KR200438734Y1 - Upper Contact Up and Down Structure of Leakage Breaker - Google Patents

Abstract

The present invention relates to an earth leakage breaker, and more particularly, by simplifying the lever rotation structure of the earth leakage breaker and manipulating the manual lever, the connecting means having a plurality of connecting members is arranged in an upright state, and the upper contact point and the lower contact point are brought into contact with each other. When the ODP (Oil Dash Pot) is operated due to excessive current or leakage current, the operation lever is operated so that the arrangement of the connecting means standing up in the vertical state is bent so that the upper and lower contacts are turned off. The upper contact lifting structure of the earth leakage breaker capable of interrupting the energized state is disclosed.

The present invention is provided with a steel frame for supporting the rotating shaft of the manual lever separately from the main body of the earth leakage breaker, and a guide formed integrally with the main body in a conventional earth leakage breaker provided with a fixed shaft, a link, a bullet piece, and the like therein. The lifting lever for lowering the upper contact point while the rail and the guide rail are guided up and down, and the manual lever and the lifting lever are joined to each other by standing hinge shafts, and the lifting lever is lowered. The first link and the second link, which allow the lifting lever to rise by bending, and the locking lever whose shaft is formed in the cut surface in order to maintain or bend the first and second links.

Accordingly, the present invention can significantly reduce the manufacturing cost by reducing the component cost and improving the production efficiency by simplifying the manual lever rotation structure in the earth leakage breaker, and of course, it is possible to provide a lever rotation structure without a separate steel frame, The overall volume is reduced to provide a miniature circuit breaker.

Description

    Upper Contact Up and Down Structure of Leakage Breaker}

1 is a cross-sectional view showing the structure of a conventional earth leakage breaker.

2 is a cross-sectional view showing an operating state of a conventional earth leakage breaker.

Figure 3 is an exploded perspective view showing the structure of a conventional earth leakage breaker.

Figure 4 is a cross-sectional view showing an upper contact lifting structure of the earth leakage breaker of the present invention.

Figure 5 is an exploded perspective view showing an upper contact lifting structure of the earth leakage breaker of the present invention.

Figure 6 is a cross-sectional view showing an operating state when the lever of the earth leakage breaker of the present invention.

Figure 7 is a cross-sectional view showing a car cut-off state of the earth leakage breaker of the present invention.

* Description of the main parts of the drawings

100: main body 101: manual lever rotating shaft

102: manual lever 103: lower contact

104: upper contact 105: upper contact spring

106: rotating shaft spring 107: first link

107a: link axis 107b: locking jaw

108: second link 109: guide rail

110: lifting lever 110a: groove

111: engaging shaft 111a: cutting surface

112: locking lever

          The present invention is the first link, the second link and the lifting lever is arranged in the standing state by the guide rail guide in accordance with the rotation of the manual lever in the home circuit breaker, so that the upper and lower contacts are in contact with each other, manual or ODP The first and second links are vertically erected by the operation of the lever, and the upper and lower contact points fall, thereby allowing the lever rotation structure of the circuit breaker to be restored to the off state.

As is well known, the earth leakage breaker is a device which is installed in the distribution panel and used for the purpose of preventing safety accidents due to short circuits and short circuits. As shown in FIGS. 1 to 3, the conventional ground fault circuit breaker includes a handle 2a provided on the cover 3 for selectively opening and closing a current supplied from the power supply side to the load side, and the handle 2a. Side plate (7a) is hinged coupling, plate link (29) is hinged to the top of one side of the handle (2a), pushing bar (30) hinged to the bottom of the plate link (29), and A nail 31 coupled to the rear side of the side plate 7a, a trip bar 32 hinged to a rear upper end of the side plate 7a, a rotation shaft 25 and a trip bar 32 of the handle 2a. Connecting pin connecting the upper end of the torsion spring (34a), (34b) and the plate link 29 and the handle (2a) and the plate link (29) and the trip bar (32) installed on the outer peripheral surface of the hinge shaft (33) (35), the connecting pin 35 and the nail 31 connecting the bottom of the plate link 29 and the trip bar 32 It consists of a torsion spring (37a), (37b) provided in the hinge pin 36 of the stage.

In the conventional ground fault circuit breaker configured as described above, when there is a leakage current in a state in which the handle 2a is turned on, first, a ground fault detector ZCT 21 (Zero Current Transformer assembly: , The ZCT 21 detects a leakage current and transmits a detection signal to a circuit part composed of electronic components in a PCB (Printed Circuit Board) case 38.

In addition, the circuit part in the PCB case 38 compares and amplifies the detected signal to apply a voltage to a trip coil assembly 10, which is an electronic device part, and applies the voltage to the trip coil assembly 10. Converts the applied voltage into a suction force for the armature 39 to suck the armature 39 instantaneously.

Accordingly, the armature 39, which rotates around the hinge point, pushes the trip bar 32 of the mechanism to rotate the trip bar 32 about the hinge pin 40, thereby engaging the lower end of the trip bar 32. When the jaw 41 is out of the top of the nail 31, the nail 31 is raised by the pressing force of the pushing bar 30, which is pressing the support pin 41 installed on the lower portion of the nail 31. It rotates around the hinge pin 36 of the, so that the front end of the pushing bar 30 is slipped from the support pin 41 of the lower nail 31 to leave the support pin 41.

At the same time, due to the toggle action of the plate link 29 and the handle 2a caused by the restoring force of the compression spring 24 below the crossbar 17 and the torsion spring 34a provided on the rotating shaft 25 of the handle 2a. By moving the handle 2a to the blocking position, the movable contact of the movable contact 27 is spaced apart from the fixed contact of the fixed contact 28 so that the power is cut off.

However, such a conventional earth leakage breaker is because the mechanism assembly is composed of many parts such as the handle (2a), side plate (7a), pushing bar 30, trip bar 32, a plurality of torsion springs and a plurality of pins Not only a large amount of time is required for the processing of the parts, there is a high possibility that defects occur during processing, there is a disadvantage that the productivity is reduced.

In particular, many of the parts are produced by the press working process has a disadvantage in that the failure rate is high and the manufacturing cost increases.

In addition, as the number of parts increases, the volume of the mechanism assembly increases, so that the space required for mounting also increases, making it difficult to miniaturize the circuit breaker.

The purpose of the present invention is to solve the problems as described above

By simplifying the parts structure constituting the earth leakage breaker to reduce the number of parts to improve the productivity, it is possible to reduce the manufacturing cost.

On the other hand, another technical problem to be achieved by the present invention is to provide a structure for elevating the upper contact of the ground fault circuit breaker so that the circuit breaker can be miniaturized by reducing the number of parts and volume to reduce the space required for mounting.

         In order to achieve the above object, the present invention operates the manual lever in the "on" direction, and when the first link is lowered, the first and second links are held in a standing state while being pushed down by the second link. The lifting lever hinged to the lower portion of the second link under the pressure of the second link is vertically lowered according to the guide of the guide rail formed in the main body. As the lifting lever descends, the lower end of the lifting lever pushes down the upper contact, so that the upper contact is connected to the lower contact, and the power is turned on.ODP operates when the ODP operates due to a short circuit or overcurrent on the load side. Since the lever rotates the locking shaft forming the cutting surface while pushing the locking lever, the locking jaw of the first link hanging thereon is separated from the cutting surface, and the first and second links are bent while the standing state is released, thereby supporting the upper contact. Due to the elasticity, the upper contact rises and the state of contact with the lower contact falls, so that the power supply can be cut off. At the same time, the manual lever is rotated to the off position by the elasticity of the pivot shaft spring coupled to the shaft of the manual lever. will be.

Accordingly, the present invention is not provided with a separate steel frame, the guide rail and the manual lever formed on one side of the main body, and a simple structure and a few parts connected thereto contact the upper and lower contacts by the rotational force of the manual lever It is to be able to release the contact or to be able to improve the productivity and significantly reduce the manufacturing cost.

This invention is described with reference to the accompanying drawings as follows.

Figure 4 is a cross-sectional view showing an upper contact lift structure of the ground fault breaker according to the present invention, Figure 5 is an exploded perspective view of the upper contact lift structure of the ground fault breaker according to the present invention.

As shown therein, the manual lever 102 coupled to the manual lever rotating shaft 101 formed integrally with the main body 100 to rotate on or off manually to supply power supplied from the power supply side to the load side. And a lower contact 103 fixed to the main body 100 so as to be connected to a power source and be electrically conductive when pressed and cut off when it is compressed, and to be blocked when falling. To provide a restoring force that the upper contact 104 can be raised and lowered by the operation of the manual lever 102 and the upper contact 104 can be lifted below the upper contact 104 while maintaining the pressure or the space therebetween. The upper contact spring 105, the rotary shaft spring 106 fitted to the manual lever pivot shaft 101, and the manual lever 102 are rotated to provide a restoring force for the manual lever 102 to return to the off position. Upper part by power A first link 107 having one end connected to the manual lever 102 and one end connected to the other end of the first link 107 so that the contact point 104 is lifted and the lower contact 103 is brought into contact or released from contact. The second link 108 connected by the 107a, and one end is connected to the other end of the second link 108, the other end is in contact with the upper portion of the upper contact 104, the lifting lever to push down the upper contact 104 Connection means 108a arranged in (110), the guide rail 109 is formed to protrude perpendicularly to one side of the main body so that the lifting lever 110 can move up and down without departing from the position, and the lifting lever 110 In the first link 107 and the second link 108 in the standing state, one end is coupled to the second link 108 and the hinge shaft, the other end is in contact with the upper contact 104, the guide rail 109 on one side Groove 110a is formed to be coupled to the upper contact 104 while lifting up and down along the guide rail 109 by the turning force of the manual lever 102. It is to provide a pressure so that the first link 107 and the second link 108 is lowered when the manual lever 102 is on, so that the upper and lower contacts 104 and 103 can be kept in full contact. In order to be cut by the engaging projection 107b formed on the first link 107 is formed a cutting surface 111a is coupled to the engaging shaft 111, which is coupled to the second link 108, by the engaging shaft 111 The locking lever 112 rotates, the ODP 113 for detecting short circuit or overcurrent, the iron core 113a for generating magnetic force when the ODP 113 is operated, and the magnetic force of the iron core 113a is pulled out. The ODP lever 113b and the rotation bar 112a formed on one side of the locking lever 112 to rotate the locking lever 112 by the operation of the ODP lever 113b and the locking lever 112 are ODP levers. It has been provided with a locking lever spring 112b for providing a restoring force so that it can be restored after the rotation by the operation of the 113b. .

Referring to the accompanying drawings, the operation of the present invention is as follows.

Figure 6 is a cross-sectional view showing a state in which power is supplied by operating the manual lever 102 in the "on" position in the lever rotation structure of the ground fault circuit breaker of the present invention. As seen from this, when the manual lever 102 is operated and pushed to the " on " position, the manual lever 102 overcomes the elasticity of the pivot shaft 106 and rotates about the manual lever pivot shaft 101. The first link 107 connected to the 102 and the second link 108 connected thereto are pushed downward, and the first link 107 and the second link 108 are coupled by a central link shaft 107a. The first link (110a) of the lifting lever (110) connected to the lower end of the second link (108) is coupled with the guide rail (109) formed on the main body (100) and connected to the link shaft (107a). 107 and the second link 108 is not bent to be lowered while maintaining the vertically standing state. Therefore, since the upper contact 104 is in contact with the lower end of the lifting lever 110 connected to the second link 108, the power is connected to the lower contact 103 by being contacted with the lower contact 103 by the pressure of the lifting lever 110. It is to be supplied to the load side not shown through the upper contact 104.

In addition, when the power is supplied while the upper contact 104 and the lower contact 103 are in contact with each other, an overcurrent flows due to a short circuit or an overload on the load side, thereby preventing occurrence of an electric fire or human accident. In order to install the ODP (Oil Dash Pot) so that the power can be automatically cut off, the operation of the power cut off by this ODP will be described with reference to FIG.

As shown here, one end of the thick copper wire 113c wound on the iron core 113a is connected to the upper contact point 104, but the other end is connected to the load. In the case of each of the two power lines are installed, the power supply is connected to the load side through the copper wire (113c), the iron core (113a) wound around the copper wire (113c) by a current flowing in the copper wire is a predetermined magnetic force is generated If a large current flows in the copper wire 113c when the overcurrent flows rapidly during operation in the state, the iron core 113a in which the copper wire 113c is wound generates strong magnetic force and pulls the ODP lever 113b installed on the upper part of the ODP lever ( The front end portion 113d of 113b is to push the rotation bar 112a formed at one side of the locking lever 112. As the locking lever 112 is rotated about the locking shaft 111 as described above, the locking shaft 111 is also rotated at the same time. Thus, as shown in FIG. 5, the locking lever 112 is caught on the locking shaft 111 having the cutting surface 111a formed therein. As the locking step 107b of the first link 107 is separated toward the cutting surface 111a, the portion of the link shaft 107a connecting the first link 107 and the second link 108 is bent and the upper contact point 104 is formed. ) Is raised by the force in the upper direction by the elasticity of the upper contact spring 105 supporting the lower. Therefore, even when the position of the manual lever 102 is in the "on" side, the upper and lower contacts 104 and 103 are to fall, it is possible to cut off the power supplied to the load.

Accordingly, the present invention can significantly reduce the manufacturing cost by reducing the component cost and improving the production efficiency by simplifying the manual lever rotation structure in the earth leakage breaker, and of course, it is possible to provide a lever rotation structure without a separate steel frame, The overall volume is reduced to provide a miniature circuit breaker.

Claims (5)

The manual lever rotating shaft 101 installed on the main body 100, the manual lever 102 coupled to and rotated, the lower contact 103 connected to the power supply, and the vertical lever up and down according to the opening and closing operation of the manual lever 102. The elevating upper contact 104, the upper contact spring 105 for providing restoring force to the upper contact 104, the pivot shaft 106 for providing restoring force to the manual lever 102, and the manual lever ( A connecting means 108a for pressing down the upper contact 104 by on and off operations connected to the 102 and a guide rail 109 for guiding the connecting means 108a to be vertically elevated. The upper and lower contacts 104 and 103 are in contact with each other when the connecting means 108a is vertically upright by having a latching lever 112 for allowing the means 108a to stand up or to be detached and bent. And a short circuit breaker characterized in that the contact is released when the standing state is released Lifting of the upper contact structure. The method according to claim 1, In the aforementioned connecting means 108a, the manual lever 102 and the first link 107 are connected by a shaft, and the first link 107 and the second link 108 are connected by the link shaft 107a. The second contact point (108) and the lifting lever (110) is connected to the shaft to the upper contact lifting structure of the earth leakage breaker, characterized in that arranged to press the upper contact 104 in contact with the lifting lever (110). The method according to claim 1, The above-described locking lever 112 is the upper contact lifting structure of the ground fault circuit breaker, characterized in that coupled to the second link 108 by the engaging shaft 111 is formed with a cutting surface (111a). The method according to claim 2, The above-described first link 107 is an upper contact lifting structure of the ground fault circuit breaker, characterized in that the locking jaw (107b) is formed to be caught or separated from the locking shaft (111). The method according to claim 2, The above-mentioned lifting lever 110 is coupled to the guide rail 109 formed on the main body 100, the upper contact lifting structure of the circuit breaker, characterized in that the groove (110a) is formed on one side for vertical lifting.

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