KR102230123B1 - Remote control contact device for delaying the operation threshold - Google Patents

Abstract

According to one embodiment of the present invention, in a remote control relay contact device for delaying an operating threshold, the remote control relay contact device includes: a coil whose electromagnetic polarity changes depending on the current direction of an excitation current; a movable iron core driven by an iron core; a movable contact point holder configured to rotate in conjunction with the movable iron core and to allow the movable contact point to be arranged; a delay lever configured to move in conjunction with the movement of the movable contact holder to delay the operation threshold; and a micro switch configured to control an operating power by a delay lever.

Description

Remote control relay contact device for delaying the operation threshold {REMOTE CONTROL CONTACT DEVICE FOR DELAYING THE OPERATION THRESHOLD}

The present invention relates to a remote control relay contact device for delaying the operation threshold. More specifically, the present invention relates to a remote control relay polarized contact device capable of securing an operation critical point delay by constructing and arranging an operation delay lever that operates in conjunction with a movable contact stand holder.

Generally, remotely controlled lighting latch relays open and close electrical contacts using the principle of merging electromagnets and permanent magnets, and are used to automatically control lighting of buildings, outlets, motors, curtains, etc. remotely or as a group. It is used as and requires a contact state that maintains the initial state in case of a power outage.

In addition, the structure of such a contact device uses a micro switch, or a separate contact is auxiliary internally, and is a separate contact device when operating as a small switch of the C contact (change-over contact) method. An independent contact device may be used, or a single C contact device may be used.

Conventionally, there is a method of delaying by rotating a lever interlocking with the handle, and controlling by delaying with a cam in which the lever interlocked with the handle rotates by attaching a hinge lever of a micro switch to the lever, or a handle interlocked with a movable core. In some cases, a remote-control relay polarized contact device was used that controls each micro switch with a pair of protrusions on the handle in a reverse state that changes the direction of the forward applied current and current made on the handle with a pair of microswitches.

However, the conventional control of such a structure increases the material cost, increases the size of the internal operating device, and increases the manufacturing cost. In particular, it has a problem in that it increases the area of the PCB board that fixes the micro switch and makes an electrical circuit, and complicates the interior, resulting in an increase in assembly time.

Accordingly, the present invention seeks to simplify the configuration and arrangement of a delay lever for delaying an operation critical point.

Korean Patent Registration No. 10-1720405 (2017.03.21)

An object of the present invention is to provide a contact device having an electronic structure in which an electromagnet and a permanent magnet are used in combination with an electromagnet in which a polarized electromagnet is accommodated and arranged at a predetermined position of a case of a remote control relay.

In addition, an object of the present invention is to implement a polarized contact device of a remote control relay using a hinge type micro switch that is a contact device for supplying and blocking the forward and reverse excitation currents.

In addition, the present invention is a guide made in a case that makes a projection on the upper side of the rotation center axis of the movable contact bar holder interlocked with the movable iron core to accommodate and arrange the operation critical point delay lever, and make the axial rotation structure of the movable contact bar holder linear motion. The delay lever moves in a straight line within the groove, and the constant reversal stroke of the motion of the polarized electromagnet device and the return by this linear motion is limited by the contact plate fixedly disposed on the upper and lower sides of the movable iron core due to the limitation of the suction surface of the yoke made of one. An object of the present invention is to provide a device for changing the polarity of the excitation current so as to limit and reverse the point of application of an excitation current to a polarized electromagnet of a remote control relay operating a hinge lever of a micro switch by using a constant linear motion.

In addition, the present invention is arranged and configured at least at the boundary between the movable contact stand holder and the polarized electromagnet to ensure insulation from arcs caused by contact of the contacts, and use the rotational structure of the movable contact stand holder to delay the operation critical point of the movable contact stand holder. A shaft made of non-ferrous metal at the center of the movable contact bar holder by interlocking with the movement of the movable iron core by placing a small delay spring between the movable contact bar holder by making a cylindrical groove on the upper side of the delay lever at the critical point of operation inserted into the receiving protrusion. The delay lever performs linear motion by a guide that is placed in the protrusion on the upper side of the movable contact bar holder that rotates around and guides a straight line made in the case, and this delay lever makes the rotational motion of the movable contact bar holder linear motion. The delay lever uses the operating load of the micro switch hinge, delays the hinge operation of the micro switch, and absorbs a certain portion of the operating pressure of the micro switch hinge lever when reversing to delay the contact operation of the micro switch. An object of the present invention is to provide a polarized electromagnet device of a remote control relay having a structure that partially absorbs an assembly tolerance generated during assembly by using the elasticity of a free field and a compression field of an operation delay spring.

In addition, the present invention is made integrally in the case, a hinge-type micro-switch in the receiving part of the PCB board, a pair of diodes for forward and reverse half-wave rectification of the coil excitation current, and a varistor (TNR) for lowering the overvoltage and counter-electromotive voltage on the PCB. It is an object of the present invention to provide a device that is housed in a substrate and connected by soldering to electrically construct a circuit.

Other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description.

According to an embodiment of the present invention, there is provided a contact device of a remote control relay for delaying an operation critical point, comprising: a coil whose electromagnetic polarity is changed according to a current direction of an excitation current; A movable iron core driven by the coil; A movable contact stand holder configured to rotate in association with the movable iron core and to place a movable contact stand; A delay lever configured to move in conjunction with the movement of the movable contact bar holder to delay the operation critical point; And a micro switch configured to control operation power by the delay lever.

In addition, the delay lever may move in a linear motion in association with a rotational motion of the movable contact stand holder.

In addition, the remote control relay contact device may further include a case, and a guide portion formed of both wall surfaces protruding from the case may induce a linear motion of the delay lever and prevent separation.

In addition, the delay spring may be accommodated through a groove at one end of the delay lever.

In addition, a partition wall may be formed in the movable contact stand holder to support one end of the delay spring.

In addition, the micro switch is a hinge type micro switch, and the direction of power to the excitation coil may be switched through the micro switch.

In addition, the micro switch may include a half-wave rectifier diode, and may be configured to switch forward and backward of the movable core according to a current direction of the half-wave rectifier diode.

According to the present invention, the polarized electromagnet using the forward and backward (retreat) of the movable iron core comes close to the contact plate fixed and disposed on the left and right sides of the movable iron core in the yoke, and the movable contact table applies contact pressure even when the excitation current is cut off. The operation of supplying and blocking the excitation current to the position where the contact plate can stably adsorb to the yoke even if the excitation current of the electromagnet is blocked with the magnetic force of a pair of permanent magnets that exert a suction force to the position where it stably contacts the fixed contact. A critical point delay lever provided with a critical point delay lever and linked with a movable iron core using a hinge lever of one micro switch can provide a switch contact device for a remote control relay that limits and controls the critical points of motion and reversal of the polarized electromagnet. .

In addition, according to the present invention, the partition wall completely divided from the main contact and one hinge-type micro switch housed and arranged in the case are assembled and disposed, and the pair of contact plates are completely adsorbed to the suction surface of the yoke to block the excitation current. A latching-type switching device for controlling a polarized electromagnet device of a remote control relay used for the purpose of delaying the elasticity of the micro switch hinge lever by having a critical point lever and a small delay spring on the opposite side of the end surface of the hinge lever. Can be implemented.

In addition, according to the present invention, an iron piece made of a pair of arc induction magnetic materials is fixed to the bent surface at the shortest position around at least one pair of U-shaped fixed contacts to induce an arc and attach it to the shortest end of the movable contact bar. The I-shaped magnetic body is placed on the U-shaped arc extinguishing iron piece placed under the fixed contact point by Lorentz's force using the magnetic field from the transient current or short circuit flowing through the contact point, and the I-shaped iron piece placed on the lower side of the movable contact point is placed on the fixed contact point. A remote control with a lever structure that delays the critical point of excitation current operation, including a structure that improves the intensity of overcurrent that can cooperate with protection devices such as circuit breakers and fuses arranged at the front end of the remote control relay by being pulled by a U-shaped iron piece that is pulled by a U-shaped iron piece A relay contact device can be provided.

In addition, according to the present invention, a pair of movable contact bars and a pair of movable contact bars contact pressure springs are housed and disposed in the movable contact bar holder, and a delay spring and a delay lever are disposed on the left side around the partition wall of the movable contact bar holder. A circular protruding groove made in the movable contact bar holder that is arranged and interlocked with the movable iron core, a circular through groove in which a shaft for converting the forward and backward movement of the movable iron core into rotational motion is inserted and received, the shaft inserted in the through groove, and the shaft. It is possible to provide a structure of a polarized electromagnet device of a remote control relay that minimizes the arrangement space by a structure of a pair of shaft storage grooves made in a symmetrical structure in a case and a cover that accommodates and limits the shaft and prevents separation.

The effects of the present invention are not limited to the contents mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a side view showing a conventional contact device with an operation threshold delayed.
2A and 2B are perspective cross-sectional views illustrating the configuration of a polarized electromagnet contact device of a remote control relay according to an embodiment of the present invention.
3 is an exploded perspective view showing each component of the remote control relay contact device according to an embodiment of the present invention.
4 is a view for explaining an operation of a remote control relay in a contact open state and a contact closed state according to an embodiment of the present invention.
5 is a perspective view showing a main part of an excitation coil part critical point delay lever according to an embodiment of the present invention.
6 is a perspective view showing an internal circuit diagram of a polarized electromagnet device according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein.

The terms used in the present specification are for describing exemplary embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase.

As used herein, "comprises", "comprising" refers to the recited component, step, operation, and/or element is the presence of one or more other elements, steps, operations, and/or elements, or Does not exclude addition.

In addition, terms including ordinal numbers such as first and second used in the present invention may be used to describe the elements, but the elements should not be limited by the terms. These terms are only used for the purpose of distinguishing one component from other components. In addition, in describing the present invention, when it is determined that a detailed description of a related known technology may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

In addition, constituent units shown in the embodiments of the present invention are independently illustrated to represent different characteristic functions, and does not mean that each constituent unit is formed of a separate constituent unit. That is, each constituent unit is described as being listed as a respective constituent unit for convenience of description, and at least two constituent units of each constituent unit are combined to form a single constituent unit, or one constituent unit may be divided into a plurality of constituent units to perform a function. Integrated embodiments and separate embodiments of each of these components are also included in the scope of the present invention unless departing from the essence of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The configuration of the present invention and its effect will be clearly understood through the detailed description below.

1 is a side view showing a conventional contact device with an operation threshold delayed.

Referring to FIG. 1, the operation critical point delay lever 180 is operated by a cam-type rotation lever 170 interlocked with a handle of the manual operation unit by hooking the hinge 121 of the micro switch 120 on the chin, and the V-shape of the rotation lever 170 In the groove, the delay lever 180 is directed downward by the protrusion 173 of the cam-type rotation lever, and at this time, the hinge 121 of the micro switch 120, which was hung on the jaw, releases the restraint and switches the contact point of the micro switch 120. Is configured to

The reversal of the movable iron core 131 is a cam-shaped rotation lever 170 that rotates in conjunction with the handle 140, pushing the hinge of the micro switch 120 to the chin of the delay lever 180, and being hooked on the chin to reverse. The delay is completed.

The configuration of the conventional contact device for delaying the critical point of operation is complicated, and the delay lever 180 in a linear shape molded of synthetic resin is difficult to implement due to deformation during molding.

2A and 2B are perspective cross-sectional views illustrating the configuration of a polarized electromagnet contact device of a remote control relay according to an embodiment of the present invention.

Looking at the assembly process of the remote control relay contact device according to an embodiment of the present invention with reference to FIGS. 2A and 2B, the coil 02 is wound on the bobbin 01 and the electronic coil winding unit is connected to the coil terminals 03a and 03b. Connect the start and end lines to create an electromagnet, insert a plate-shaped movable iron core (04) into the groove inside the center of the bobbin (01), and attach a pair of contact plates (05a, 05b) above and below the movable iron core (04). It can be fixedly arranged in a single piece in the form of rivets in parallel.

A pair of auxiliary yokes (06a, 06b) are assembled to the side of the bobbin (01), and permanent magnets (07a, 07b) are attached to the left and right sides of the auxiliary yokes (06a, 06b) so that the same poles face each other, It is possible to assemble the yoke (08) in the shape of the permanent magnet (07a, 07b) on the upper edge of the rim and assemble in an arrangement surrounding the bobbin (01). When the polarization device is assembled in this way, the lead wires 11a and 11b are extended to the pair of coil terminals 03a and 03b and are connected by soldering. One wire is inserted into the groove (10a) made in the PCB board 10, and is electrically connected by soldering.

The lead wire 11b extending from another coil terminal 03b may be electrically connected to the operation coil terminal 12a by soldering.

In addition, the movable contact holder 13 made of two poles for arranging the movable contacts includes an I-shaped protruding handle 13a that can be manually operated from the outside, and a pair of movable contact bars 14 And the contact pressure spring (15) of the movable contact bar holder (13), the contact pressure spring (15) is placed in the groove (13b) of the receiving part, and the spring is seated in the circular protrusion (14a) of the movable contact bar, and the movable contact bar holder By inserting the shaft pin 16 in the through groove 13c of (13), it can be completed by inserting the shaft pin 16 which can be rotated so that the linear motion of the movable iron core 04 can be converted into a rotational motion.

In addition, a pair of braided wires 17 wires extended by resistance welding 14b from the upper end surface of the movable contact stand 14 are electrically connected to the input terminal 18 for supplying external power by resistance welding. . The pair of input terminals 18 can be fixed to the terminal block 19 by press fitting.

The external power connection screw (20) is fastened to the assembled terminal by press-fitting, and a pair of fixed contacts (21) are placed and assembled by press-fitting on the lower side of the terminal block. The terminal block can be completed by fastening the screw 20 to the load-side connection terminal terminal.

In addition, the braided wire 17 extended to the terminal is connected by resistance welding, and the pair of movable contact bars contact pressure springs 15 are accommodated in the insertion position 22a of the assembled play device case 22 as described above. The PCB assembly in which a pair of rectifying diodes 23, a varistor (TNR) 24, and a hinged micro switch 25 are disposed is fitted into the slot 22b of the case 22, and a pair of screws The operation coil terminal blocks 12a and 12b to which are fastened are fitted into the receiving portion 26a of the terminal block 26 for operation power supply, and their movement is restricted.

Referring again to Figs. 2A and 2B, the receiving part of the input terminal connected by resistance welding of the braided wire 17 to the case 22, the terminal block 19 of the two-pole input and output terminals, is accommodated in the movable contact bar. The rotating shaft 16 of the female movable contact stand holder 13 is inserted into the storage groove 22a of the case 22 and assembled. Check normal rotation by rotating the protruding handle 13a, which is an external protrusion of the handle that can be operated manually integrated with the movable contact holder 13, and the polarized electromagnet device and the hinged micro switch 25 and a pair of half wave The PCB board 10 to which the rectifier diode 23 is attached is inserted and accommodated, and the terminal block 26 for operation power is inserted to complete the operation and arrangement of the switching terminal.

The U-shaped locking part (04a) on the cross section of the movable iron core (04) made from the side of the polarized electromagnet is inserted into the circular protrusion (13d) made on the handle so that the movable iron core (04) can be interlocked according to the axial motion It is fitted, and is fitted in the U-shaped groove 28a of the delay lever 28 including the delay spring 27 in the circular protrusion 13e on the upper side of the movable contact stand holder 13, and the delay lever 28 is a case It can be configured to operate the hinge 25a switch of the micro switch to prevent separation with both protrusions 22c of 22 and to convert the rotational motion into a linear motion to operate and reverse the hinged microswitch 25. have.

When this arrangement is completed and the handle is operated, the contact of the contact is checked and the cover is closed to fix the case 22 and the cover 30 with four rivet pins 29 to complete the remote control relay.

With this configuration, in the present invention, a pair of contact plates interlocked with the movable iron core by the magnetic force of the permanent magnets 07a and 07b to power the excitation current applying coil for operation and return using one small switching means ( 05a, 05b) and permanent magnets (07a, 07b) to the point where the magnetic force is adsorbed, and by changing the contact state of the micro switch (25), it supplies an exciting current that reverses whenever the direction of the current is changed, and the permanent magnet It is possible to provide a method and structure for delaying the critical point of the applied current of the excitation current by blocking and inverting the contact point of the micro switch 25 with the operation critical point delay lever 28 at the time when the adsorption force is exerted by (07a, 07b). . This method is to supply and cut off the excitation current only until the contact is open or closed in the remote control relay used to reduce power consumption.After the excitation current is cut off, the state of the contact is maintained by the adsorption force of the closed circuit of the permanent magnet. Even if a power failure occurs, the same contact state can be maintained.

3 is an exploded perspective view showing each component of the remote control relay contact device according to an embodiment of the present invention.

The remote control relay shown in FIG. 3 is a structure in which the completed dimensions are the same as those of the circuit breaker for the distribution board.

The terminal block 19 and the movable contact holder 13 are integrally formed with the terminal block 19 and are fitted into the bulkhead 19a formed in a flat shape on the terminal block, and when assembled to the case 22, the terminal block 19 and the movable contact holder 13 are movable. The contact stand holder 13 is assembled at the same time. The fixed contact 21 and the input terminal 18 are fitted on the left and right around the partition wall 19b formed in the terminal block, and the movable contact bar 14 is placed on the left and right of the movable contact bar holder 13. It can be inserted to secure the electrical insulation of the anode.

Here, the terminal block 19 is accommodated and fixed by the case 22. Shaking is limited.

In addition, the movable contact stand holder 13 is assembled so that the rotation shaft pin 16 is accommodated in the concave cylindrical groove 22a of the case 22 and is rotatable, and the movable iron core 04 of the polarized electromagnet device It is inserted into the cylindrical protrusion 13d integrally provided in the movable contact holder 13 by the U-shaped through groove 04a made in the cross-section to interlock the axial forward and backward movement of the movable iron core 04.

At this time, the polarized electromagnet device is disposed in the rectangular accommodating portion 22d made in the case 04, and the clearance may be limited. This eliminates the inconvenience of inserting and fixing a leaf spring between the back side of the yoke and the case in order to prevent the vibration of the polarized electromagnet in the related art.

The polarized electromagnet is fixed to the left and right of the movable iron core (04) and has a pair of contact plates (05a, 05b) that limit the operation stroke, and the yoke (08) concentrates the magnetic force line to increase the attraction force by the magnetic force. I can. This makes the direction of the magnetic force generated in the electromagnet and the magnetic force of the permanent magnets 07a and 07b the same, so that a plurality of magnetic forces are merged. When the movable iron core (04) is operated, the contact plates (05a, 05b) adsorbed with the yoke make the same polarity between the electromagnet and the permanent magnets (07a, 07b), and the magnetic force of the same pole is the yoke (08) and the contact plates (05a, 05b) Pushing by this repulsive force, the opposite contact plates can create the polarity of the magnetic force that pulls and pushes each other with a different pole. The polarized electromagnet device of the remote control relay can maintain the state by the permanent magnets 07a and 07b when the operation signal of the excitation coil stops, and maintain the same contact state in case of a power outage.

With such a configuration, the present invention creates a synthetic mechanism by using the synthetic magnetic flux of the permanent magnet and electromagnetic coil of the remote control contact device delaying the operation critical point, and applies a current to the inside at the electrical contact operation point of the contact point. A composite mechanism that cuts the power from the micro switch and operates with positive half-wave rectification. The polarized solenoid coil cuts off the power of the micro switch at the delay lever interlocked with the handle, and one rectifier diode (23) reverses the operation when the contact returns. By applying a current to the excitation coil of the synthesis mechanism with a negative (-) half-wave rectified anti-electrode power source made through the system, it completely returns by using the magnetic force of the permanent magnet and the magnetic force of the electromagnet, and adsorbs it to the return contact plate made of a closed circuit of a permanent magnet. Closed circuit can be configured.

In the present invention, operation signals are remotely controlled by a dedicated controller. Normally, it is controlled at low voltage for safety, and (+) half-wave rectification is performed through a pair of rectifier diodes, magnetic polarity is made in the excitation coil part, and a yoke (08) made of one and a pair of contact plates (05a, 05b) A pair of permanent magnets (078a, 07b) are arranged between the magnetic fluxes of the permanent magnet and the electromagnet, and a movable iron core (04) with a constant electric signal to the excitation coil (02) of the polarization mechanism using the forward and reverse reverse polarities. Moves forward and backward and interlocks with a protrusion integrally molded in the movable contact bar holder 13 in a U-shaped groove 04a made in the cross section of the movable iron core 04, and interlocks with the upper side of the movable contact bar holder 13 By interlocking the operation critical point delay lever 28 to the protrusion, the hinge 25a of the micro switch 25 accommodated in the case 22 and fixed to the PCB board 10 is operated to form an excitation coil as a contact of the micro switch 25. Apply an input to the Common Contact terminal of the contact point of the micro switch 25 that delays the threshold of operation of the current applied to the coil (02) by applying and blocking the current to (02), and NO (Normal Open) Half-wave rectification is performed through (normally open) contact and NC (Normal Close) (normally closed) contact terminal. It is characterized in that the direction of current is reversed in the half-wave rectification direction of a pair of diodes one by one.

In addition, half-wave rectification of AC power through a forward diode that is fed to the common contact terminal of the hinged micro switch 25 and connected at the NC contact, and applied to the coil, the movable core advances in the axial direction and a pair of movable contacts The unit is closed-circuited, and the operation of the NC contact is delayed until the closed circuit to supply power to the excitation coil (02), and the full operation of the delay lever (28) switches the NC contact to the NO contact and the power is cut off, and the movable core (04) Will stop working. When the power is cut off, the contact plates 05a and 05b on the operation side are adsorbed by the yoke 08, and the adsorption is maintained by the magnetic force of the permanent magnets 07a and 07b.

Conversely, in order to reverse the direction of the excitation current, if the controller supplies an AC voltage for a certain period of time to the common terminal of the micro switch 25, the current flows through the NO terminal and rectifies the negative half-wave through a diode arranged in the opposite polarity at the rear end. Thus, depending on the direction of the applied current and applied to the coil, the polarities of the auxiliary yokes (06a, 06b) and the yoke (08) are reversed, the movable core (04) is retracted, and the contact plates (05a, 05b) are permanent magnets ( 07a, 07b) can make the contact device of the remote control relay that is maintained by the magnetic force.

4 is a view for explaining an operation of a remote control relay in a contact open state and a contact closed state according to an embodiment of the present invention.

Referring to FIG. 4, as a connection configuration in which each portion of the case 22 is assembled in a state of being interlocked, the movable iron core 04 advances and a U-shaped cutout 04a made at the tip of the movable iron core 04 ) Is fitted to the cylindrical protrusion 13d of the movable contact stand holder 13, and the movable contact stand holder 13 can be operated in a rotational form by the shaft 16. In the U-shaped groove 28a of the delay lever 28 in the cylindrical protruding protrusion 13e made integrally with the movable contact bar holder 13 on the upper side of the shaft 16 insertion portion of the movable contact bar holder 13 It is fitted, and a circular groove 28b is formed at the end of the delay lever 28 so that the delay spring 27 is accommodated and may be disposed by supporting the partition wall 13f of the movable contact stand holder 13.

Here, the delay lever 28 is interlocked with the rotational motion of the movable contact stand holder 13 to convert it into a linear motion, and the guide portions 22c on both sides integrally made in the case 22 perform the linear motion of the delay lever 28 Guide, and when the movable iron core (04) advances, the movable contact bar holder (13) rotates in a clockwise direction, and the delay lever (28) disposed on the upper side of the shaft and performing linear motion is a hinge (25a) of the hinge-type micro switch. Press to change the state of the contact and cut off the operating power.

On the contrary, when the movable core 04 retreats, the movable contact bar holder 27 interlocked with the movable core 04 rotates counterclockwise, and the delay lever 28 returns the hinge lever 25a of the micro switch. The contact plate 05 is adsorbed to the yoke by the permanent magnets 07a and 07b of the polarized electromagnet, and a remote control relay that maintains an open state of the contact can be provided.

5 is a perspective view showing a main part of an excitation coil part critical point delay lever according to an embodiment of the present invention.

Referring to FIG. 5, the movable contact holder 13 is interlocked and rotates according to the advancing and retreating movement of the movable iron core 04, interlocked with the movable contact holder 13, switching power to the electromagnet, and delaying the operation critical point. The delay lever 28 is assembled and arranged to be interlocked with the movable contact stand holder 13, and one end of the delay spring 27 accommodated and arranged in the groove of one end of the delay lever 28 is the movable contact stand holder 13 ) Is arranged to support the partition wall of the hinge-type micro switch 25 to mitigate the impact on the operation of the hinge 25a, and the delayed operation of the hinge lever 25a using the free field and compression field of the spring during operation and return Can be implemented, and can also play a role of controlling and supplementing the operating point of the delay lever 28 due to the assembly tolerance, and preventing an excessive force from being applied to the hinge 25a.

6 is a perspective view showing an internal circuit diagram of a polarized electromagnet device according to an embodiment of the present invention.

It is directly connected to one coil terminal (03b) extended from a pair of operation coil terminals (12a) to a lead wire (11b) to create an electrical circuit with the coil, and a hinged micro switch from the other coil terminal (03a) It is connected to the common terminal 10a of, and the position of the contact is switched according to the operation of the hinge 25a, and the contact state of the micro switch 25 is one in the reverse direction at the rear end of the terminal of the normally closed (NC) contact. The rectifier diode 23 of is disposed and the half-wave rectified current is electrically connected.

The polarized electromagnet device of such a remote control relay can switch power with a hinge-type micro switch 25, and a varistor (TNR) 24 is attached to both ends of the power source to protect the input power. It is possible to make a polarized electromagnet device of a remote control relay in which the coil of the contact device is protected.

The embodiments disclosed in the specification of the present invention are for illustrative purposes only, and the present invention is not limited thereto. The scope of the present invention should be interpreted by the following claims, and all technologies within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

01: bobbin 02: coil
03a, 03b: coil terminal 04: movable core
04a: movable iron core U-shaped groove 05a, 05b: contact plate
06a, 06b: auxiliary yoke 07a, 07b: permanent magnet
08: yoke 09: coil terminal
10: PCB board 10a: PCB board groove
11a, 11b, 11c: lead wire 12a, 12b: operation coil terminal
13: movable contact bar holder
13a: movable contact bar holder protruding handle 13b: movable contact bar holder housing groove
13c: movable contact bar holder through groove 13d: movable contact bar holder circular protrusion
13e: movable contact bar holder circular protrusion 13f: movable contact bar holder bulkhead
14: movable contact stand 14a: movable contact stand circular protrusion
14b: resistance welding of movable contact points
15: contact pressure spring 16: shaft pin
17: braided wire 18: input terminal
19: terminal block 19a: terminal block bulkhead
19b: terminal block bulkhead
20: power connection screw 21: fixed contact
22: case 22a: case insertion position
22b: case slot 22c: case guide part
23: rectifier diode 24: varistor (TNR)
25: hinged micro switch 25a: micro switch hinge
26: terminal block for operation power
27: delay spring 28: delay lever
28a: delay lever U-shaped 28b: delay lever circular groove
29: rivet pin 30: cover

Claims (7)

In the contact device of the remote control relay for delaying the operation threshold,
A coil whose electromagnetic polarity changes according to the current direction of the excitation current;
A movable iron core driven by the coil;
A movable contact stand holder configured to rotate in association with the movable iron core and to place a movable contact stand;
A delay lever configured to move in conjunction with the movement of the movable contact bar holder to delay the operation critical point; And
Micro switch configured to control operation power by the delay lever
Including,
The delay lever is interlocked with the rotational motion of the movable contact stand holder to move in a linear motion, and a delay spring is accommodated through a groove at one end of the delay lever. delete The remote control relay contact device according to claim 1, wherein the remote control relay contact device further comprises a case, and the guide part formed of both walls protruding from the case induces a linear motion of the delay lever and prevents separation. . delete The remote control relay contact device according to claim 1, wherein a partition wall is formed in the movable contact stand holder to support one end of the delay spring. The remote control relay contact device according to claim 1, wherein the micro switch is a hinge type micro switch and switches a direction of power to the excitation coil through the micro switch. The remote control relay contact device according to claim 6, wherein the micro-switch comprises a half-wave rectifier diode, and is configured to switch forward and backward of the movable core according to a current direction of the half-wave rectifier diode.

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