KR100428991B1 - Relay - Google Patents

Abstract

The present invention provides a relay configured to amplify the torque of an operating piece operated by the magnetic force while generating a strong magnetic force by superimposing a magnetic force line generated by electricity and a magnetic force caused by a permanent magnet.

In the present invention, the electromagnet is fixed and the permanent magnet forms a movable portion to perform relative movement with respect to the electromagnet. The electromagnet is operated by the momentary pulse voltage, so the power consumption can be minimized, and the electromagnet can maintain its operating state even when the electromagnet power is cut off. In the arrangement of electromagnets and permanent magnets, the gap between the iron pieces pressed into the bobbins of the electromagnets is minimized, thereby reducing the magnetic impedance to greatly improve the magnetic force.

To this end, in the present invention, in the relay operated by the magnetic force of the permanent magnet and the magnetic force of the electromagnet, the bobbin coil is wound around the horizontal portion and the vertical portion bent from the horizontal portion and bent from the horizontal portion extending to the permanent magnet An electromagnet having a core having;

A technical configuration is disclosed that includes a movable portion having horizontal portions extending about one magnetic pole of the permanent magnet and a first iron piece that is bent from the horizontal portions and bent to face an outer side of the vertical portion of the core.

Description

Relay {Relay}

The present invention relates to a relay to amplify the action force of the operating piece operated by the magnetic force while generating a strong magnetic force by superimposing a magnetic force line generated by electricity and the magnetic force by the permanent magnet, and more particularly, The magnetic force and a part of the movable piece are formed as a permanent magnet so that the electromagnetic force and the permanent magnet force overlap, and the operating piece operated by the movable piece causes the opening and closing action to amplify the tong to increase the reliability of the operation. It is about relay.

Relay is a very important electric element used to open and close the flow of current or to change the direction of current flow. Conventionally, such a relay winds a coil around a cylindrical bobbin and inserts a core that moves linearly into the bobbin center so that the core conducts a linear motion by conducting a current to the coil, and the mainstream forms a mainstream to open and close the contact by the linear motion. come. However, such a relay not only consumes electricity in the use of electromagnets but also often lacks its force at the time of contact opening and closing, and a small amount of firm holding force at the time of contact holding often causes voids. An arc is generated, which shortens the relay life and carries the risk of fire.

Accordingly, the present invention has been made to solve such problems, and an object of the present invention is to provide a relay capable of ensuring reliability of operation while reducing electrical energy consumption.

Another object of the present invention is to provide a relay that can maintain the contact firmly at the time of contact maintenance to reduce the failure factors such as arc generation.

Still another object of the present invention is to provide a relay capable of securing reliability by maintaining operation by a magnetic force of a permanent magnet even when a failure occurs in an electromagnet during operation.

Another object of the present invention to obtain a large maneuvering force by overlapping the magnetic force of the permanent magnet and the electromagnet at the start of the relay, and to provide a relay for minimizing power consumption by generating only the magnetic force of the permanent magnet when the state is maintained will be.

FIG. 1A illustrates a state in which a movable contact is opened in a relay of an embodiment of the present invention, and FIG. 1B illustrates a state in which a movable contact is shorted in a relay of an embodiment of the present invention.

Figure 2a is a state in which power is not applied to the coil in the present invention, Figure 2b shows an operating state when the power is applied to the A, C terminals, Figure 2c is an operating state when power is applied to the terminals B, C It is shown.

3 is a perspective view of an amplification displacement unit in an embodiment of the present invention.

Features of the present invention for achieving the above objects,

An electromagnet having a core having a wound coil wound thereon, a horizontal portion inserted into the bobbin, and a vertical portion bent substantially perpendicularly to the horizontal portion; A movable part provided with a permanent magnet disposed in parallel with the horizontal part within a range of the vertical part of the electromagnet; As one end is displaced by the displacement of the movable part, the other end is rotated about the rotation axis, and one end is connected to the fixed contact of the relay and the other end is formed of the movable contact connected to the movable terminal side of the relay. It includes an amplification displacement portion formed with a movable blade, to electrically open and close between the movable contact and the movable terminal of the movable blade by the rotational displacement generated when the power is applied to the electromagnet.

Preferably in the present invention, the coil is wound in two coil groups so that the direction of the magnetic field is formed opposite to each other.

Another feature of the invention

The permanent magnet includes a horizontal part extending substantially parallel to the horizontal part of the core about one side magnetic pole of the electromagnet, and a bent part bent approximately vertically in the horizontal part to face the vertical part of the core. It further comprises a first iron piece.

In another aspect of the present invention, the permanent magnet is a horizontal portion extending substantially parallel to the horizontal portion of the core around the other magnetic pole, and the vertical portion of the core is bent approximately vertically in the horizontal portion It further comprises a second iron piece consisting of a bent portion facing the.

Another feature of the invention, the power applied to the electromagnet is an alternating current pulse.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the elements of each drawing, it should be noted that the same elements are denoted by the same reference numerals as much as possible even if they are displayed on different drawings. In addition, in the following description there are shown a number of specific details, such as specific components, which are provided only to help a more general understanding of the present invention that the present invention may be practiced without these specific matters in the art. It is self-evident to those who have knowledge of the world. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

FIG. 1A illustrates a state in which a movable contact is opened in a relay of an embodiment of the present invention, and FIG. 1B illustrates a state in which a movable contact is shorted in a relay of an embodiment of the present invention.

The fixed terminal box 30 and the fixed terminal box 20 are installed in the relay housing 10, and the fixed terminal 50 is bent and installed along the fixed terminal box 30 to fix the movable terminal box 20. Thus, the movable terminal 40 is bent. The rear end of the movable terminal 40 is coupled to the outer lead by the screw coupling is fixed to the rear end of the movable terminal box 20, the front end is bent to match the front end of the movable terminal box 20 screw 41 It is coupled to the movable terminal box 20 by. The head of the screw 41 serves as a contact point. The fixed terminal 50 is installed along the outer circumference of the fixed terminal box 30, the rear end of the fixed terminal 50 is fixed terminal box 30 in the state that the outer lead wire is wound on the rear end of the fixed terminal box (30) To be screwed onto. In addition, the front end of the fixed terminal 50 is bent to be disposed at the front end of the fixed terminal box 30, but a protrusion 51 is formed to couple the movable blade 60. The rear end of the movable blade 60 is formed with a groove into which the protrusion 51 can be fixedly inserted, and the groove and the protrusion 51 may be welded to increase the firmness. The front end of the movable blade 60 is formed with a contact 52 so that it can be opposed to the contact 41. In addition, the movable blade 60 is fixed to a part of the amplification displacement portion 70 causing a constant rotational displacement so that the contact 52 of the movable blade 60 is contacted according to the rotation state of the amplification displacement portion 70. ) To maintain the contact state as shown in Figure 1b, or to be spaced apart as shown in Figure 1a.

One end of the body of the amplification displacement portion 70 is formed with a rotating shaft 72 is inserted into the groove formed in the housing 10, the other end is formed so as to form an inclined surface narrowing the two projections of the movable portion 80 It is located between the pillars 81 and 82. In addition, a part of the body is provided with a clamping portion 71 for clamping the movable blade 51, the amplification displacement disposed between the projection pillars 81, 82 as the movable portion 80 is moved to the left and right. As the end of the part 70 is pushed to the left and right, the contact 52 of the movable blade 60 sandwiched by the clamping part 71 is spaced apart or maintained. At this time, even if the displacement of the movable portion 80 is small, if it is arranged in the body so that the rotational displacement of the clamping portion 71 to be rotated about the rotation axis 72 is large, with respect to the displacement made of a small width of the movable portion 80 Since the rotational displacement of the clamping part 71 is made large, it will be amplified, and if the displacement of the same distance generate | occur | produces, amplification of a force will arise. That is, in this amplification displacement unit 70, the amplification of the displacement or the amplification of the force can be obtained by the principle of work (princeple of work), so that the contact state and the separation state of the contact can be reliably maintained.

The movable part 80 which generates displacement in the amplification displacement part 70 includes the first iron piece 84 and the second iron piece 85 protruding in the longitudinal direction of the permanent magnet 83 and the permanent magnet 83, and the permanent magnet. It consists of the protruding pillars 81 and 82 which protruded from the 83. The first iron piece 84 is composed of horizontal portions protruding in the longitudinal direction of the permanent magnets 83 from both ends forming the N-pole portion of the permanent magnets and bent portions extending from the ends of the horizontal portions. The end of the bent portion extends to near the end of the iron piece side of the electromagnet 90, the inclined surface is formed on the inner side so that the distribution of magnetic force lines generated from the permanent magnet is uniform.

In addition, the second iron piece 85 is formed to protrude in the longitudinal direction from the S pole of the permanent magnet, is formed to be smaller than the length of the horizontal portion of the first iron piece 84, the vertical portion 92 of the iron piece of the electromagnet 90 , The travel distance is limited by the inner side of (92 ').

The electromagnet 90 has a bobbin 93 into which cores of substantially '', '' shape consisting of horizontal parts 91, 91 ′, vertical parts 92, and 92 ′ are inserted and fixed. Coil 94 is wound and bobbin 93 is fixed to housing 10. The horizontal portions 91 and 91 'of the cores overlap each other and are in contact with each other and are positioned at the center of the bobbin 93, and the vertical portions bent and extended at both ends of the horizontal portions 91 and 91'. 92 and 92 'are bent along the inside of both sides of the bobbin 93 and protrude from the bobbin 93 by a predetermined height. In this case, the horizontal parts 91 and 91 'are disposed so that the upper and lower surfaces abut each other, thereby minimizing the magnetic impedance by minimizing the gap between the gaps. Thus, the shape of the cores fixed by the bobbin 93 forms a '략' shape. In addition, the ends of the vertical portions of the combined cores are formed with an inclined surface on the outside.

FIG. 2 is a schematic view for explaining the operation of the movable part in the present invention, FIG. 2A is a state in which no power is applied, FIG. 2B is a state in which power is applied to terminals A and C, and FIG. Power is applied to terminal C.

Permanent magnets 83 so that the adjacent portion of the first iron piece 84 is magnetized to the N pole, the adjacent portion of the second iron piece 85 is magnetized to the S pole. In this magnetized state, the lines of magnetic force emitted from the N pole are diverged from the inclined surfaces of both ends a and d of the first iron piece and pass through the inclined surfaces b and e formed on the outer end surfaces of the vertical parts 92 and 92 'so that the second iron piece ( Convergence to both end surfaces c, f of 85). In this state, since the same force is applied to the left and right sides of the movable part 80, the movable part 80 is not moved. Therefore, the movable part 80 is maintained in a stopped state.

At this time, when the winding direction of the coil wound on the core of the electromagnet is the common terminal, the coil wound between the A and C terminals and the winding direction of the coil wound between the C and B when the power is applied It is wound so as to have directions of mutually different magnetic fields. That is, when power is applied between A and C, an N pole is formed in the vertical portion 92, an S pole is formed in the vertical portion 92 ', a repulsive force between a and b, a suction force between b and c, A repulsive force is applied between e and f, and a suction force is applied between d and e. Since the electromagnet is fixed, the movable part 80 including the permanent magnet moves from the right to the left to achieve a state as shown in FIG. 1B. The movable contact 52 and the fixed contact 41 are brought into contact with each other. In addition, when power is applied between C and B, as shown in FIG. 2C, an S pole is formed at the vertical portion 92 and an N pole is formed at the vertical portion 92 ′ so that the movable portion 80 moves from left to right. The state as shown in FIG. 1A is maintained. That is, the movable contact 52 and the fixed contact 41 are spaced apart. If the current flowing through the coil is stopped in the state of FIGS. 2B and 2C, the state may be maintained by the magnetic force of the permanent magnet. In other words, the magnetic force of the permanent magnet and the magnetic force of the electromagnet are superimposed only during the initial operation period, and when the open state and the closed state are maintained, the state can be maintained even when the electromagnet is turned off, thereby reducing power consumption. have. In addition, even when the electromagnet and the permanent magnet magnetic power source is supplied at the same time, even if the power supply of the electromagnet is not supplied for reasons such as disconnection, it is possible to maintain the contact state by the permanent magnet to prevent failure. In addition, for the above reason, the power supplied between the terminals can be supplied in a pulse type power supply in which power is supplied in a predetermined section without supplying power in all sections of the AC cycle. Pulsed 24 volt AC power supply is preferred.

3 is a perspective view of an amplification displacement unit in an embodiment of the present invention.

The amplification displacement portion 70 is formed of a flat plate, but one end thereof is formed to be inclined to narrow the width to form an inclined portion 74 having an approximately pointed shape. Further, the inclined portion 74 is disposed between the protruding pillars 81 and 82 of the permanent magnet 83 so that the protruding pillar 81 moves when the protruding pillars 81 and 82 move left and right. It is configured so that it can be pushed naturally by (82). At the upper end of the amplification displacement portion 70, the rotation shaft 72 protrudes from the body plane to both sides, and is fitted into the rotation shaft insertion grooves (not shown) formed in the upper and lower housings. The center of the body is formed with an incision 73 to reduce the weight, the movable blade clamping portion 71 is formed in a part of the body is movable blade 60 is fitted, the inclined portion of the amplification displacement portion 70 When the 74 is moved left and right by the protruding pillars 81 and 82, the amplification displacement portion 70 is rotated about the rotation shaft 72 to rotate the movable blade clamping portion 71. It is separated from the terminal of the fixed contact.

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

According to the object and configuration of the present invention, the magnetic force required for the operation of the relay can be obtained by overlapping the magnetic force of the electromagnet and the permanent magnet, and using the principle of work to maintain the contact with a greater force in the amplification displacement portion or In addition, the stability and reliability can be secured by separating them. In addition, in the present invention, the power is applied only when the contact is switched, the electromagnet is operated, and when the contact is maintained, the contact is maintained by the magnetic force of the permanent magnet, thereby reducing power consumption.

Claims (8)

An electromagnet having a core having a coil wound around the coil, a horizontal portion inserted into the bobbin, and a vertical portion bent approximately perpendicularly to the horizontal portion; A movable part provided with a permanent magnet disposed in parallel with the horizontal part within a range of the vertical part of the electromagnet; As one end is displaced by the displacement of the movable part, the other end is rotated about the rotation axis, and one end is connected to the fixed contact of the relay and the other end is formed of the movable contact connected to the movable terminal side of the relay. Including an amplification displacement formed with a movable blade, And electrically switching between the movable contact of the movable blade and the movable terminal by the rotational displacement generated when power is applied to the electromagnet. The method of claim 1, The coil is, The relay characterized in that the coil is separated into two coil groups so that the direction of the magnetic field is formed opposite to each other. The method according to claim 1 or 2, The permanent magnet, The first iron piece further comprises a horizontal portion extending substantially parallel to the horizontal portion of the core about one side magnetic pole of the electromagnet, and a bent portion that is bent approximately vertically in the horizontal portion to face the vertical portion of the core. Relay comprising a. The method of claim 3, wherein The permanent magnet may include a horizontal part extending substantially parallel to the horizontal part of the core with respect to the other magnetic pole, and a second bent part bent substantially vertically in the horizontal part to face the vertical part of the core. Relay further comprising iron. delete delete delete The method according to claim 1 or 2, The power source is applied to the electromagnet relay, characterized in that the AC pulse.