KR101057989B1 - Energy-saving electronic contactor - Google Patents

Abstract

The present invention relates to a magnetic contactor, and more particularly, when the power supply of the magnetic contactor is suddenly cut off or normally, the latch of the main body is prevented from being released, thereby preventing overcurrent and connection failure, thereby improving reliability of the device. The present invention relates to a magnetic contactor. The present invention for this purpose, the lower frame, the upper frame is fixed to the upper portion of the lower frame, the movable core disposed to be movable up and down inside the upper frame, and fixedly disposed in the interior of the lower frame to apply the current And a composite solenoid using a permanent magnet for generating magnetic force to suck and operate the movable core, wherein the composite solenoid includes a case fixed to the lower side of the lower frame, a bobbin coil disposed inside the case, A plunger installed in the bobbin coil in the axial direction and magnetized according to the presence or absence of magnetic force in the coil, permanent magnet fixed to the lower side of the case, and a restoring spring held between the permanent magnet and the plunger It is made, including, the plunger of the solenoid via the engaging portion in the lower side of the movable core In combination with the movement of the movable core was employed to move the structure.

Description

Energy-saving magnetic contactor {Magnetic Contactor}

The present invention relates to a magnetic contactor, and more particularly, to a multiple latch power-saving magnetic contactor using a permanent magnet.

In general, a magnetic contactor performs an opening / closing control of an electric circuit and forms a magnetic switch together with a thermal relay to prevent an overload of a motor.

The magnetic contactor is composed of an electromagnet part, a contact part, and an upper and lower frame for combining them into one, and opens and closes the load by opening and closing the contact by exciting the coil with the electromagnet. The capacity range of the AC contactor ranges from 100 amperes (A) to several amperes (A) to several hundred amperes (A), and usually 600 (A) or less is mainly used.

For reference, thermal relay (thermal relay) is a function that prevents damage to the motor by opening the magnetic contactor when the motor is overloaded and flows over current.

The structure of such a magnetic contactor is broken down with reference to FIG. 1 as follows.

A main body 1, an upper frame 2 constituting an upper part of the main body and having an upper cover 4 coupled to the upper part, a lower frame 3 constituting a lower part of the main body, and built into the main body And a bobbin coil 5 for generating magnetic force, a fixed core 6 magnetized by the magnetic force of the bobbin coil, a movable core 7 sucked in accordance with the magnetic force of the fixed core, and the bobbin coil 5 ) And a return spring 8 for returning the movable core 7 sucked toward the fixed core 6 to its original position between the movable core 7 and the movable core 7, and holding the movable core 7. Crossbars (9) and a plurality of fixed contactors (10) which are provided on both sides of the upper frame (2) and are connected to a power supply side terminal and a load side terminal of an electric circuit, respectively, and are installed and fixed to the crossbar (9). With a plurality of movable contacts 11 or the like for electrically connecting or shorting the contacts 10. consist of.

Therefore, as shown in FIG. 2, when current is applied to the bobbin coil 5 in a state in which the fixed core 6, the movable core 7, the fixed contactor 10, and the movable contactor 11 are separated and the electric circuit is disconnected, the bobbin is removed. As the coil 4 is excited, the fixed core 6 is magnetized so that the movable core 7 approaches the fixed core 6 side, and at the same time, the crossbar 9 attached to the movable core 7 returns to the return spring. (8) is lowered while compressing, and the fixed contactor 10 fixed to the upper frame 2 and the movable contactor 11 fixed to the crossbar 9 are connected to each other so that the electric circuit is connected. Connection and short-circuit operations occur approximately 1200 to 1800 times per hour.

On the other hand, when the current applied to the magnetic contactor is in the range of 10A to 80A, it is classified into a small capacity, and when the applied current is 80A or more, it is classified as a corresponding amount.

In the case of the large-capacity magnetic contactor, if the fixed core 6 and the movable core 7 fall off when the power supplied to the magnetic contactor main body 1 is temporarily interrupted, arc is generated to damage the contact point. In order to prevent the fixed core and the movable core to maintain the state that the force to press the crossbar (7), that is, the force to pull the movable core (7) downward, which is called a latch (Latch) .

Here, the latch operation, when the switch is turned on by pressing the crossbar (9), the current flows to the bobbin coil (5) to become an electromagnet so that the movable core (7) is sucked downward to connect the current between both contacts Doing.

However, in order to maintain the latching operation, it was necessary to keep the electromagnetic coil 5 energized to maintain the operating state.

In addition, according to the conventional models, the bobbin coil 5 is energized with a separate power source, which is made of electromagnet and continuously energized during operation time, resulting in a short lifespan and the need to replace the battery. And drawbacks such as replacement costs.

In other words, in the case of such a conventional electronic switchgear, the bobbin coil 5 of the fixed core 6 must be kept energized at all times when the electronic switch is operated, thereby increasing power consumption and deteriorating or failing the electrical device. The malfunction is caused by the situation.

The present invention is to solve the above problems, an object of the present invention is to provide a power-saving electronic switchgear that the circuit connected to the electronic coil is not energized when the electronic switch operates.

In other words, according to the present invention, the latching device holds the movable core and the fixed core in contact with each other even when the power supplied to the magnetic contactor is suddenly shut off and without a separate power source. This is to increase the reliability while increasing the savings.

The present invention for achieving the above object,

With the lower frame,

An upper frame fixed to an upper portion of the lower frame;

A movable core disposed in the upper frame to be movable up and down;

It is fixed to the inside of the lower frame includes a hybrid solenoid using a permanent magnet for generating a magnetic force to suction the movable core by applying a current,

The composite solenoid,

A case fixed to the lower side of the lower frame,

Bobbin coil disposed inside the case,

A plunger installed in the bobbin coil in the axial direction and magnetized according to the presence or absence of magnetic force of the coil;

A permanent magnet fixed to the lower side of the case,

It is made to include a recovery spring carried between the permanent magnet and the plunger,

The plunger of the solenoid is characterized in that it is coupled to the lower side of the movable core via the engaging portion configured to move in conjunction with the movement of the movable core.

In addition, the engaging portion is preferably made of a mating opening formed in the T-shaped through-section cross-section formed on the lower side of the movable core, and engaging projections protruding in a T-shaped cross section on the upper portion of the plunger.

In addition, it is preferable that the lower side of the plunger protrudes into a truncated cone shape, and the upper side of the permanent magnet on the side corresponding to the truncated cone has a concave shape.

In addition, the lower apex of the permanent magnet is formed with a recess formed in the shape of a crater, the guide hole of the shape corresponding to the receiving hole in the center of the permanent magnet is formed through the vertical, the head portion is accommodated The body portion of the guide pin is preferably connected to the guide tool, and configured to guide the shanghai movement of the plunger.

In addition, it is preferable that the guide cylinder is fixedly coupled to the inner upper portion of the bobbin coil so that the engaging projection projecting on the lower outer peripheral portion of the plunger is engaged.

The case may further include first and second latching protrusions each having a cross-section surrounding the bobbin coil and having a U-shaped metal first and second cover and protruding upward and downward on both upper and lower end sides of the first and second covers, respectively. It is preferable that the upper and lower plates are provided with a plurality of binding ports to which the group is bound.

According to the present invention, as configured to perform the latch operation of the magnetic contactor, as well as when the power supply is suddenly cut off, and even in normal times, it is possible to maintain the contact without a separate power supply, thereby preventing overcurrent and poor connection of the device In addition to improving reliability, there is an advantage to extend the life of the device.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Repeated descriptions, well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention, and detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more completely describe the present invention to those skilled in the art. Accordingly, the shape and size of elements in the drawings may be exaggerated for clarity.

1 is an exploded perspective view showing an example of a general magnetic contactor, Figure 2 is a longitudinal cross-sectional view of the coupled state of Figure 1, Figure 3 is a longitudinal cross-sectional structural view of the latch device of the present invention, Figure 4 is a latch device of the present invention Fig. 5 is a perspective structural diagram of a solenoid as a major component of the latch device of the present invention, and Fig. 6 is an exploded perspective view showing an example of the solenoid of Fig. 5.

Hereinafter, the latch device of the magnetic contactor will be described in detail with reference to the accompanying FIG. 3.

First, since the general configuration of the magnetic contactor has been described above, a separate description thereof will be omitted.

The magnetic contactor of the present invention includes a lower frame 3, an upper frame 2 fixed to an upper portion of the lower frame 3, and a movable core disposed in the upper frame 2 so as to be movable up and down ( 7) and a hybrid solenoid 100 using a permanent magnet that is fixedly arranged inside the lower frame 3 to generate a magnetic force as a current is applied to suction the movable core 7.

The composite solenoid 100 includes a case 110 fixed to the lower side of the lower frame 3, a bobbin coil 5 disposed inside the case 110, and the bobbin coil 5. Plunger 120 and the permanent magnet 150 is fixed to the lower side of the case 110 is magnetized in accordance with the presence or absence of magnetic force of the bobbin coil 5 is installed in the axial direction of the inside of the case 110, It comprises a restoration spring 130 carried between the permanent magnet 150 and the plunger 120.

In addition, the plunger 120 of the solenoid 100 is coupled to the lower side of the movable core 7 via the engaging portion 140 is configured to move in conjunction with the movement of the movable core (7).

In addition, the engaging portion 140 has a through hole formed in the T-shaped cross section formed through the lower side of the movable core 7 and the cross section protrudes in a T shape on the upper portion of the plunger 120. Consists of the engaging projection 143 formed.

In addition, the lower side of the plunger 120 protrudes in a truncated cone shape, and the upper side of the plunger 120 corresponding to the side is concave in a truncated cone shape.

In addition, the lower apex of the plunger 120 is formed with a recess 121 formed in the shape of a crater, the guide sphere 151 of the shape corresponding to the receiver 121 in the center of the permanent magnet 150 is formed. ) Is formed through the vertical, the body portion of the guide pin 160, the head portion is accommodated in the receiving port 121 is connected to the guide tool 151, is configured to guide the shangdong of the plunger 120.

In addition, the guide tube 170 is fixedly coupled to the inner upper portion of the bobbin coil 5 so that the locking protrusion protruding from the lower peripheral portion of the plunger 120 is engaged.

In addition, the case 110 may include a cross-section surrounding the bobbin coil 5 having a c-shaped metal first and second covers 111 and 113 and first and second covers 111 and 113. Up and down plates 115 and 116 having a plurality of first and second binding holes 115a and 116a to which the first and second locking protrusions 111a and 113a protrude upward and downward, respectively, on both upper and lower end sides thereof. consist of.

Therefore, as shown in FIG. 4, when power is applied to the bobbin coil 5, a magnetic field is formed in the bobbin coil 5 to magnetize the movable core 7 inserted therein. The core 7 moves downward toward the bobbin coil 5. At this time, the plunger 120 coupled to the lower end of the movable core 7 also overcomes the force of the spring 130 of the restoring spring 130. It is moved in the same direction as the movable core (7).

In addition, the permanent magnet 150 having a lower end coupled to the solenoid 100 case 110 sucks and latches the plunger 120 moved downward by the magnetic field of the bobbin coil 5.

On the contrary, in order to release the latch operation, the counter electromotive force is provided to the bobbin coil 5 through the control signal of the controller 200, thereby releasing the suction locking state of the plunger 120 to release the latch operation. do.

Accordingly, the plunger 120 and the movable core 7 can be moved up and down according to the operation of the magnetic contactor.

At this time, the magnetic flux density of the permanent magnet 150, when the power supplied to the magnetic contactor is suddenly cut off, the current flowing through the bobbin coil (5) is also cut off so that the magnetic force generated around the coil is extinguished so that the restored spring was compressed By the compression force of 130, the plunger 120 is set to such a magnitude as to suppress restoring upward movement.

Here, when a restoring force is generated according to the counter electromotive force provided by the control unit, the suction force of the permanent magnet 150 is overcome and the plunger 120 is moved upwards, and the contact state of the contact is released. Of course.

In addition, the crossbar 9 may be manually pressed to maintain the contact state of the contacts embedded in the lower frame 3.

On the other hand, the lower side of the plunger 120 is formed with a truncated cone-shaped projection, the plunger 120 is smoothly suction operation to the permanent magnet 150 substantially with the truncated conical recess of the permanent magnet 150 It is performed according to the contact.

The reason why the permanent magnet 150 is configured as described above is to efficiently use the suction force of the plunger 120 when the power is cut off.

Such a latch device of the present invention has the advantage of being able to securely latch the crossbar of the main body as well as acting as an auxiliary contact is installed on the main body of the magnetic contactor.

According to the present invention as described above, as configured to perform the latch operation of the magnetic contactor, as well as when the power supply is suddenly cut off, it is possible to maintain the contact point as it is, without a separate power supply, in normal times, to prevent overcurrent and connection failure Therefore, it is possible to improve the reliability of the device, as well as to extend the life of the device is very excellent effect.

As mentioned above, although embodiment of this invention was shown and demonstrated, this invention is not limited to the specific embodiment mentioned above, Comprising: It is common in the art to which this invention pertains without deviating from the summary of this invention claimed in the Claim. Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

1 is an exploded perspective view showing an example of a general magnetic contactor,

Figure 2 is a longitudinal cross-sectional view of the coupled state of FIG.

Figure 3 is a longitudinal cross-sectional structural view of the latch state of the present invention,

Figure 4 is an operating state of the power is applied to the latch device of the present invention.

5 is a perspective structural diagram of a solenoid as a major component of the latch device of the present invention;

6 is an exploded perspective view illustrating an example of the solenoid of FIG. 5.

* Explanation of symbols for the main parts of the drawings

  1: body 2: upper frame

  3: lower frame 5: bobbin coil

  7: movable core 9: crossbar

 10: fixed contact 11: movable contact

100: solenoid 110: case

120: Plunger 130: Restoration Spring

140: engaging portion 150: permanent magnet

160: guide pin 170: guide tube

Claims (6)

With the lower frame, An upper frame fixed to an upper portion of the lower frame; A movable core disposed in the upper frame to be movable up and down; It is fixed to the inside of the lower frame includes a composite solenoid using a permanent magnet for generating a magnetic force to suction the movable core by applying a current, The composite solenoid, A case fixed to the lower side of the lower frame, Bobbin coil disposed inside the case, A plunger installed in the bobbin coil in the axial direction and magnetized according to the presence or absence of magnetic force of the coil; A permanent magnet fixed to the lower side of the case, It is made to include a recovery spring carried between the permanent magnet and the plunger, The plunger of the solenoid is configured to be coupled to the lower side of the movable core via the engaging portion to move in conjunction with the movement of the movable core, The lower side of the plunger protrudes in a truncated cone shape, and the upper side of the permanent magnet on the corresponding side is concave in a truncated cone shape. The method of claim 1, The engaging portion is an electromagnetic contactor, characterized in that the through-hole formed in the T-shaped cross section formed in the lower side of the movable core, and the engaging projection formed in the upper portion of the plunger protruded in the T-shape. delete The method of claim 1, The lower apex of the plunger is formed with a recess formed in the shape of a crater, the guide hole of the shape corresponding to the receiving hole in the center of the permanent magnet is formed vertically through, the head of the guide pin accommodated in the receiver The body portion is connected to the guide mechanism, characterized in that configured to guide the shangdong of the plunger. The method of claim 4, wherein The inner side of the bobbin coil is an electromagnetic contactor, characterized in that the guide cylinder is fixedly coupled so that the engaging projection protruding to the outer peripheral portion of the lower end of the plunger. The method of claim 5, The case, Cross-sections surrounding the bobbin coil are first c and c shaped metal first and second covers, The upper and lower plates of the upper and lower ends of the first and second cover, respectively, characterized in that the upper and lower plates having a plurality of binding holes for engaging the first and second locking projections are formed.

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