KR200292167Y1 - Latching Relay - Google Patents

Abstract

The present invention is a latch device that maintains the contact and separation between the movable contact and the fixed contact by using a permanent magnet, and maintains the state, and the movable contact is operated when the power is supplied to the relay coil and coil. The lever part of the mold to be pulled up to be in contact with the fixed contact point, and the moving core at the bottom of the coil to maintain the state even when the power is cut off after the power supply is completed.A permanent magnet is placed on both sides of the bobbin to move the yoke in the direction of the same pole. Latch relay, characterized in that attached to.

Description

Latching Relay

The present invention relates to a latch relay using a permanent magnet in the relay, and in detail, the power supply of the relay using the characteristics of the N pole and the S pole of the permanent magnet and the magnetic field of the coil when the power is supplied to the relay exciting coil To a mechanical latch relay that turns the power on and off.

In general, when a positive (+) power is applied to both ends of a coil, a relay has a magnetic field formed around the coil center and has polarities of the north pole and the south pole. When the core of the electronic soft iron rod is placed in the center of the coil, the polarity of the magnetic core causes the core to have N and S poles at both ends of the core due to the magnetic field formed around the coil. If the core is fixed and the core is fixed, the magnetic material (amateur) is attracted and pulled.

Using this principle, it is a structure that can raise movable contact point to magnetic material, and it is made to make contact with fixed contact point. As a relay, in order to keep contacting fixed contact point and movable contact point, the power is continuously supplied to the coil to keep the magnetic field in the coil. Should be.

At this time, heat generated by Joule's law is generated in the coil by the resistance value of the coil, and heat is conducted to the surroundings by the heat, which increases the ambient temperature of the electronic device and the relay, which may cause burnout, and may have a fatal effect.

Korean Patent Publication No. 4968 connects a leaf spring to a moving core and inserts mold mold bars on both sides in the middle of the cut-out portion of the movable contact table to lift and move the movable table (opening and closing the contact point). As for

Unlike the present invention, the lava is inserted into the middle of the cut-out portion of the movable contact point to raise the movable stand, and the manufacturing process is complicated and the manufacturing cost increases.

In order to solve the above problems, the present invention is a utility model registration application No. 20-2991-0027951, the name of the designation filed by the present applicant; It is an improved latch type DC-concrete relay. It does not continuously turn on the power in order to maintain the operation state after the relay operation, and uses the magnetic field of the excitation coil and the N and S pole of the permanent magnet after the power is turned on. It keeps the contact state of, keeps the state by the permanent magnet even if the power is cut off, so it consumes less power,

Another purpose is that if the operation state by the power supply is maintained by the permanent magnet as it is, the coil does not generate heat because the power does not flow even if the coil is cut off, and the movable contact and the fixed contact operate the excitation coil. Since power is cut off after contact by driving by pulse, power consumption is hardly consumed. Opening and closing is done by pulse within 30mS when opening and closing the coil. In addition, since only the force of the excitation coil for driving the permanent magnet is required to contact the movable contact and the fixed contact, the coil volume can be reduced to provide a latch relay that can reduce the cost.

1 is a cross-sectional detailed view of the latch relay of the present invention

Figure 2 is a detailed operation of the latch relay of the present invention when closing

Figure 3 is a detailed operation of the latch relay of the present invention at the time of opening;

Figure 4 is a detailed view of the movable contact stand of the latch relay of the present invention

<Description of the Drawings>

Case (1), left and right movable contact points (2, 2 '), left and right movable contact points (3, 3'), left and right fixed contact points (4, 4 '), left and right fixed contact points ( 5,5 '), left and right lever (6,6'), spring case (7), permanent magnet (8), bobbin (9), fixed core (10), yoke (11), moving core (12), compression Spring 14, left and right movable stages 17, 17 ', coil 18, first terminal 21, common terminal 22, second terminal 23, tube 24

In order to achieve the above object, the present invention is a latch device for maintaining contact with and separation of the left and right movable contact portion and the left and right fixed contact portion by using a permanent magnet, and maintains the state, the relay for operating the power when the power supply and disconnection When the power is supplied to the coil and coil, the left and right parts of the mold that connect the movable contact table to be brought into contact with the left and right fixed contacts, and the lower part of the coil to maintain the state even when the power is cut off after the power supply is completed. The present invention relates to a latch relay having a permanent magnet next to the moving core.

The core of the present invention is to move the moving core up and down by using the magnetic field generated by the N and S pole of the permanent magnet and the current of the coil by placing the permanent magnet at the same side of the bobbin at the bottom of the coil. By pulling the lever of the mold by the spring connected to the contact or separating the fixed contact and the movable contact,

During closing, the current flowing in the coil flows in the forward direction, and either side becomes the N pole, and the opposite side changes to the S pole. At this time, when the moving cores are reverse poles (N, S), they are attracted to each other (the current is about 30mS Pulse)) When the moving core moves toward the fixed core, the closed loop of the magnetic path is formed by the permanent magnet,

When opening the current flowing through the coil in the reverse direction of closing, the moving core and the fixed core form the same polarity. If the magnetic property is the same, the pushing force is generated by using the principle of repulsion. It is the operating principle of opening the contact point by connecting to both ends of water.

First of all, coils are used as lottery wires, and two coils of the same thickness are wound according to the rated voltage. One of the first start line and one end line are the common lines, and the other one of the start line and the other end line are made of three lines. One is to move toward the opening of the contact, and the other is to be placed towards the closed. When power is applied to the common terminal and one terminal, magnetic poles in the coil generate the magnetic poles of the N pole and the S pole, so that the S pole of the permanent magnet (the permanent magnet is fixed and the polarity is also fixed) and the N pole of the movable core are When the spring pulls the lever of the mold by the force of the contacting magnetic force, the fixed contact point and the movable contact point come into contact with each other, and the load current flows. At this time, if the moving core and the fixed core is in contact, even if the current flowing through the excitation coil is contacted by the force of the permanent magnet. At this time, the permanent magnet and the yoke should be formed of a magnetic closure circuit so that the magnetic flow. On the contrary, when the fixed contact point and the movable contact point are separated, when the power is applied to the common terminal and the other terminal, the magnetic field is generated in the opposite direction of the double winding coil, and the magnetic pole is formed opposite to the moving core. It is pushed out to separate the fixed and movable contacts.

The magnetic core flowing through the moving core and the properties of the permanent magnet in this design, because the fixed contact point and the movable contact is disconnected from the power source after contacting and disconnection, no current flows in the coil, there is no coil heat generation, very low power consumption.

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

1 is a cross-sectional detailed view of the latch relay of the present invention, Figure 2 is a detailed operation of the latch relay of the present invention when closing, Figure 3 is a detailed operation of the latch relay of the present invention when opening, Figure 4 The movable contact table of the latch relay is shown in detail, and the case (1), the left and right movable contact points (2, 2 '), the left and right movable contact points (3, 3'), the left and right fixed contact points ( 4,4 '), left and right fixed contact point (5,5'), left and right bar (6,6 '), spring case (7), permanent magnet (8), bobbin (9), fixed core ( 10) yoke (11), moving core (12), compression spring (14), fixed ring (15), left and right movable bars (17, 17 '), coil (18), cover (20), first terminal 21, the common terminal 22, the second terminal 23, and the tube 24 are shown.

Looking at the structure as shown in Figure 1, the overall configuration of the latch relay of the present invention, a case (1) protruding to the upper center, the yoke (11) formed in the protrusion in the central portion of the base and the yoke ( 11, the coil 18 formed on the inner edge of the inside, the permanent magnet 8 formed on the lower portion of the coil 18, three terminals connected to the yoke 11, the first terminal 21, the common terminal ( 22) the second terminal 23, the bobbin 9 formed on the upper center of the yoke 11, the fixed core 10 formed on the lower end of the bobbin 9,

The moving core 12 is formed in the lower portion of the fixed core 10 and is in contact with or detached from the fixed core 10, and is formed spaced apart from the lower portion of the moving core 12, the plate-shaped compression spring (14) And left and right ends 6 and 6 'formed at both ends of the left and right ends of the compression spring 14, and rotated according to the movement of the compression spring 14, and lower portions of the left and right levers 6 and 6'. Two left and right movable contact points 2 and 2 'on the left and right sides connected to the left and right levers 6 and 6' to move up and down by rotating the left and right levers 6 and 6 ', and one end of the left and right movable contact points 2 and 2'. Left and right movable contact portions (3, 3 ') formed in the upper end and the left and right movable contact points (2, 2') are installed spaced apart from the upper and left, right movable contact points (2, 2 ') of The case is formed on the left and right fixed contact portions 4 and 4` and the left and right fixed contact portions 4 and 4` contacting the left and right movable contact portions 3 and 3 'as they rise. Stone extending to both sides of the upper part of (1) Left and right fixed contact point (5,5`),

It is a structure of a latch relay composed of left and right movable stand (17, 17`) which is connected to the other end of the left and right movable contact stand (2, 2 ') and protrudes to both left and right sides to the bottom of the case (1). .

Figure 2 is a detailed view of the operation of the latch relay of the present invention when closing, the magnetic field is applied to the coil 18 when power is applied to the first terminal 21 and the common terminal 22 embedded in the tube (24) A magnetic pole is formed in the fixed core 10 and the moving core 12 so that the S pole of the fixed core 10 and the N pole of the moving core 12 are attracted to each other so that the moving core 12 is fixed core 10. In this case, the left and right movable contact points (2, 2 ') connected to the left and right bars (6, 6') are moved by a compression spring (14) connected to the moving core (12). The load current flows when the movable contact parts 3 and 3 'and the left and right fixed contact parts 4 and 4' of the left and right fixed contact points 5 and 5 'come into contact with each other.

When the closing operation is completed, the input power is cut off. When the input power is cut off, the fixed core 10 and the moving core 12 remain in contact with each other by the magnetic force of the permanent magnet 8. The magnetic force of the permanent magnet 8 and the fixed core 10, the moving core 12 is located in the mechanical latch structure to form a closed loop.

FIG. 3 is a detailed view of the latch relay of the present invention, in which the magnetic field is different from that of FIG. 2 when power is applied to the common terminal 22 and the second terminal 23 embedded in the tube 24. On the contrary, the magnetic pole of the fixed core 10 has an N pole, and an S pole is formed at the moving core 12. The N pole of the permanent magnet 8 pushes the N pole of the moving core 12 to fix the fixed core 10. The moving core 12 is separated, and even after the power is cut off, the moving core 12 is stopped between the permanent magnet 8 and the moving core 12 by the formation of a magnetic field circuit which pushes the magnetic field circuit to the same pole as shown in FIG. It is.

Figure 4 is a detailed view of the movable contact of the latch relay of the present invention, Figure 4a is a plan view in detail, Figure 4b is a front view in detail, it can be seen that Figure 4c shows a side view in detail.

In order for the load current to flow by contacting the movable contact and the fixed contact of the relay, power must be continuously supplied to the coil, but the permanent magnet and the yoke are composed of the closed circuit of the magnetic field, and the magnetic field flowing through the coil is connected to the common terminal of the coil and the first terminal. When the power flows to the coil after the excitation current flows in the forward direction, if the power flowing to the coil is cut off, the mechanical latch is maintained by the permanent magnet. Since it does not generate coil heat, it does not have the influence of heat around the relay, so it can be placed near and protect electronic devices, and it can reduce the volume of coil by only needing electromagnetism to overcome the magnetic force of permanent magnet. The effect is to reduce the production cost.

Claims (4)

A latch relay that uses a permanent magnet to mechanically maintain a contact state after an ON / OFF operation of a relay. A case 1 protruding from the upper center, a yoke 11 formed inside the protruding portion at the center of the base, a coil 18 formed at an inner rim of the yoke 11, and a lower portion of the coil 18. The permanent magnet 18 is formed, and three terminals connected to the yoke 11, the first terminal 21, the common terminal 22, the second terminal 23, and the upper portion of the center of the yoke 11 are formed. A bobbin 9, a fixed core 10 formed at the lower end of the bobbin 9, The moving core 12 is formed in the lower portion of the fixed core 10 and is in contact with or detached from the fixed core 10, and is formed spaced apart from the lower portion of the moving core 12, the plate-shaped compression spring (14) And left and right bars 6 and 6 'formed at both ends of the left and right ends of the compression spring 14 and rotated according to the movement of the compression spring 14, and the left and right bars 6 and 6, respectively. Two left and right movable contact points (2, 2 ') on the right side connected to the bottom of the left and right to move up and down by rotation of the left and right bars 6 and 6', and the left and right movable contact points ( 2, 2 ') and the left and right movable contact portion (3, 3') formed on the upper end of one end, and the left and right movable contact point (2, 2 ') are installed spaced apart and the left, right movable contact point (2 2 '), the left and right fixed contact portion 4,4' contacting the left and right movable contact portions 3,3 'and the left and right fixed contact portion 4,4' as the ascendence increases. Is formed on top of the extending to both sides of the top of the case (1) Protruding left and right fixed contact points (5,5 '), Latch relay, characterized in that consisting of left and right movable stand (17, 17 ') is connected to the other end of the left and right movable contact stand (2, 2') protruding from the left and right to the lower side of the case (1) . The method of claim 1, wherein the yoke 11 has a mechanical latch structure, and has a U-shaped yoke 11 for a magnetic closed circuit by using a permanent magnet of a rare earth high functional material of Nd-Fe-B system. Latch relay characterized by. The left and right levers 6 and 6 'have a non-magnetic plastic insulator attached to a lower end of the moving core 12, and a stainless steel compression spring 14 at the center thereof. , Latch relay, characterized in that to lift the left and right movable contact (2, 2 ') by mounting the ureva (6, 6'). The left and right movable contact points (2, 2) according to claim 3, wherein the left and right movable contact points (2, 2 ') are arranged to distribute the load of the compression spring (14) of the left and right movable contact points (2, 2'). 2 ') Latch relay, characterized in that the center portion of the front part is moved by the left and right bars (6,6') of the mold.