KR102417235B1 - Power saving drive unit for circuit opening and closing - Google Patents

Abstract

The present invention relates to a power saving driving unit for opening and closing a circuit, which can be applied with a permanent magnet and a reverse magnetization solenoid in the operation of an electronic switch for opening and closing a circuit, to maintain a continuous circuit input state even with short input of a driving signal and to greatly reduce power consumption, can improve durability due to simplified configuration, and can simplify a circuit for controlling a signal.

Description

Power saving drive unit for circuit opening and closing

The present invention relates to a driving unit, and more particularly, by applying a permanent magnet and a demagnetizing solenoid in the operation of an electromagnetic switch for circuit opening and closing, it is possible to maintain a continuous circuit input state even with a short input of a driving signal and significantly reduce power consumption. It relates to a power saving type driving unit for circuit opening and closing that can improve durability due to the simplification of the configuration and simplify the circuit for signal control.

An electromagnetic contactor, also called a magnetic switch, is a device that opens and closes a current by allowing a movable contactor to contact or separate from a fixed contactor through the magnetic force of an electromagnet, and is widely used in various industrial electrical installations.

Basically, when current is applied to the electromagnet coil, magnetic flux is generated, and electromagnetic force acts on the iron core where the movable contact is formed to move in the direction of the fixed contact, thereby turning on the circuit. Conversely, when the current flowing through the coil is cut off, the electromagnetic force acting on the iron core formed on the movable contact disappears, and the movable contact moves in the opposite direction to the fixed contact by the force of the spring to open the circuit.

In order to maintain the circuit closed state (ON) in such a conventional magnetic contactor, current must be continuously supplied to the coil, and electrical energy consumption is inevitably large due to the self-maintaining circuit configuration for this purpose. In particular, there was a problem of malfunction and shortening of product life due to surge noise inrush current while maintaining power.

Therefore, a product that can maintain the closed state of the contact through the one gear and the lever even if the current is cut off after the circuit is put by installing a separate latch unit has been released. In addition to incompatibility, a separate circuit for the latch function was required, so additional materials and cost were required.

In addition, as it is composed of a number of plastic parts, it has a structure that can rapidly wear out due to friction and impact when repeated raising and lowering for opening and closing the contact. There was a problem in that the wear and tear due to the rapid increase in durability deteriorated.

Republic of Korea Patent Publication No. 10-2012-0000230 (2012.01.02)

The present invention was created to solve the above problems, and an object of the present invention is to maintain a continuous circuit input state even with a short input of driving power of 0.5 seconds using a permanent magnet without a latch device and to use a demagnetizing solenoid. It is to provide a power saving type driving unit for circuit opening and closing, which can be done while saving power by opening the circuit through the circuit, and can simplify the circuit for signal control.

For the above purpose, the present invention generates an attractive force between a fixed core and a return spring formed on one side and a movable core spaced apart from the fixed core on the other side, and the movable core is magnetized as driving power is applied to the fixed core. A driving unit for driving a load supply unit having a driving coil that makes a circuit input by contacting the movable contact and the fixed contact as the movable core moves toward the stationary core, wherein the driving unit is connected to the movable core and moves together with the side a plunger provided with a contact protrusion; a permanent magnet for maintaining the position of the plunger in contact when the plunger moves to one side to maintain the circuit-in state; a closing operation unit that detects the contact protrusion and cuts off the driving power as the plunger moves to one side; a reverse magnetization coil that generates a magnetic force that cancels the magnetic force of the permanent magnet when operating power is applied to return the movable core and the plunger through the return spring to open a circuit; It is characterized in that it is provided.

In addition, it is preferable that the plunger further includes a locking part having a recess formed at an externally set position, and restricting movement of the plunger through a support protrusion inserted into the recess.

In addition, the plunger and the movable core include a bobbin installed at one end of the plunger and having a first fastening part having an enlarged end area, and a second bobbin installed at the other end of the movable core and into which the first fastening part is inserted and coupled. It is preferable to connect through a crossbar in which the fastening portion is formed.

In addition, as the plunger moves to one side, it senses the contact protrusion and activates the demagnetizing coil to be operable when operating power is applied, and an opening operation unit that deactivates the demagnetizing coil so that it does not operate when the contact protrusion is not detected ; It is preferable to further include

Through the present invention, a very high energy saving effect can be seen with the power use time at the level of 1 second irrespective of the input time compared to conventional products in which the circuit input time and the power use time are the same, and the maintenance of the switch-on state is conventional Since it is done through a permanent magnet rather than a latch lever method, there is no product worn out due to friction or impact, so high durability can be secured. In addition, the circuit can be simplified by removing the control circuit for driving, particularly the circuit required for the conventional latch operation, thereby greatly reducing the production cost due to the reduction of parts and processes, including the control circuit development cost.

1 is a cross-sectional structural view for explaining the internal structure of the present invention;
2 is an operation state diagram of a load supply unit according to an embodiment of the present invention;
3 is a perspective view showing an external shape of a driving unit according to an embodiment of the present invention;
4 is an operation state diagram of a driving unit according to an embodiment of the present invention;
5 is a flowchart illustrating an operation procedure through the present invention.

Hereinafter, the structure of the power saving type driving unit for opening and closing the circuit of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional structural diagram for explaining the internal structure of the present invention, the present invention is a load supply unit 200 for circuit input and opening, and the load supply unit 200 coupled to the circuit input state and circuit opening. It is composed of a driving unit 100 that performs a function.

The load supply unit 200 is a configuration substantially corresponding to the conventional magnetic contactor, and the configuration characteristic of the present invention is the driving unit 100, and the load supply unit 200 and the driving unit 100 may be configured as an integral product. And it may be implemented in a form in which the driving unit can be added to a conventional electronic switchgear.

2 is an operation state diagram of a load supply unit according to an embodiment of the present invention, wherein the load supply unit 200 includes a movable core 210 and a fixed core 220, a driving coil 230, a return spring 240 and , a movable contact 250 and a fixed contact 260 are provided.

The fixed core 220 and the movable core 210 are made of a metal material that reacts by magnetic force and are installed in a form opposite to each other. The movable core 210 is installed to move the section set to one side and the other side on the other side, ie, on the upper side based on the drawing. At this time, as long as the movable core 210 and the fixed core 220 contact each other, unless a force is applied by installing a return spring 240 that acts to push the movable core 210 to one side, FIG. 2 (a) As shown, the normally movable core 210 maintains a state spaced apart from the fixed core 220 .

At the same time, a movable contact 250 and a fixed contact 260 connected to the main circuit to be opened and closed through the electromagnetic contactor are provided on the outside, and the movable contact 250 moves together through the movable core 210 and the The movable core 210 and the fixed core 220 are configured such that the movable contact 250 and the stationary contact 260 can be attached or separated in response to the operation in which they are attached or separated.

A driving coil 230 having a solenoid structure is installed on the movable core 210 , and as driving power is applied to the driving coil 230 , the movable core 210 is magnetized and an attractive force with the fixed core 220 is generated. do. As the movable core 210 moves toward the stationary core 220 through this attractive force, as shown in FIG. 2(b), the movable contact 250 and the stationary contact 260 are brought into contact with the circuit input.

In this structure, when the driving power is cut off to the driving coil 230, the movable core 210 is spaced apart from the stationary core 220 through the action force of the return spring 240, and together with the movable contact 250, the stationary contact ( 260), the circuit is opened, so the driving power must be maintained in order to maintain the closed state of the circuit.

Accordingly, in the present invention, the position of the movable core 210 is fixed without maintaining the driving power through the driving unit 100 and can be restored as necessary.

3 is a perspective view showing the external shape of a driving unit according to an embodiment of the present invention, and FIG. 4 is an operation state diagram of the driving unit according to an embodiment of the present invention. 120 , the closing operation unit 130 and the opening operation unit 140 , and the inverse magnetization coil 150 are provided with the locking unit 160 as an additional configuration for convenience.

These series of components constituting the driving unit 100 are built in a case 101 of the form shown in FIG. 3 , and a terminal 102 for applying an operation power, etc. may be provided as will be described later.

The plunger 110 is a rod-shaped structure that is connected to the movable core and moves together with the movable core, and is made of a metal material that responds to magnetic force, and has a contact protrusion 111 protruding from the side thereof. The contact protrusion 111 is a structure for detecting a position when the plunger 110 is moved, and is formed toward the other end side as shown in the accompanying drawings in consideration of the positions of the permanent magnet 120 and the demagnetizing coil 150 . Preferably, the other end of the plunger 110 may be exposed to the outside of the case 101 so that the configuration and operation state of the locking unit 160 to be described later can be visually checked.

The permanent magnet 120 is in contact with the plunger 110 when the plunger 110 moves to one side, that is, in a state where the movable contact 250 and the fixed contact 260 come into contact with each other to determine the position. It is fixed so that the circuit input state is maintained, and it is configured to have a greater magnetism than the working force of the return spring 240 . It can be installed in various forms, and as shown in the accompanying drawings, the plunger 110 can be wrapped around the contact protrusion 111 while being moved to keep the position and maintain the circuit input state.

In this way, in a state in which the plunger 110 is fixed through the permanent magnet 120, even if the driving power is cut off, the plunger 110 is fixed in position through a magnetism greater than the action force of the return spring 240, and the circuit is continuously input state can be maintained.

The input operation unit 130 is configured to save energy by blocking the driving power applied to the driving coil 230 while the plunger 110 is attached to the permanent magnet 120 as described above. , as the plunger 110 moves to one side, the contact protrusion 111 is sensed and the driving power is cut off.

For this purpose, the input operation unit 130 may be configured in various ways such as a contact sensor or a proximity sensor, and the present invention shows the configuration of the input operation unit 130 through a limit switch as a preferred embodiment.

In order to open the circuit while the circuit input is maintained without driving power, the plunger 110 and the movable core 210 are returned to their original positions through the action of the return spring 240 by offsetting the permanent magnet 120 . This causes the movable contact 250 and the fixed contact 260 to fall apart.

The demagnetization coil 150 is a solenoid-shaped coil that surrounds the plunger 110 and magnetizes the plunger 110 by the application of operating power. The polarity opposite to the polarity of the permanent magnet 120 is It is magnetized so as to cancel the magnetic force of the permanent magnet 120 . Thereafter, the circuit is opened by returning the movable core 210 and the plunger 110 to their original positions through the action force of the return spring 240 .

At this time, as a means for preventing a malfunction of the demagnetizing coil 150, the opening operation unit 140 detects the contact protrusion 111 as the plunger 110 moves to one side, and when the operation power is applied, the reverse magnetization The demagnetization coil 150 is activated to be operable, and when the contact protrusion 111 is not detected, the demagnetization coil 150 is deactivated so that it does not operate. Similarly, the opening operation unit 140 may be configured with the same limit switch as the closing operation unit 130 and may be configured to detect the contact protrusion 111 at the same height.

That is, when operating power is applied to the demagnetizing coil 150 in the closed state of the circuit, the movable core 210 and the plunger 110 return to their initial positions, and the contact protrusion 111 is separated from the opening operation unit 140, The operation power to the fire coil 150 is cut off. Through this, it is possible to save the operation power of the demagnetizing coil 150 as well as to prevent problems that may occur as the operation power is continued unnecessarily by the principle of saving the driving power to the driving coil 230 . .

The locking part 160 is an auxiliary means for fixing the position of the plunger 110, and for this purpose, the plunger 110 has a concave portion 112 formed at an externally set position, that is, a portion requiring position fixing. The locking part 160 is configured to limit the movement of the plunger through the support protrusion 161 inserted into the recessed part 112 . That is, the locking part 160 is configured to move the locking protrusion 111 on the outside of the case in a sliding manner as shown in the attached FIG. 1 , but after forming the recessed part 112 in the plunger 110 protruding to the outside The locking protrusion 111 is inserted into the recess 112 to fix the position of the plunger.

At this time, the recess 112 can be formed to correspond to the position of the circuit open and closed, and through this, the circuit can be temporarily maintained in case of malfunction or the plunger 110 can be arbitrarily installed during circuit maintenance. It is possible to prevent the closing of the circuit by touching it.

In connecting the load supply unit 200 and the driving unit 100, the connection between the plunger 110 and the movable core 210 is substantially important, and the plunger 110 is installed at one end as a structure for this, and the area of the end The bobbin 113 in which the first fastening part 114 is formed, and the second fastening part 212 installed at the other end of the movable core 210 and into which the first fastening part 114 is inserted and coupled. It may be configured to connect the plunger 110 and the movable core 210 through the formed cross bar 211 .

That is, the first fastening part 114 is configured in a form that can be inserted and detached from the side of the second fastening part 212. Through this structure, when a problem occurs, the drive unit 100 and the load supply unit 200 are separated so that individual repair and replacement is possible. can be done

5 is a flowchart illustrating an operation procedure according to the present invention, and shows the circuit input operation S 10 to S 50 and the circuit opening operation S 60 to S 90 made through the above-described configuration separately.

First, in the case of a circuit input operation, the movable core 210 is magnetized by applying a driving power to the driving coil 230. (S 10) The magnetic force generated at this time is greater than the working force of the return spring 240, and the plunger The movable core 210 to which 110 is connected is moved to the fixed core 220 by attractive force according to the magnetization. (S 20)

Then, as the movable core 210 is attached to the fixed core 220, the movable contact 250 and the stationary contact 260 come into contact with the circuit input, and the moved plunger 110 engages the permanent magnet 120. The position is fixed through the (S 30)

At this time, the input operation unit 130 detects the contact protrusion 111 of the plunger and cuts off the driving power (S40), and then the circuit input state is maintained (S50). This series of circuit input is carried out for a short period of about 0.5 seconds, that is, the circuit input state is maintained without practical limitation even with a very short period of driving power. It exhibits very high efficiency compared to conventional electromagnetic contactor products.

In the case of the circuit opening operation, the operating power is applied to the demagnetizing coil 150 through the terminal 102 on the outside of the case 101 (S 60), and the demagnetizing coil 150 through the opening operation unit 140 ) operates normally to magnetize the plunger 110 to have a polarity opposite to that of the permanent magnet 120 and cancel the magnetic force of the permanent magnet 120 fixing the plunger 110. (S 70)

Thereafter, as the magnetic force of the permanent magnet 120 becomes smaller than the action force of the return spring 240, the movable core 210 connected to the plunger 110 through the return spring 240 returns to its original position (S 80). , the movable contact and the driving contact are separated and the circuit is opened (S 90).

The right of the present invention is not limited to the above-described embodiments, but is defined by the claims, and a person of ordinary skill in the art can make various modifications and adaptations within the scope of the claims. it is self-evident

100: driving unit 101: case
102: terminal 110: plunger
111: contact projection 112: groove portion
113: bobbin 114: first fastening part
120: permanent magnet 130: input operation unit
140: open operation unit 150: demagnetization coil
160: lock 161: support projection
200: load supply 210: movable core
211: cross bar 212: second fastening part
220: fixed core 230: driving coil
240: return spring 250: movable contact
260: fixed contact

Claims (4)

The fixed core 220 and the return spring 240 formed on one side of the movable core 210 are spaced apart from the fixed core 220 on the other side, and the movable core 210 is magnetized as driving power is applied to the fixed core. A driving coil 230 for generating attractive force with the core 220 is provided, and as the movable core 210 moves toward the stationary core 220, the movable contact 250 and the stationary contact 260 are brought into contact with the circuit input. In the driving unit for driving the load supply unit 200 made in this way,
a plunger 110 connected to the movable core 210 and moving together with a contact protrusion 111 provided on a side thereof;
a permanent magnet 120 for maintaining the position of the plunger 110 in contact when moving to one side to maintain the circuit-in state;
As the plunger 110 moves to one side, the input operation unit 130 detects the contact protrusion 111 and cuts off the driving power;
Reverse magnetization coil 150 that generates a magnetic force that cancels the magnetic force of the permanent magnet by applying operating power to return the movable core 210 and the plunger 110 through the return spring 240 to open the circuit ;
As the plunger 110 moves to one side, the contact protrusion 111 is sensed to activate the demagnetization coil 150 to be operable when operating power is applied, and when the contact protrusion 111 is not detected, the demagnetization is performed. an opening operation unit 140 for inactivating the coil 150 so that it does not operate; A power-saving driving unit for circuit opening and closing, characterized in that it comprises a.
According to claim 1,
The plunger 110 has a recessed portion 112 formed at an externally set position,
Power saving driving unit for circuit opening and closing, characterized in that it further comprises a locking part (160) for limiting the movement of the plunger (110) through the support protrusion (161) inserted into the recess (112).
According to claim 1,
The plunger 110 and the movable core 210 are,
A bobbin 113 installed at one end of the plunger 110 and having a first fastening part 114 having an enlarged end area is formed, and the first fastening part 114 installed at the other end of the movable core 210 . A power saving driving unit for circuit opening and closing, characterized in that it is connected through a crossbar 211 having a second fastening part 212 to which is inserted and coupled.
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