other hand, the fixed contact 13 which is in electrical contact with the movable contactor 19 is provided at a portion adjacent to the movable contactor 19, wherein the fixed contactor 13 is in the thickness direction of the crossbar 18. It is installed on top of the upper frame 11 to be spaced apart along one end is electrically contacted / shorted to each of the movable contactors 19, the other end is fixed to the frame 11 through a terminal screw (20).

In addition, the fixed contact 13 is formed to have a cross-section of the "b" shape to be installed over the top of the upper frame (11).

That is, in the structure as described above, the arrangement direction of the movable contactor 19 and the fixed contactor 13 is arranged perpendicular to the arrangement direction of the movable core 16 and the fixed core 15, and the fixed contactor 13 is disposed. Even when dust is generated during the wiring operation, it is possible to prevent the dust from falling or sticking to the contact surfaces of the cores 15 and 16.

The magnetic contactor configured as described above connects and shorts the movable contactor 19 and the fixed contactor 13 in the same operation as the conventional structure so that the connected and disconnected electric circuits are repeated so that the electric contactor, such as a motor, connected thereto. The device will be turned on / off.

As described above, according to the contact mounting structure of the magnetic contactor according to the present invention, the arrangement direction of the movable contactor and the fixed contactor is arranged perpendicularly to the arrangement direction of the movable core and the fixed core, thereby resulting in poor contact due to dust generation and The abnormal noise phenomenon can be prevented in advance, thereby improving the product quality.

1 to 2 is a view showing the structure of the magnetic contactor and the mounting structure of the contactor according to the invention

3 is a view showing the structure of a conventional magnetic contactor

<Description of the symbols for the main parts of the drawings>

11: upper frame 12: lower frame

13: fixed contact 14: bobbin coil

15: fixed core 16: movable core

17: return spring 18: crossbar

19: movable contactor 20: terminal screw

Claims (2)

A bobbin coil installed in the inner space of the frame to generate magnetic force upon application of power, a fixed core installed under the bobbin coil to be magnetized according to the magnetic force generated by the bobbin coil, and installed on an upper portion of the fixed core In the magnetic contactor comprising a movable core to move up / down to approach or spaced apart from the fixed core, and a cross bar installed on the movable core to move up / down with the movable core, A plurality of movable contacts which protrude on both sides along the thickness direction of the crossbar, and are arranged side by side to be spaced apart from each other along the longitudinal direction of the crossbar; And a fixed contactor installed on the frame to be spaced apart along the thickness direction of the crossbar and having one end electrically contacted / shorted with each movable contactor and the other end fixed through a terminal screw. Contactor mounting structure. The contact mounting structure of a magnetic contactor according to claim 1, wherein the fixed contactor is formed to have a cross section of an "a" shape so that it can be installed on the frame.