JP4554685B2 - Operation knob return device - Google Patents

Description

  The present invention relates to a power breaker that prevents a safety accident caused by a leakage current or the like, and in particular, efficiency is improved by automatically returning a control knob that is attached to the power breaker and shuts off the power. The present invention relates to a return device for an operation knob for a power breaker that is increased.

  Generally, a power breaker is a safety device that is installed in a distribution board and automatically shuts off the power supply when an abnormal current such as a leakage occurs. Such a power breaker can cause an electric shock accident or a fire due to leakage. It is a type of electrical appliance used for the purpose of preventing safety accidents due to overcurrent and short circuit.

  Recently, many researches have been conducted on power circuit breakers that operate by remote control using wired / wireless Internet, etc. Especially, it must be easy to operate by turning on / off the power circuit breaker, and the system malfunctions. There is no need for research on products with a structure that is easy to assemble.

  For example, according to the “switching device” (Korean Utility Model Registration No. 20-0353051) of FIG. 1 which is a registration device assigned to the applicant of the present application and cited in the prior art of the present invention, a knob is provided inside the switch 100. 103 is rotated along the hinge 141 during the opening and closing process 103, the plunger body 115 of the solenoid 107 is pivotally coupled to the knob body 113, and the body is rotated along the hinge 135 on the bottom surface of the switch 100. A support base 111 having a shaft 133 attached thereto is installed, and is returned to the hinge 141 of the knob body 113 by the spring 123 while rotating through the rotational force of the knob 103. There has been proposed a configuration in which a bow 105 having 2 (221, 223) is installed.

  Here, when power is supplied to the solenoid 107, the knob body 113 is rotated clockwise around the hinge 141 by the plunger 115, and the drive pole 117 mounted on the back surface of the knob body 113 is moved. The switch 100 trips the contact switch 109 when the contact of the contact switch 109 is released.

  At the same time, the bow 105 attached to the knob body 113 interlocks and pressurizes the shaft 133 of the support base 111 downward, so that the second pressurizing part 223 constituting the tip of the bow 105 becomes the outer periphery of the shaft 133. The support 111 is set in a stable state by touching the surface.

  On the other hand, when the power source of the solenoid 107 is cut off, the plunger 115 is returned and the knob body 113 is returned, so that the drive pole 117 and the contact switch 109 are connected to operate “on”, and the bow 105 is moved to the spring. 125 is returned, and the support base 111 is returned by the spring 123 to return the switch 100 to a normal state.

  By the way, although the switch 100 is made to be able to interrupt | block abnormal current using the solenoid 107, since the plunger 115 of a solenoid is directly connected with the knob body 113 by a hinge type, it is in the state interlock | cooperated, The operation noise is generated by the impact load due to the return of the knob body 113, and the operation is inaccurate due to the non-contact type motion.

  As a means for increasing the operational safety of the solenoid 107 in the switch 100, the first and second pressurizing parts 121 and 123 and the shaft 133 must be respectively formed on the bow part 105 and the support base 111, and the return Since a large number of springs 123 and 125 must be installed by this means, there is a problem in that various costs are increased.

  For this reason, the present invention is to solve the above-described problems. When the non-contact operation mechanism is stopped and the abnormal current state is released after the trip, the return process of the operation knob is automatically performed. It is an object of the present invention to provide a knob return device that is suitable for a power circuit breaker with increased use efficiency.

  In order to achieve the above object, the present invention is an operation that rotates around a fixed shaft, and has an upper step protruding above the upper surface of the housing and a lower left step and a lower right step at the lower portion. Using a knob and a latch bar linked to the lower left step of the operation knob, a pair of contact switches configured on the bottom surface of the housing is opened and closed, and the fixed shaft is formed on the right side of the operation knob. A trip bar having a support jaw in the lower part and a contact part in the upper part, and a second auxiliary axis parallel to the fixed axis on the left side of the operation knob. At least one or more of a pivot lever and a solenoid lump that are driven by an electrical signal are pivotally connected to one side of the pivot lever and a plunger of the solenoid lump. The drive link is connected. At least one driven link pivotally connected to the operation knob and the latch bar is pivotally connected to the other side of the rotating lever. The latch bar is formed of an elastic body, and the head portion is pivotally connected to the driven link. The leg part is provided with a return device for the operation knob which is formed at the free end and is supported by the support jaw of the trip bar.

  According to the return device of the operation knob for the power circuit breaker according to the present invention, unless an abnormal current is sensed when the power circuit breaker is mounted and the power circuit breaker is “on”, even if there is no continuous drive current of the solenoid, Maintaining the “on” state, the power breaker that automatically returns the operation knob not only minimizes the power consumption due to the implementation of the mechanism, but also realizes sufficient switch contact pressure due to the elasticity of the latch bar itself It is possible to change the ON / OFF state easily according to the result of abnormal current detection, and it is safe because the contact switch can be opened when abnormal current is detected even when the operation knob is forced to the “ON” position. Excellent in structure and simple structure, reducing the manufacturing cost.

  Further, according to the return device of the operation knob for the power breaker according to the present invention, the “ON” state is maintained even when the power breaker is “ON” and there is no continuous drive current of the solenoid. This makes it easy to automate the return movement of the control knob, minimizes power consumption due to the implementation mechanism of the power breaker, reduces the rate of failure, increases the life of the equipment, and also allows manual operation In minimizing secondary losses such as information loss due to factory raw material damage, operation interruption or information system operation that occurs due to the continuous interruption of power supply that appears when left unattended, The availability is to be provided.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

  The present invention relates to a power circuit breaker that senses electric leakage, short circuit, etc., and opens and closes a power supply. The upper end of the circuit breaker housing 11 is projected on a lid 18 so that it can be operated, and a fixed shaft. An operation knob 14 that rotates around the operation knob 14, a latch bar 15 that is installed below the operation knob 14, has a head portion linked to the lower left end portion of the operation knob, and a leg portion that is supported by a support jaw and moves in a hinge manner. A pair of contact switches 16 formed on the bottom surface of the housing 11 are used to open and close, and rotate about a first auxiliary shaft 17b parallel to the fixed shaft 13 to the right side of the operation knob. A trip bar 17 having a support jaw 17a at the lower part and a contact part at the upper part, and a turning lever that rotates on the left side of the operation knob 14 along a second auxiliary shaft 21 parallel to the fixed axis. 22 And a solenoid lump 25 composed of a solenoid driven by an electric signal and a plunger 25a that linearly moves in the light cylinder of the solenoid, and one end of the rotating lever 22 and the solenoid lump 25 At least one drive link 23 for pivotally connecting the plunger 25a is provided, and the other end of the rotating lever 22 is formed to be connected to one side of the lower end of the operation knob 14 and the head of the latch bar 15. It is a characteristic structure to include the driven link 24 that is made.

  The power breaker 10 according to the present invention is formed into a box by a housing 11 and a lid 18, and an operation knob 14, a latch bar 15, a contact switch 16, and the like are accommodated in the inner space. The return device 20 is mounted by the return means of the operation knob 14 by rotating around the fixed shaft 13.

  On the other hand, a mutual connection and operation structure relating to a circuit board (not shown) and other control devices for detecting a surge current normally included in the power breaker 10 are well known in the art, and detailed description thereof is omitted.

  The operation knob 14 is formed so as to be able to rotate forward and backward around a fixed shaft 13 installed horizontally in the accommodation space of the power breaker 10, so that the upper end portion of the body is the upper surface portion of the lid 18. A torsion spring or the like that protrudes upward so that it can be rotated, and that the lower part has a left lower end and a right lower end, respectively, and resists reverse rotation (counterclockwise in FIGS. 2 and 3). The elastic means is provided.

  The latch bar 15 is installed below the operation knob 14 and its head portion is connected to the lower left step portion of the operation knob 14 through a driven link 24. The leg portion is a free end and a support jaw 17a below the trip bar 17 is provided. The material is formed so as to have a limited hinge motion and is made of an elastic material. On the other hand, a push bar (Crossbar, 15a) is attached to the body of the latch bar 15 in the horizontal direction so that both contacts of the contact switch 16 can be pressurized.

  The trip bar 17 rotates about the first auxiliary shaft 17b parallel to the fixed shaft 13 on the right side of the operation knob, has a support jaw 17a at the lower portion, has a contact portion at the upper portion, and is spring-loaded. When the contact portion is touched by the plunger action (not shown) of the trip solenoid 19 or the bending of the bimetal when the reverse rotation resistance is applied, the trip bar 17 rotates and the support jaw 17a is latched. It is comprised so that the leg part of can be cancelled | released.

  The solenoid lump 25 is in a state where a coil is wound around the outer peripheral surface of a light cylinder, and when the plunger 25a is reciprocated in the hollow of the light cylinder and a surge current is applied to the drive coil, The plunger is formed so that an electronic force is instantaneously generated to be sucked into the light cylinder, and the plunger is installed in an appropriate direction such as a horizontal or vertical direction in the housing.

  The rotation lever 22 is installed in the space between the operation knob 14 and the solenoid lump 25, so that it rotates about the second auxiliary shaft 21 parallel to the fixed shaft 13 and is separated from the axis. The left and right action portions are provided on the left and right sides of the position, and the outer appearance thereof is formed in a substantially triangular shape so that the rotational force is transmitted around the fixed axis.

  The drive link 23 is at least one plate-like member that is installed between the rotation lever 22 and the solenoid lump 25 and transmits a force, and one end portion of the drive link 23 is a left end action portion of the rotation lever 22. The other end is pivotally connected to the upper end of the plunger 25a of the solenoid lump 25 to move.

  The drive link 23 can be directly hingedly connected to the plunger 25a as shown in FIG. 4, or can be connected to the plunger 25a through the intermediate member 23a as shown in FIG. 5, but as shown in FIG. It is also possible to eliminate the drive link 23 and form a long concave groove in the left end action portion of the rotation lever 22 so as to be coupled to the plunger 25a. In the present invention, all of these are defined by the tensile force link means.

  The driven link 24 is a plate-like member that is installed in a space between the rotation lever 22 and the operation knob 14 and rotates, and includes three action portions, and the first action portion is turned. The lever 22 is linked and the second and third action portions are pivotally connected to the operation knob 14 and the latch bar 15 to move. The first working portion of the driven link 24 is preferably link-coupled to the rotating lever 22 using the auxiliary link 26.

  Further, a long concave groove as shown in FIG. 6 is formed in the right end action portion of the rotation lever 22 so that the impact force generated during the rotation process of the drive link 23 and the driven link 24 can be absorbed. . The shape of the long groove connected to the driven link 24 may be appropriately formed, the auxiliary link 26 may be omitted, and the driven link 24 may be directly connected to the rotating lever. All are defined in the tensile force link means.

Hereinafter, the operation of the present invention will be described as follows.
First, FIG. 2 shows that the power switch-off device is in the “off” state, the contact switch 16 is open, the leg portion of the latch bar is released from the support jaw 17a of the trip bar, and the operation knob is in the “off” position. The plunger 25a is detached from the solenoid light cylinder.

  When an electronic force is generated by applying a surge current to the solenoid 25 of the power breaker 10 by the return signal of the operation knob, the plunger 25a is attracted as shown in FIG. The rotated lever 22 thus rotated rotates counterclockwise.

  Therefore, the lower left end portion of the operation knob 14 connected to the rotation lever 22 through the driven link 24 is pushed, and the operation knob 14 rotates counterclockwise and returns to the “on” position.

  Further, the head portion of the latch bar 15 pivotally connected to the lower left end portion of the operation knob 14 through the driven link 24 is moved downward, and the leg portion of the latch bar is engaged with the support jaw 17a of the trip bar 17 so as to be engaged. Since the lower right end pushes the body of the latch bar, the push bar 15a mounted on the side of the latch bar 15 pushes the contact switch 16 while the latch bar is supported by the leg portion and rotates to turn the power breaker on. .

  In this state, the reverse rotational force applied to the lower left end of the operation knob due to the elasticity of the latch member 15 is larger than the normal rotation by the torsion spring of the operation knob 14, so that the surge current applied to the solenoid is removed and the plunger Even if the suction force is lost, the “on” state is maintained as it is.

  On the other hand, when the plunger of the trip solenoid 19 driven by the abnormal current signal touches the contact portion of the trip bar while the surge current applied to the solenoid 25 has passed for a certain time, the lower portion of the trip bar rotates. The operating knob 14 is rotated clockwise by the restoring force of the torsion spring while the elastic force of the latch bar 15 maintained in the “on” state disappears while the leg portion of the latch bar applied to the support jaw 17a is released while moving. 2 and moves to the “off” position as shown in FIG. 2, and the plunger 25a connected through the drive link 23 is projected.

  Further, the head portion of the latch bar 15 connected to the lower left end of the operation knob 14 via the driven link 24 is lifted, and the leg portion is released from the support jaw 17a. Therefore, the push rod 15a pushing the contact switch 16 is used. The contact pressure is lost, and the contact is opened by the spring provided in the contact switch 16 so that the power breaker is maintained in the “off” state.

  On the other hand, even when the operator forcibly operates the operation knob 14 from the “off” position to the “on” position without removing the cause of the overcurrent or the short circuit, the trip bar contact portion is tripped by the trip solenoid or the bimetal. By touching and releasing the leg portion of the latch bar from the support jaw 17a, the contact of the contact switch 16 is opened, and an operational accident can be prevented.

It is the block diagram and the elements on larger scale which show the power supply circuit breaker by a prior art. It is sectional drawing which shows the open / close state of the power circuit breaker by this invention. It is sectional drawing which shows the open / close state of the power circuit breaker by this invention. FIG. 2 is a schematic diagram illustrating various embodiments of a power breaker according to the present invention. FIG. 2 is a schematic diagram illustrating various embodiments of a power breaker according to the present invention. FIG. 2 is a schematic diagram illustrating various embodiments of a power breaker according to the present invention.

Explanation of symbols

10: Power breaker
11: Housing 13: Fixed shaft
14: Operation knob
15: Latch bar
15a: Push rod
16: Contact switch
17: Trip bar 17a: Support jaw
17b: First auxiliary shaft 18: Lid
19: Trip solenoid
20: Return device
21: Second auxiliary shaft 22: Rotating lever
23: Drive link
24: Driven link
25: Solenoid block
25a: Plunger
26: Auxiliary link
100: Switch
103: Knob 105: Bow
107: Solenoid 109: Contact switch
111: Support base 113: Knob body
115: Plunger 117: Drive pole
121: 1st pressurizing part 123, 125: Spring 133: Shaft
135, 141: Hinge

Claims (6)

In an automatic return device for an operation knob for a power breaker, an upper end that rotates around a fixed shaft fixed to the housing of the breaker and has a reverse rotation resistance force by a spring and protrudes above the upper surface of the housing An operation knob having a left lower end and a right lower end at the bottom, and a pivot formed on the left lower end to transmit rotational force;
A trip bar disposed on the right side of the operation knob and pivoting about a first auxiliary shaft parallel to the fixed shaft; a support jaw at the bottom; and a contact bar at the top;
A left end action portion that is arranged on the left side of the operation knob, rotates around a second auxiliary shaft parallel to the fixed shaft, and that is arranged on the left and right by one side of the shaft hole, and transmits a rotational force. A pivoting lever having a working part;
A coil is wound so that a surge current is applied to the outside of the light cylinder, and the hollow of the light cylinder is configured to linearly move in the axial direction, and the upper end is linked to the left end action part of the rotating lever by the tensile force link means. A mass of solenoid with a modified plunger;
There are three action parts so that the movement of the right end action part of the rotating lever is distributed and transmitted to the operation knob and the latch bar, and the first action part is connected to the right end action part of the turning lever by a tensile force link means. A driven link configured to be coupled and pivotally coupled to the lower left end of the operation knob, and to be pivotally coupled to the head of the latch bar;
The third working part of the driven link is pivotally connected to the head part, and the leg part is supported by the support jaw of the trip bar as a free end so that the body is elastic. A latch bar made of a material and disposed so as to come into contact with a lower right end during rotation of the operation knob; and disposed below the latch bar so that an electrical contact is opened and closed by the movement of the latch bar. An automatic return device for an operation knob for a power breaker configured to include a configured contact switch. 2. The operation for a power breaker according to claim 1, wherein the tension link means between the upper end of the plunger of the solenoid lump and the left end acting portion of the rotating lever is a drive link in which each end is pivotally connected. Knob automatic return device. The tensile force link means between the upper end of the plunger of the solenoid lump and the left end acting portion of the rotating lever pivotally connects the upper end of the plunger to the left end acting portion of the rotating lever. 2. The restrictive degree of freedom of movement is allowed in that a long hole is formed in the left end action part pivot of the lever to convert the linear motion of the plunger into the rotational motion of the rotating lever. Automatic return device for the operation knob for the power breaker. 2. The operation knob for a power breaker according to claim 1, wherein the tensile force link means between the right end action part of the rotating lever and the first action part of the driven link is an auxiliary link in which both ends are pivotally connected. Automatic return device. In the tensile force link means between the right end action part of the rotating lever and the driven link, the first action part transmits a movement force by forming a long hole in the right end action part of the rotation lever. 5. The automatic return device for an operation knob for a power breaker according to claim 1 or 4, wherein a limited degree of freedom of movement is allowed. The power supply according to any one of claims 1 to 4, wherein a pressure applied to the latch bar is transmitted to a contact switch through a push bar installed horizontally across the center of the body of the latch bar. Automatic return device for operation knob for circuit breaker.

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