BR102012003947A2 - circuit breaker having ground member lockout unit. - Google Patents

Abstract

"circuit breaker having ground limb blocking unit" a circuit breaker having a ground limb blocking unit includes a housing having busbar terminals and load terminals, a separating body accommodated in the housing to be slidably movable, and connected to and disconnected from the busbar terminals and load terminals, a ground member configured to ground the load terminals when the disjunior body is in a test position, a ground member conduction unit configured to drive the ground member to a ground position and a non-ground position, and a ground member lock unit to the ground position or the non-ground position. Under this configuration, unwanted ground member operation due to a user's carelessness can be prevented, and a safety feature can be enhanced.

Description

Field of the Invention The present invention relates to a circuit breaker having a ground limb blocking unit, and particularly to a circuit breaker having a grounding circuit breaker. ground limb blockage capable of preventing a malfunction of a ground limb due to the carelessness of a user. 2. Background of the Invention Generally, a circuit breaker or circuit breaker is installed between a power side and a load side, and configured to protect a charging device and an electrical circuit from a current (eg short) accident. circuit, grounding, etc.) This circuit breaker comprises a housing having terminals connected to a conductor bar and a load, and a circuit breaker body having terminal connection portions connected to the terminals and slidably seated in the housing. The circuit breaker body may include a vacuum container and a vacuum switch (VI) disposed in the vacuum container. Here, the vacuum switch (VI) has a movable contact and a fixed contact, which come into contact with each other, or are separated from each other. The circuit breaker body may have a working position where a current and voltage are supplied as the terminal connection parts are connected to the terminals so that a conductor bar and a load (electrical circuit) can be electrically connected. each other, and a test position where the terminal connection parts are separated from the terminals and only one test operation is performed to test whether the moving contact, etc., is normally operated. Specifically, the circuit breaker body may be configured to be slidably movable between the operating position and the test position in the enclosure. The enclosure may include a ground device or a ground member (hereinafter referred to as 'ground member') for grounding the load (load circuit). Figure 1 is a perspective view of a circuit breaker according to conventional technique; Figure 2 is a view showing a rear surface of a housing of Figure 1; Figure 3 is a perspective view of a circuit breaker. Fig. 4 is a view showing an open state of an insert opening of the earth member conducting unit identifier of Fig. 3.

As shown in Figures 1 and 2, the conventional circuit breaker comprises a housing 10 having an accommodation space therein, and a circuit breaker body 20 disposed in housing 10 so as to be slidably movable back and forth. The housing 10 may have terminals 15 on a rear surface thereof, terminals 15 connected to a conductor bar and a load (load circuit). The terminals 15 may be spaced from each other according to each phase.

The terminals 15 may be spaced up and down. For example, the upper terminals 15 (hereinafter 'conductor bar terminals' 16) are connected to a conductor bar, and the lower terminals 15 (hereinafter 'load terminals' 17) are connected to a load. Circuit breaker body 20 may include terminal connection parts (not shown) connected to or disconnected from terminals 15 (busbar terminals 16 and load terminals 17). The circuit breaker body 20 may be slidably back and forth between an operating position in which a current and voltage are transmitted to a load from a conductor bar as the terminal connection parts are connected to terminals 15, and a test position where terminal connection parts are separated from terminals15. The circuit breaker body 20 may include a vacuum switch configured to interrupt the busbar and the load bar.

Each of the charge terminals 17 may include a ground conductor 25 which is for extended downward.

A grounding member 26 for grounding conductor 25 may be provided on a lower side of the grounding conductor 25. The grounding member 26 may rotate up and down about a horizontally rotating axis 27. The housing 10 may include a ground member driving unit 30 configured to conduct ground member 26 between a ground position where ground member 26 is connected to ground conductor 25, and a non-ground position where ground member 26 rotates to ground. low to be disconnected from conductor 25.

As shown in Figures 3 and 4, the ground member driving unit 30 may include a frame 31, an axis 41 rotatably supported by the frame 31, and an i-dentifier 45 configured to rotate the axis 41. The member driving unit Ground 30 may include a power transmission unit 50 configured to transmit a driving force from axis 41 to rotation axis 27 of ground member 26.

As shown in Figure 2, the power transmission unit 50 may include a first arm 51 disposed at the end of the shaft 41, a second arm 53 coupled to the rotational axis of the ground member 26, and a connection 55 having an end connected to the first shaft. arm 51 and another end connected to the second arm 53. The housing 10 may include an accommodation portion 18 configured to accommodate the power transmission unit 50 therein. The accommodation portion 18 may be penetrably formed to a lower region of the housing 10 backwards and forwards. The frame 31 may include a front plate 32 arranged on the same plane as a front surface of the housing 10.

On one side of the frame 31, a lever 33 may be disposed that interferes with the axis 41 and forms part of a locking device that restricts the circuit breaker body 20. The front plate 32 may include an insert opening of the handle 35 through the which an identifier 45 is inserted from the outside of housing 10 to be coupled to axis 41. Front plate 32 may include a shutter 37 configured to open or close the insertion opening of identifier 35. Shutter 37 may rotate about an axis of rotation 38 arranged in parallel with the axis 41.

A lever 39 may be provided on the rotation axis 38 of shutter 37 in the horizontal direction. Lever 39 may serve as a handle to rotate the axis of rotation 38 of shutter 37. Lever 39 may be arranged in a locking position to lock handle insertion opening 35 when locking handle insertion opening 35, and an opening position for opening the insertion opening of handle 35 by rotation from the locking position by a predetermined angle at the insertion opening of handle 35. In a state that the circuit breaker body 20 is in the position of For testing, load terminals 17 may be grounded by rotating lever 39 up to the open position. As lever 39 rotates, shutter 37 rotates. As a result, the insert opening of handle 35 is opened.

Once the insertion opening of handle 35 is open, the end of handle 45 is inserted into the insert opening of handle 35. Next, the i-dentifier 45 inserted into the insert opening of handle 35 is coupled to the shaft end. 41, and then the handle 45 is rotated by a predetermined angle (e.g., 180 °).

A rotational force of handle 45 is transmitted to rotational axis 37 of ground member 26 by axis 41 and power transmission unit 50. As ground member 26 pivots up to be connected to ground conductor 25, the terminals 17 can be grounded. The housing 10 and circuit breaker body 20 may include an interlocking device (not shown) configured to allow ground member 26 to rotate to a ground position when the circuit breaker body 20 is in a test position, and configured to prevent the ground member 26 from rotating to the ground position when the circuit breaker body 20 is in an operating position.

However, the conventional circuit breaker may have the following problems.

First, the insertion opening of handle 35 is opened when lever 39 rotates. Under this structure, even if the circuit breaker body 20 is not in a test position, shaft 41 can be rotated to a close position as the handle insertion opening 35 is opened by an error or carelessness of the circuit breaker. user. Specifically, when the circuit breaker body 20 is in a closed position, ground member 26 cannot rotate to a ground position due to the interlocking device. However, in this case, axis 41 may be rotated to the ground position as handle 45 is inserted into the insertion opening of handle 35. This may cause excessive force to be applied to shaft 41, the interlock device and / or the identifier 45, which results in damage and / or transformation thereof.

SUMMARY OF THE INVENTION

Therefore, an aspect of the detailed description is that of providing a circuit breaker having a ground member locking member capable of enhancing a safety feature, preventing a breakdown of a ground member due to the carelessness of a user.

To achieve these and other advantages and in accordance with the purposes of the present specification, as incorporated and widely described herein, a circuit breaker having a ground member locking unit is provided, the circuit breaker including: a housing having bus terminals conductors and charging terminals; a breaker body slidably accommodated in the housing and connected to and disconnected from the busbar terminals and load terminals; a grounding member configured to ground at the load terminals when the circuit breaker body is in test position; a ground limb driving unit configured to drive the ground limb to a ground position and a non-ground position, and a ground limb locking unit configured to secure the ground limb driving unit to the ground position or non-ground position. -Earth. The ground member drive unit may include a rotatable shaft configured, and a power transmission unit disposed between the shaft and the ground member, and configured to transmit a shaft driving force to the ground member.

A handle insert opening through which a handle is inserted to be coupled to an end portion of the shaft may be provided to one side of the shaft. A shutter configured to open or close the handle insert aperture may be provided in the handle insert aperture. The shutter may include a rotation axis, and may be configured to open or close the handle insert opening by rotation about the rotation axis. The ground member locking unit may include a shutter locking unit configured to lock the shutter in a state that the insertion opening of the denter has been locked by the shutter. The end of the pivot axis may be exposed at the outer end of the housing, and a lever may be provided at the exposed end of the pivot axis. The shutter clamping unit may include a locking protrusion formed on the rotation axis, and a locking part configured to prevent rotation of the locking protrusion by contacting the locking protrusion and configured to allow rotation of the locking protrusion by be separated from the lock protrusion. The fastener may include a pivot axis disposed in parallel with the pivot axis, and may be pivotal about the pivot axis. The shutter clamping unit may further include a lock disposed at the end of the axis of rotation, and a key engaged with the lock to rotate the axis of rotation. The ground member locking unit may further include a shaft locking unit disposed at the end of the shaft when the ground member is in a ground position, and configured to lock the shaft to the ground position, preventing the handle from approaching the shaft. . The axle clamping unit may include a pivot axis disposed in parallel with the axle, and a locking plate formed so that it can rotate about the pivot axis, and may rotate between a locking position to contact the end of the axle. shaft, and an allowable position to be separated from the shaft end. The axle clamping unit may include a lock disposed at the end of the rotation axis, and a key engaged with the lock to rotate the rotation axis. The axis may include a rotation restriction unit configured to restrict shutter rotation by contacting the shutter. And, the locking plate can be prevented from rotating by contacting the rotation restraint unit when the shaft is in a non-ground position. The further scope of applicability of the present patent application will become more apparent from the detailed description given below. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, as various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art. in the art from the detailed description.

BRIEF DESCRIPTION OF DRAWINGS

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated into and form a part of this specification, illustrate exemplary embodiments and together with the description serve to explain the principles of the invention.

In the drawings: Figure 1 is a perspective view of a circuit breaker according to conventional technique: Figure 2 is a view showing a rear surface of a housing of Figure 1; Figure 3 is a perspective view of a ground member conduction unit of Figure 1; Figure 4 is a view showing an open state of an insert opening of the ground member conducting unit identifier of Figure 3; Figure 5 is a perspective view of a circuit breaker having a ground member locking unit according to a first embodiment of the present invention; Figure 6 is a rear surface of a housing of Figure 5; Figure 7 is a perspective view of a ground member conducting unit of Figure 5; Figure 8 is a perspective view showing a side surface of the ground member conduction unit of Figure 7; Figure 9 is a perspective view of notch showing the inner side of a circuit breaker in which a faceplate has been separated; Fig. 10 is a view showing an open state of a shutter of Fig. 9; Fig. 11 is an enlarged perspective view of a front plate of Fig. 7; Fig. 12 is a view showing a rear surface of the front plate of Fig. 11; Figure 13 is a view showing the inner side of a circuit breaker on which a faceplate has been removed, which is to explain a shutter clamping unit and a shaft clamping unit; Figure 14 is a view showing a permissible position of the shutter clamping unit of Figure 13; Fig. 15 is a view explaining the shaft clamping unit of Fig. 13;

Figure 16 is a view showing a lock position of an axis, and Figure 17 is a view showing a lock position of a lock plate.

DETAILED DESCRIPTION OF THE INVENTION The description will now be given in detail of exemplary embodiments, with reference to the accompanying drawings. For the sake of brief description with reference to the drawings, the same or equivalent components will be provided with the same reference numerals, and the description will not be repeated.

Hereinafter, a circuit breaker having a ground member locking unit according to a preferred embodiment of the present invention will be explained in more detail with reference to the accompanying drawings.

As shown in Figures 5 and 6, the circuit breaker having a ground member locking unit according to a preferred embodiment of the present disclosure comprises a housing 110 having busbar terminals 116 and load terminals 117, a circuit breaker body 120 accommodated in the housing 110 so as to be slidably movable, and connected to and disconnected from the busbar terminals 116 and load terminals 117, a ground member 126 configured to ground the load terminals 117 when the body of the circuit breaker 120 is in a test position, a ground limb driving unit 130 configured to drive ground limb 126 to a ground position and a non-ground position, and a ground limb locking unit 180 configured to secure the grounding unit. ground member 130 to ground or non-ground position. The housing 110 may be formed in a rectangular parallelepiped shape, and may have an accommodation space therein.

On a rear surface of the housing 110, a plurality of terminals 115 may be provided connected to a collecting bar and a load (circuit). Terminals 115 may be configured in correspondence with a plurality of phases (R, S, T, etc.). In this embodiment, the busbar terminals 116 and load terminals 117 may be implemented in three, respectively, in correspondence with the three phases.

The busbar terminals 116 and load terminals 117 may be spaced from each other by a predetermined distance up and down.

Terminals 115 may be formed on one side of the busbar and one loading side according to each phase.

For example, three upper terminals may be busbar terminals 116 connected to a busbar, and three lower terminals may be load terminals 117 connected to a load.

Each charging terminal 117 may be provided with a grounding conductor 125 for grounding. One side of ground conductor 125 may be connected to charging terminal 117, and another side thereof may be extended downward.

On a rear side of the housing 110, a ground device or a ground member 126 (hereinafter referred to as 'ground member' 126) may be provided for grounding of the load terminals 117. The ground member 126 may be implemented in a plurality corresponding to a plurality of phases. Ground member 126 may be configured to be connected and disconnected from ground conductor 125 of charge terminal 117. The plurality of ground members 126 may be simultaneously directed.

Each ground member 126 may be provided with a rotation axis 127. The rotation axis 127 may be rotatably coupled to the housing 110. In this configuration, the ground member 126 may simultaneously rotate up and down about the rotation axis 127 per rotation. of the axis of rotation 127.

Each ground member 126 may be configured to rotate between a ground position where ground member 126 rotates up to be connected to ground conductor 125, and a non-ground position where ground member 126 rotates down to be disconnected from ground conductor 125. .

Each ground member 126 may be implemented as a pair of facing ground members in a state that ground conductor 125 is disposed therebetween.

On a rotation axis of the ground member 126, a contact spring 128 may be provided configured to apply an elastic force to the ground member 126 so that the ground member 126 may rotate in one direction for contact with the ground conductor 125. The spring contact 128 may be implemented as a compression coil spring. The contact spring 128 may be configured to apply a tensile force to the ground member 126 even after the ground member 126 has contacted the ground conductor 125. In this configuration, each ground member 126 may electrically contact the grounding member. ground conductor 125 with a predetermined contact pressure.

Below the rotation axis of the ground member 126, a stopper 129 may be provided by contacting the ground member 126 when the ground member 126 rotates downward. The stopper 129 may be configured as an attenuation material (member). When ground member 126 rotates downwardly, cork 129 may restrict rotation of ground member 126 and a contact impact. The circuit breaker body 120 may be formed in a rectangular parallelepiped shape, and a handling unit 122 for inputting a manipulation signal may be provided on a front surface of the circuit breaker body 120.

On a rear surface of the circuit breaker body 120, terminal connection portions (not shown) may be provided connected to the busbar terminals 116 and load terminals 117, respectively. For example, the terminal connection parts may include a busbar terminal connection part connected to the busbar terminals 116, and a load terminal connection part to the load terminals 117.

In a lower region of the breaker body 120, a carriage 124 may be provided configured to slidably move the breaker body 120 in forward and rearward directions of the housing 110. The carriage 124 may be provided with wheels (not shown). for smooth movements. The circuit breaker body 120 may be configured to be movable back and forth between an operating position where a current and voltage are supplied as the terminal connection parts are connected to the busbar terminals 116 and the terminals. 117, and a test position where the terminal connection parts are separated from the terminals and only one test operation is performed to test whether the movable contact, etc., are normally operated.

In a lower region of housing 110, a ground member conducting unit 130 may be provided configured to conduct ground member 126 between a ground position where ground member 126 is connected to ground conductor 125, and a non-ground position where ground member 126 is disconnected from conductor 125.

As shown in Figures 7 and 8, the ground member driving unit 130 may include an axis 141 configured to be rotatable, and a power transmission unit 150 disposed between the axis 141 and ground member 126, and configured to transmit a driving force of the shaft 141 to the ground member 126. The shaft 141 may be arranged in front and rear directions of the housing 110, and may be rotatably supported by a frame. The ground member driving unit 130 may further include a frame 131 configured to rotatably support the shaft 141. The housing 110 may be provided with a housing portion 118 configured to accommodate the ground member driving unit 130 therein. As shown 5, the housing portion 118 may be penetrated forward and backwardly into a lower region of the housing 110. The frame 131 may be provided with a front plate 132 exposed to a front surface of the housing 110. In a On the side of the frame 131, a lever 165 may be arranged that operates with the shaft 41 and forms part of a locking device that restricts the body of the circuit breaker 120.

As shown in Figure 6, the power transmission unit 150 may include a first arm 151 disposed at the end (the rear end) of the shaft 141, a second arm 153 coupled to the rotational axis of the ground member 126, and a link 155 having one end attached to the first arm 151 and another end attached to the second arm 153. The front end of the shaft 141 may be disposed on an inner side of the housing 110. Substantially the front end of the shaft 141 may be disposed on an inner side front plate 132 of frame 131.

An identifier 145 for rotating the spindle 141 may be coupled to the front end of the spindle 141, and an engaging portion of the identifier 142 may be formed at the front end of the spindle 141. The identifier 145 may be provided with an insertion spindle portion 146 configured to insert axis 141 at a predetermined depth. The insert portion of the handle 146 may be formed to be inwardly concave in one direction of the axis. An inner surface of the insertion shaft part 146 may be formed in correspondence with an outer surface of the shaft 141. A protrusion 147 may protrude from an outer surface of the shaft insertion part 146 in a radial direction. The protrusions of the identifier 145 are inserted into notch recesses 137a and 137b of an identifier insertion opening 135 to be explained later. In this configuration, the tag 135 may be inserted at an exact position of the tag insertion opening 135. The tag engaging portion 142 and the shaft insert portion 146 may have a polygonal sectional surface. In this configuration, the handle engaging portion 142 and shaft insert portion 146 may be rotated integrally by being restricted to a direction of rotation when they are to be coupled together. The insertion opening of the identifier 135 through which the identifier 145 is inserted to a predetermined depth may be formed in the faceplate 132. The insertion opening of the identifier 135 may be penetrably formed in the faceplate 132, and may be formed in an approximate circular shape. The insert opening of handle 135 may be provided with notch recesses 136 in correspondence with a ground position and a non-ground position of shaft 141. Notch recesses 136 may be extended outward in a radial direction. For example, the recess recesses 136 may be formed on top and bottom of the insert insert opening 135. In this embodiment, the recess insert 137A indicating a non-ground position is formed on an upper side of the insert insert opening 135, and the notch recess 137b indicating a ground position is formed on a lower side of the handle insert opening 135.

As shown in FIGS. 9 and 10, a shutter 160 configured to open or close the insert insert opening 135 may be provided on one side (rear surface) of the insert insert opening 135. The shutter 160 may be provided with a shaft Shutter 160 may be configured to open or close the insertion opening of handle 135 by rotation about rotation axis 161. Shutter 160 may rotate between a locking position to lock the insertion opening of the handle. handle 135 (see Fig. 9), and an opening position for opening the insert opening of handle 135 (see Figure 10). The axis of rotation 161 of shutter 160 may be arranged forward and backward. The rotation axis 161 of the shutter 160 may be spaced on one side of the axis 141 for a predetermined distance, and may be arranged in parallel with the axis 141. The rotation axis 161 of the shutter 160 may be provided with a lever 165 extended at a radial direction. The lever 165 may be formed in bar form. One end of lever 165 may be extended in a right angled direction when coupled to the end of the pivot axis. In this configuration, as lever 165 rotates, the rotation axis 161 of shutter 160 can be easily rotated.

As shown in Fig. 9, lever 165 may be arranged in a lock position for the handle insert opening 135 when shutter 160 is in a lock position.

As shown in Fig. 10, lever 165 may be tilted upwardly to the right side of handle insert opening 135 when shutter 160 is in an open position. The shaft 141 may be provided with a disk member 171 having a size larger than the shaft 141 in a radial direction. The disk member 171 may rotate integrally with the shaft 141. Disk member 171 may be arranged on a rear side. of a shutter rotation plane 160. This may allow the shutter 160 to rotate smoothly without contacting the disc member 171. The disc member 171 may be provided with a protrusion 173 protruding in the radius direction.

On one side of the disc member 171, a contact part 175 may be provided by contacting one side of the protrusion 173 in a direction of rotation, and configured to restrict rotation of the protrusion 173. The protrusion 173 and the contact part 175 they may be arranged in positions to prevent shaft 141 from rotating to a ground position from rotation any longer. For example, the contact portion 175 may be formed into an approximate triangular shape, and the hypotenuse (oblique side) of the triangle may contact protrusion 173. In this configuration, disc member 171 (or axis 141) may be formed. rotate back and forth by about 180. Disk member 171 may be provided with a rotation restriction portion 177 configured to restrict rotation of shutter 160 by contacting shutter 160. Rotation restriction portion 177 may be provided. protruding in one direction of the shaft. For example, the rotation restraining part 177 may be implemented as a plurality of protrusions or protrusions protruding from the shutter edge 160. The rotation restraining part 177 may be formed in a spaced position of the protrusion 173 by a predetermined angle in one direction of rotation. For example, the rotation restraining portion 177 and the protrusion 173 may be spaced from each other by 180 °, the rotation angle (span) of the axis 141 between a ground position and a non-ground position. The rotation restraining portion 177 may be configured to contact a shutter side portion 160 when the shutter 160 is disposed in a lock position for the insertion opening of the handle 135. Accordingly, the shutter 160 may be prevented from closing. rotate longer from the lock position.

As shown in Figures 11 and 12, ground member locking unit 180 may include a shutter clamping unit 181 configured to lock shutter 160 in a state that handle insertion opening 135 has been locked by shutter 160. This may prevent rotating shaft 141 through handle 145 through handle opening lock lock 135, thereby allowing ground member 126 to be eliminated in a non-ground position. The ground member locking unit 180 may further include a shaft locking unit 201 disposed at the end of the shaft 141 when the ground member 126 is in a ground position, and configured to lock the shaft 141 to the ground position, preventing the handle 145 from approaching axis 141. This may prevent ground member 126 from abruptly turning to a non-ground position from a ground position.

As shown in Figure 12, shutter clamping unit 181 may include a lock protrusion 183 formed on the rotation axis 161 of shutter 160, and a clamping piece 185 configured to prevent rotation of the lock protrusion 183 by contacting the protrusion. 183, and configured to allow rotation of the locking protrusion 183 as it is separated from the locking protrusion 183. The locking protrusion 183 projecting in a radial direction can be formed on the rotation axis 161 of the shutter 160. The locking protrusion 183 may be implemented as a pin having a circular sectional surface. The locking protrusion 183 may be upwardly protruding in a state that the insertion opening of the handle 135 has been blocked by the shutter 160. The fastener 185 may be provided with a pivot axis 187, and may be rotatable about the pivot axis. 187. The rotary axis 187 of the fastener 185 may be arranged in parallel with the rotational axis 161 of the shutter 160. The rotational axis 187 of the fastener 185 may be upwardly spaced from the rotational axis 161 of the shutter 160. by a predetermined distance. The fastener 185 may be formed to have an L 'shaped section protruding from the axis of rotation 187 in a radial direction and then bent backwards. clamping 185 may be provided with a shaft hole for inserting the rotation shaft 187 therein. The fastener 185 may rotate between a fastening position to secure the rotating axis 161 by contacting the locking protrusion 183 and thereby restricting the rotation of the locking protrusion 183 and a permissible position to allow rotation of the locking axis. rotation 161 of shutter 160, being spaced from lock protrusion 183 in a radial direction.

As shown in Fig. 11, the shutter clamping unit 181 may include a lock 191 disposed at the end of the rotation axis 187 of the fastener 185, and a key 195 wrapped with the lock 191 to rotate the rotation axis 187. In this configuration, the pivot shaft 187 of the fastener 185 may be prevented from turning abruptly due to a user's lack of care, and so on. The key 191 may be provided on an outer surface of the front plate 132. The key 191 of the shutter clamping unit 181 may be provided with a key recess 193, and the key recess 193 may be provided with a protrusion recess 194 for the recess. inserting a key protrusion 195. The protrusion recess 194 may be positioned in correspondence with the axis of rotation 187. The shaft clamping unit 201 may be disposed below the clamping unit plug 181.

As shown in Figure 12, the axle clamping unit 201 may include a pivot axis 207, and a locking plate 205 rotatable about the pivot axis 207. Here, the locking plate 205 is rotatable between a locking position for contacting the shaft end 141, and a permissible position to be separated from the shaft end 141. The rotation of the shaft 207 may be arranged in parallel with the shaft 141. The locking plate 205 may include a portion of the plate 206 disposed between the end of the shaft 141 and the insertion opening of the handle 135, and a connection part 208 extending from one side of the plate part 206 and connected to the rotation axis 207. Here, the connection part 208 It has a narrower width than that of the plate part 206. An axis hole for the insertion of the rotation axis 207 can be penetratedly formed in the connection part 208. The connection part 208 can be bent in one direction of the thick frog.

In the allowable position, the locking plate 205 may be spaced downwardly from the disc member 171, so that a side portion thereof may contact a surface of the frame 131, to prevent interference when the locking member disc 171 spins.

Alternatively, the locking plate 205 may be configured to be tilted down to the right, or to be almost vertically arranged in the allowable position.

Alternatively, the locking plate 205 may be configured such that the connecting portion 208 thereof may be arranged almost horizontally in the locking position. As shown in Figure 12, the locking plate 205 may be prevented from rotating to the locking position. locking contact by the rotation restraining portion 177 when the shaft 141 is in a non-ground position. As shown in Figure 11, the shaft clamping unit 201 may include a lock 211 disposed at the end of the rotation shaft 207 of the plate. 205, and a key 215 engaged with the lock 211 to rotate the axis of rotation 207. In this configuration, the lock plate 205 may be prevented from abrupt and undesirable rotation from the lock position to the allowable position. The lock 211 of the shaft clamping unit 201 may be provided with a key recess 213, and the key recess 213 may be provided with a protrusion recess 214 for insertion of a protrusion 216 of key 215. Protrusion recess 214 may be positioned in correspondence with shaft rotation 207.

As shown in Figure 11, an indication unit 221 configured to display visual information may be provided on the front plate 132. The indication unit 221 may include a sheet 223, and a display 225 configured to display, on sheet 223, the information on the display. character form 226a, arrows 226B and / or figures 226c, etc. The sheet 223 may be provided from an adhesive to be adhered to the surface of the front plate 132. The sheet 223 may have through holes in correspondence with the rotation axis 161 of the shutter 160, the locking unit 191 181, lock 211 of clamping unit 201, etc.

For example, characters 226a may include "LOCK", "UNLOCK", "OPEN", "CLOSE", "EARTH", etc.

Arrows 226B may be configured to have lengths and positions corresponding to the rotation angle ranges. Figures 226c may include pictograms indicating grounding.

In a state that the circuit breaker body 120 is in a test position, the ground member 126 may be rotated to a ground position by first checking the position of the key recess 193 (substantially the protrusion recess 194) of the lock. 191 of the shutter clamping unit 181 and then checking the position of the rotation axis 187 of the clamping piece 185.

As shown in Figure 13, if the pivot axis 187 is in a fixed position, key 195 is inserted into key recess 193 to be turned counterclockwise. Once the key 195 is turned, the fastener 185 is turned to an allowable position as shown in Figure 14. This may allow the shutter 160 to rotate to an open position.

Once the pivot axis 187 is in the allowable position, lever 165 is rotated to the open position. As a result, shutter 160 is rotated upwardly in the open position and the insert opening of handle 135 is open as shown in Figure 15.

Since handle 145 inserted into handle insert opening 135 is rotated clockwise, axis 141 is rotated to a ground position, as shown in Figure 16. Once axis 141 is rotated, first arm 151, link 155 and second arm 153 of shaft 141 work with each other. As a result, the axis of rotation 127 of the ground member 126 is rotated. At the same time, ground member 126 is pivoted upwards to be connected to ground conductor 125. Therefore, charging terminals 117 are in ground state. In order to maintain the ground state of ground member 126, key 215 is inserted into the recess of key 213 of lock 211 of shaft clamping unit 201, and then key 215 is turned to a lock position (counterclockwise). ). Once the key 215 is turned, the locking plate 205 and the rotating shaft 207 simultaneously rotate and lock the plate 205 which is arranged in the locking position as shown in figure 17. In this configuration, the identifier 145 is prevented from being inserted into the insertion opening of handle 135. This may prevent axis 141 from turning abruptly and undesirably to a non-ground position. In order to rotate the ground member 126 to a non-ground position, the key 215 is engaged with the lock 211 of the shaft clamping unit 201, and then rotated to a permissible position. As a result, the locking plate 205 pivots downward along with the rotation of the spindle 207, thereby being disposed of in the permissible position as shown in figure 16. Then the handle 145 is inserted into the handle opening of handle 135, and is rotated to a non-ground position. As a result, as shown in Figure 15, axis 141 is rotated to a non-ground position. Once the axis 141 is rotated, the rotational axis 127 of the ground member 126 is rotated by the operation of the transmission power unit components 150. Accordingly, the ground member 126 is separated from the ground conductor 125 to be disposed on. a non-ground position. Then, identifier 145 is separated from the insertion opening of identifier 135. In order to secure the ground member 126 to a non-ground position, lever 165 is rotated to a lock position so that shutter 160 can lock the handle insert opening 135 as shown in figure 14. Next, key 195 is inserted into lock 191 of shutter clamping unit 181 to be turned. As a result, the rotation axis 187 of the fastener 185 is rotated to a fastening position. Therefore, as shown in Figure 13, the fastener 185 is rotated to the fastening position, and comes in contact with the locking protrusion 183 of the rotation axis 161 of the shutter 160, thereby preventing rotation of the locking protrusion 183. This may prevent the shutter 160 from rotating to an open direction. The present invention may have the following advantages.

Firstly, due to the ground member locking unit for securing the ground member to a ground position or a non-ground position, the ground member may be prevented from being undesirably closed or opened. Even if the locking device has a malfunction or malfunction, the ground member can be prevented from being abruptly closed. This can improve on a safety feature.

Secondly, due to the shutter clamping unit for shutter clamping when the ground member is in a non-ground position, the ground member may be prevented from abruptly rotating to a closed position.

Third, due to the shaft clamping unit for shaft clamping when the ground member is in a ground position, the ground member can be prevented from abruptly turning to a non-ground position.

The foregoing embodiments and advantages are merely exemplary and are not to be construed as limiting the present invention. The teachings of the present invention may be readily applied to other types of apparatus. This description is intended to be illustrative rather than to limit the scope of the claims. Many alternatives, modifications and variations will be apparent to those skilled in the art. The features, structures, methods, and other features of the exemplary embodiments described herein may be combined in various ways to obtain additional and / or alternative exemplary embodiments. As the features of the present invention may be incorporated into various forms without departing from its features, it should also be understood that the above described embodiments are not limited by any of the details of the foregoing description, unless otherwise specified, but shall be construed broadly within its scope as defined in the appended claims, and therefore any changes and modifications falling within the limits of the goals and claims, or equivalents of such goals and limits are therefore intended to be embraced by the appended claims.

Claims (13)

1. Circuit breaker having an earth limb blocking unit, CHARACTERIZED by the fact that the circuit breaker comprises; a housing having busbar terminals and load terminals; a circuit-breaker body accommodated in the housing so as to be slidably movable and connected to and disconnected from the busbar terminals and load terminals; a ground member configured to ground at the load terminals when the circuit breaker body is in a test position; a ground limb driving unit configured to drive the ground limb to a ground position and a non-ground position, and a ground limb locking unit configured to secure the ground limb driving unit to the ground position or position not land. Circuit breaker having an earth member locking unit according to claim 1, characterized in that the earth member driving unit comprises: an axis configured to be rotatable, and a power transmission unit arranged between the shaft and the ground member, and configured to transmit a driving force from the shaft to the ground member. Circuit breaker having an earth member locking unit according to claim 2, characterized in that the handle insert opening through which an handle is inserted to be coupled to an end portion of the shaft is provided on one side of the axis, and where a shutter configured to open or close the handle insert opening is provided in the handle insert opening. Circuit breaker having a ground limb locking unit according to claim 3, characterized in that the shutter has a rotational axis and is configured to open or close the rotary handle insertion opening in rotation. around the axis of rotation. Circuit breaker having a ground limb locking unit according to claim 4, characterized in that the ground limb locking unit comprises a shutter clamping unit configured to secure the shutter in a state which is a handle insertion opening is blocked by the shutter. Circuit breaker having an earth member locking unit according to claim 4, characterized in that an end portion of the rotational axis is exposed outside the housing, and a lever is provided at the end portion. exposed axis of rotation. Circuit breaker having an earth member locking unit according to claim 5, characterized in that the shutter clamping unit comprises: a locking protrusion formed on the rotation axis, and a configured clamping piece to prevent rotation of the lock protrusion, in contact with the lock protrusion, and configured to allow the lock protrusion rotation to be separated from the lock protrusion. Circuit breaker having a ground member locking unit according to claim 7, characterized in that the fastener has a rotational axis disposed in parallel with the rotational axis, and is rotatable around the axis of rotation. Circuit breaker having an earth member locking unit according to claim 8, characterized in that the shutter clamping unit further comprises: a lock disposed at an end portion of the rotation axis; and a key engaged with the lock to rotate the axis of rotation. Circuit breaker having a ground limb locking unit according to one of claims 2 to 9, characterized in that the ground limb locking unit further comprises a shaft locking unit disposed at an end portion. of the shaft when the ground member is in a ground position, and configured to secure the shaft to the ground position, preventing the handle from approaching the shaft. Circuit breaker having an earth member locking unit according to claim 10, characterized in that the shaft clamping unit comprises: a rotation axis disposed in parallel with the axis; and a locking plate formed to be rotatable about the axis of rotation, and to be rotatable between a locking position to contact the end portion of the shaft, and a permissible position to be separated from the end portion of the axis. axis. Circuit breaker having an earth member locking unit according to claim 11, characterized in that the shaft clamping unit comprises: a lock disposed at an end portion of the rotating shaft; and a key engaged with the lock to rotate the pivot axis. Circuit breaker having an earth member locking unit according to claim 11, characterized in that the shaft has a rotation restriction unit configured to restrict the shutter rotation by contacting the shutter, and where the plate Locking is prevented from rotating by contacting the rotation restraint unit when the shaft is in a non-ground position.