JP2007287582A - Wiring circuit breaker - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wiring circuit breaker facilitating an insulation resistance measuring test or the like even in a state of being installed in a distribution board or the like and easily opening/closing an opening for the test. <P>SOLUTION: A front face of the wiring circuit breaker 1 is provided with terminals L1-L3 functioning as quick connection terminals, and insertion holes 16 that can insert measuring terminals of various measuring instruments are opened on the lower side of the respective terminals L1-L3. An insertion hole cover 8 formed of synthetic resin into vertically long rectangular thin plate shape and provided with three oblong holes 21 bored in the center at intervals corresponding to the terminals L1-L3 and sized to simultaneously expose a set of vertically connected terminals L1-L3 and the insertion holes 16, is installed to be slidable on the front face of the wiring circuit breaker 1. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a circuit breaker for wiring installed in a distribution board, for example.

  Conventionally, there is a circuit breaker for wiring in which a connection portion between a load side terminal and a load wiring is covered with a cover member. In such a circuit breaker for wiring, for example, when performing an insulation resistance measurement test, the cover member is capable of performing the insulation resistance measurement test without removing the cover member while the load wiring is connected to the load side terminal. In addition to opening an opening into which a measuring terminal such as a measuring instrument can be inserted, a door member is installed in the opening (Patent Document 1).

Japanese Patent Laid-Open No. 7-50127

Here, the opening described in Patent Document 1 is an opening for allowing the measurement terminal to be in direct contact with the connection portion between the load-side terminal and the load wiring, and the state of the connection portion is as follows. It is provided for easy visual recognition. Therefore, in the circuit breaker case (including the cover member), the surface perpendicular to the insertion surface of the load wiring to the circuit breaker case (in Patent Document 1, the front surface of the circuit breaker case that is the insertion surface of the load wiring, An opening is provided in the upper surface of the circuit breaker case.
On the other hand, recently, in order to meet the demand for miniaturization of the circuit breaker for wiring, a circuit breaker for wiring is proposed in which the arrangement of the load side terminals on the front surface of the circuit breaker case is in the vertical direction. In such a circuit breaker, when an opening as described in Patent Document 1 is provided, either the left or right side surface of the circuit breaker case (perpendicular to the insertion surface of the load wiring to the circuit breaker case) The opening and the door member are provided on the surface.

  However, if an opening and a door member are provided on either the left or right side of the circuit breaker case, for example, if you want to perform an insulation resistance measurement test with a circuit breaker installed in the distribution board The circuit breaker installed adjacent to both the left and right sides becomes an obstacle, and the door member cannot be opened, and the above test cannot be performed. Therefore, in order to perform the above test, the circuit breakers for wiring must be removed one by one, which is very inconvenient.

  Therefore, the present invention is capable of easily performing an insulation resistance measurement test or the like even in an installation state in a distribution board or the like, and for wiring that can easily open and close the opening for the test. It is intended to provide a circuit breaker.

In order to achieve the above object, the invention according to claim 1 of the present invention comprises an operation lever for opening and closing an electric circuit on the upper surface of the circuit breaker case, a power supply side terminal on the back surface, and a load side terminal on the front surface. Each circuit breaker can be used for a single-phase three-wire circuit, and the load-side terminal is composed of a fast-connection terminal, and on the same side as the fast-connection terminal, Insertion holes for bringing the measuring terminals of various instruments into contact with the connection portions are opened corresponding to the respective quick connection terminals, and a cover member for opening and closing the insertion holes is provided on the surface side with the above-mentioned difference. It is characterized in that it is slidably installed between an open position for opening the insertion hole and a closing position for closing the insertion hole. The term “contact” as used herein includes not only physical contact to the connection portion of the measurement terminal but also electrical contact.
According to a second aspect of the present invention, in the first aspect of the invention, the cover member is provided with an opening that can simultaneously expose a set of quick connection terminals and insertion holes according to each of the sets. The quick connection terminal and the insertion hole are both slidable between an open position where the quick connection terminal and the insertion hole are exposed in the opening, and a closed position where only the quick connection terminal is exposed in the opening and the insertion hole is closed. It is characterized by having been installed in.
According to a third aspect of the present invention, in the first or second aspect of the present invention, the cover member is provided with a holding portion for holding the open position and / or the closed position.

According to the present invention, the load side terminal is composed of a quick connection terminal, and on the same surface side as the quick connection terminal, there is an insertion hole for bringing the measurement terminal of various instruments into contact with the connection portion of each fast connection terminal. It is established for each fast connection terminal. Therefore, an insulation resistance measurement test, etc. can be performed from the front side of the circuit breaker, and even if the circuit breaker is in the installed state in the distribution board, etc., the adjacent circuit breaker is not disturbed The above test can be carried out.
Further, the cover member for opening and closing the insertion hole is formed between the open position for opening the insertion hole and the closing position for closing the insertion hole on the surface side where the quick connection terminal and the insertion hole are provided. Is slidable. Therefore, when an insulation resistance measurement test or the like is not performed, the insertion hole can be closed by the cover member, preventing erroneous connection of the load wiring to the insertion hole and preventing dust from entering the insertion hole. Etc. can be prevented.
According to the second aspect of the present invention, the cover member is provided with an opening that can expose the set of quick connection terminals and the insertion hole at the same time for each set. Therefore, an insulation resistance measurement test or the like can be performed (that is, the cover member is slid from the closed position to the open position) while the load wiring is inserted and connected to each fast connection terminal, which is easy to use. Furthermore, since all the insertion holes can be opened and closed at the same time, the workability is enhanced as compared with the case where each insertion hole is provided with an opening / closing mechanism.
In addition, according to the third aspect of the present invention, the cover member is provided with the holding portion for holding the position in the open position and / or the closed position. Therefore, the position of the cover member is not easily shifted while the insulation resistance measurement test is being performed or installed in the distribution board, and the usability is very good.

Hereinafter, a circuit breaker for wiring (hereinafter simply referred to as a circuit breaker) according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective explanatory view showing an appearance of the circuit breaker 1 according to the present embodiment, and FIG. 2 is an explanatory view of the circuit breaker 1 as viewed from the front side. FIG. 3 is a perspective explanatory view showing the inside of the circuit breaker 1, and FIG. 4 is a cross-sectional explanatory view of the circuit breaker 1 in a state where the load wiring 13 is connected to the load side terminal 3. In addition, the load side terminal 3 side of the circuit breaker 1 is demonstrated as the front side of the circuit breaker 1. FIG.

  The circuit breaker 1 is provided with an operation lever 10 at the approximate center of the upper surface of the case body 4 formed by assembling a pair of left and right cases made of synthetic resin, and the operation lever 10 is operated to rotate in the front-rear direction. By doing so, a shut-off mechanism (not shown) incorporated in the case body 4 is operated, and a power supply side terminal 2 and a load side terminal 3 to be described later are connected / released. Note that an overcurrent detection mechanism (not shown) is provided in the case body 4, and when the overcurrent is detected, the interruption mechanism opens.

  Further, on the rear surface of the circuit breaker 1, there is formed a power supply side terminal 2 provided with plug-in terminals P1, P2, and P3 in a line in the vertical direction. Each of the terminals P1 to P3 is formed by cutting out the case body 4 in a U-shape penetrating in the left-right direction, and a conductor bar (not shown) that is a power supply line disposed in a distribution board or the like A branch bar (not shown) branched from the conductor bar can be easily inserted and connected.

  On the other hand, the front surface of the circuit breaker 1 is formed on an inclined surface that is inclined so as to face obliquely upward. On the inclined surface, as shown in FIG. 4, three load wirings 13 can be inserted and connected. A load side terminal 3 including terminals L1, L2, and L3 is provided (the terminal L1 is shown in FIG. 8). The three terminals L1, L2, and L3 are arranged in a line in the vertical direction on the inclined surface, and the load side terminal 3 is formed on a straight line in plan view including the operation lever 10 and the power source side terminal 2. Moreover, each terminal L1-L3 is provided with the electric wire insertion space (connection part) 11 provided toward the inside of the case main body 4 orthogonal to an inclined surface. In the electric wire insertion space 11, a quick connection terminal fitting (connecting portion) 15 that contacts the inserted load wiring 13 is installed, and each of the terminals L1 to L3 functions as a quick connection terminal. And the power supply side terminal 2 and the load side terminal 3 are comprised so that corresponding terminals may be connected, respectively.

  Further, below each of the terminals L1 to L3, there are provided insertion holes 16 into which measurement terminals of various instruments for performing, for example, an insulation resistance measurement test can be inserted. In each insertion hole 16, terminal fittings 17 that are in contact with the quick-connecting terminal fittings 15 of the terminals L 1, L 2, and L 3 located immediately above are installed, and measurement terminals of various instruments are connected from the insertion holes 16. By inserting and contacting the terminal fitting 17, an insulation resistance measurement test or the like can be performed.

  Further, on the front surface of the circuit breaker 1, support walls 5 and 5 are erected along the left and right edges along the inclined direction and in a direction perpendicular to the inclined surface. Engaging grooves (not shown) are provided in the upper and lower inner surfaces of the supporting walls 5 and 5 along the inclined direction. The lower engaging grooves have insertion hole covers (cover members) as shown in FIG. 8), terminal covers 6 as shown in FIG. 6 are slidably supported in the inclined directions in the upper engaging grooves. Further, at a predetermined position of the support walls 5, 5, as described later, a covering portion 7 that covers the display portions 33 a, 33 b of the terminal cover 6 is between the support walls 5, 5 so as to cover a part of the inclined surface. It is erected. In addition, the upper end part and lower end part between the support walls 5 and 5 are obstruct | occluded in the case main body 4 assembly state.

Here, the insertion hole cover 8 and the terminal cover 6 will be described with reference to FIGS. FIG. 5 is a perspective explanatory view showing the appearance of the insertion hole cover 8, and FIG. 6 is a perspective explanatory view showing the appearance of the terminal cover 6.
The insertion hole cover 8 is formed by forming a synthetic resin in a rectangular thin plate shape that is long in the vertical direction, and long holes (openings) 21, 21. Three holes are formed at intervals corresponding to ~ L3. Each of the long holes 21 has a size that can expose a pair of terminals L1 to L3 and the insertion hole 16 that are connected vertically on the inclined surface. Further, locking portions (holding portions) 22 and 22 formed integrally in the outer left and right edges of the insertion hole cover 8 are formed integrally. Then, by locking the locking portions 22 and 22 to locking recesses provided at predetermined positions (two positions of the cover hole 16 and the exposed position of the insertion hole 16 as will be described later) in the lower engagement groove, The insertion hole cover 8 can be held at that position. As shown in FIG. 3, the insertion hole cover 8 is installed between the support walls 5, 5 when the case body 4 of the circuit breaker 1 is assembled. It is supposed not to escape from.

  On the other hand, the terminal cover 6 is formed by forming a synthetic resin having elasticity into a rectangular thin plate shape, and the center portion thereof is forwardly formed by engraving the upper and lower sides in a concave shape at substantially the center thereof. A protruding portion 31 having a protruding shape is integrally provided. Further, an arm-shaped elastic locking piece 32 is provided on the right edge of the terminal cover 6 by providing an L-shaped cut. The distal end portion of the elastic locking piece 32 is a bulging portion that bulges to the right side, and the bulging portion is blocked at a predetermined position of the upper engaging groove (blocking of the terminals L1 to L3 as described later). The terminal cover 6 can be held at that position by engaging with the locking recesses provided at a plurality of positions). Furthermore, display portions 33a and 33b on which display indicating 100V output or 200V output is provided are provided on the upper and lower portions of the terminal cover 6. Similarly to the insertion hole cover 8, the terminal cover 6 is also installed so as not to escape from between the support walls 5 and 5 after the case body 4 is assembled.

  In the circuit breaker 1 as described above, the output voltage is switched as follows. The power supply side terminal 2 has an upper terminal P1 as a neutral connection terminal and lower two terminals P2 and P3 as voltage terminals, while the load side terminal 3 has a central terminal L2 as a neutral wire connection terminal. When the load wirings 13 and 13 are connected to the third terminal L1-L2 or the terminal L2-L3, an output of 100 V can be obtained. Therefore, when it is desired to obtain an output of 100 V, if the terminal L1 or the terminal L3 is closed by the terminal cover 6, incorrect connection can be prevented. Therefore, as shown in FIG. 1, if the terminal cover 6 is positioned at a position covering the terminal L1, the terminal L1 is closed, and the load wiring 13 cannot be connected to the terminal L1. Further, at the terminal L1 closing position, the elastic locking piece 32 is locked in the locking recess in the upper engaging groove, and the terminal cover 6 is held at the terminal L1 closing position. Furthermore, at the terminal L1 closing position, the display portion 33b provided at the lower portion of the terminal cover 6 is covered with the covering portion 7, and only the display portion 33a indicated as 100V is visible to the operator. It has become. If it is desired to obtain an output of 100 V, the terminal L3 may be closed as described above. Therefore, the terminal cover 6 may be slid to the lowest end of the front surface of the circuit breaker and may be positioned at the terminal L3 closing position where the terminal L3 is closed. Even in the terminal L3 closed position, the elastic locking piece 32 is locked in the locking recess, and the terminal cover 6 is held at the terminal L3 closed position. Moreover, the display part 33b is covered with the lower end edge of the support walls 5 and 5, and only the display part 33a is visible.

On the other hand, when the load wirings 13 and 13 are connected between the terminals L1 and L3, an output of 200 V can be obtained. Accordingly, when it is desired to obtain an output of 200 V, erroneous connection can be prevented by closing the terminal L2 with the terminal cover 6. Therefore, as shown in FIG. 8, if the terminal cover 6 is slid in the upper engagement groove from the terminal L1 closed position to the terminal L2 closed position covering the terminal L2, the terminal L2 is closed and the load wiring to the terminal L2 13 connections are impossible. When the terminal cover 6 is slid, if a fingertip or the like is applied to the protruding portion 31 of the terminal cover 6 and the terminal cover 6 is pushed downward, the locking between the elastic locking piece 32 and the locking recess is released. The terminal cover 6 can be slidable.
Further, even at the terminal L2 closed position, the elastic locking piece 32 is locked in the locking recess in the upper engagement groove, and the terminal cover 6 is held at the terminal L2 closed position. In addition, at the terminal L2 closing position, the display portion 33a provided on the upper portion of the terminal cover 6 is covered with the covering portion 7, and only the display portion 33b indicated as 200V is visible to the operator. It has become.

Moreover, when it is desired to perform an insulation resistance measurement test or the like in the circuit breaker 1, it can be performed as follows.
Usually, as shown in FIG. 1, the insertion hole cover 8 closes the insertion hole 16 by covering the insertion hole 16, and exposes only the terminals L1 to L3 from the long holes 21, 21,. It is located at the position (closed position). At the cover position, the locking portions 22 and 22 of the insertion hole cover 8 are locked in the locking recesses in the lower engagement groove, and the insertion hole cover 8 is held at the cover position. . Further, in this state, since the terminals L1 to L3 are exposed from the long holes 21, 21,..., The load wiring 13 can be freely connected to the terminals L1 to L3.

Here, when it is desired to perform an insulation resistance measurement test, the insertion hole cover 8 is exposed from the cover position to an exposed position (open position) where the insertion holes 16 are exposed in the long holes 21 as shown in FIG. ) To slide upward in the lower engaging groove. When the insertion hole cover 8 is slid, if the insertion hole cover 8 is pushed upward by a fingertip or the like, the engagement between the engagement portions 22 and 22 and the engagement recess is released, and the insertion hole cover is released. 8 can be slidable.
And in the exposure position, since the insertion hole 16 is exposed in each long hole 21, the measurement terminal of various instruments can be inserted in this insertion hole 16, and an insulation resistance measurement test can be implemented. it can. Even in the exposed position, the locking portions 22 and 22 are locked in the locking recesses in the lower engaging groove, and the insertion hole cover 8 is held in the exposed position. Thereafter, when the insulation resistance measurement test is completed, the insertion hole cover 8 may be slid to the cover position. In addition, since each long hole 21 is formed in the size which can expose one set of terminals L1-L3 and the insertion hole 16 simultaneously, it inserts with the load wiring 13 connected to each terminal L1-L3. The above sliding operation of the hole cover 8 can be performed.

  According to the circuit breaker 1 having the above configuration, since the load side terminal 3 and the power source side terminal 2 are provided on a straight line in plan view, the width of the case body 4 can be made narrower than 16 mm. Thus, the circuit breaker 1 can be reduced in thickness and size. In addition, since the output voltage can be easily changed and determined by selecting the connection position of the load wiring 13, it is easy to balance the current of the voltage lines in the distribution board and the load wiring 13, 13. The output voltage can be confirmed simply by visually observing the connection position, and the output voltage can be easily grasped. Furthermore, since the front surface of the case body 4 is inclined obliquely upward, the state of the individual terminals L1 to L3 of the load side terminal 3 can be easily seen from above the circuit breaker 1, and the connection state can be confirmed. easy.

  Moreover, the terminal which is not used in the load side terminal 3 can be obstruct | occluded by sliding operation of the terminal cover 6 on an inclined surface. Therefore, it is possible to effectively prevent erroneous connection, and it is also possible to prevent a situation in which dust or the like enters a terminal that is not used and a problem occurs. Furthermore, since the terminal cover 6 is attached so as to be able to close a desired terminal only by a sliding operation, it is not necessary to perform a troublesome operation such as removing the terminal cover once and changing the terminal to be closed.

  Furthermore, since the terminal cover 6 is provided with the elastic locking piece 32 having the bulging portion, the terminal cover 6 is fixed by the locking between the elastic locking piece 32 and the locking recess in the upper engaging groove. The terminals L1 to L3 can be held at the closed position. Therefore, the terminal cover 6 is not easily displaced from the closed positions of the terminals L1 to L3 during the connection work of the load wiring 13, and the convenience is good. Furthermore, since the terminal cover 6 is held using the elasticity of the elastic locking pieces 32 and the locking recesses, the terminal cover 6 can be easily slid simply by applying a force in the desired direction. It can be operated and workability is very good. In addition, since the protrusion 31 is provided at the center of the terminal cover 6, further improvement in operability related to the sliding operation of the terminal cover 6 can be expected.

  Furthermore, display portions 33a and 33b showing 100V output or 200V output are provided on the upper and lower portions of the terminal cover 6, and when the terminal cover 6 is at a predetermined terminal L1 to L3 closed position, the above display is performed. A covering portion 7 that covers one of the portions 33 a and 33 b is installed at a predetermined position on the support walls 5 and 5. Therefore, when the terminal cover 6 is in the one terminal closed position, the operator displays whether the cover is not covered by the covering portion 7 indicating whether the terminal cover 6 is in a 100V output state or a 200V output state. It can be easily confirmed by visually observing the portion 33a or 33b. Therefore, erroneous connection can be prevented with certainty.

  On the other hand, under the terminals L1 to L3 on the front surface of the circuit breaker 1, there are provided insertion holes 16 into which measurement terminals of various instruments can be inserted. Terminal fittings 17 that contact the quick-connecting terminal fittings 15 of L1 to L3 are installed. Therefore, an insulation resistance measurement test or the like can be performed from the front side of the circuit breaker 1, and even if the circuit breaker 1 is in an installed state in a distribution board or the like, the adjacent circuit breaker is in the way. The above test can be carried out without any problem.

  Further, on the front surface of the circuit breaker 1, an insertion hole cover 8 having long holes 21, 21... Having a size capable of exposing the set of terminals L1 to L3 and the insertion hole 16 at the same time is provided as a terminal L1. -L3 and the insertion hole 16 are slidably attached between an exposure position where the long hole 21 is exposed and a cover position where the insertion hole 16 is closed. Therefore, when the insulation resistance measurement test or the like is not performed, the insertion holes 16, 16... Can be closed to prevent erroneous connection of the load wiring 13 to the insertion hole 16. Intrusion of dust or the like into 16 can be prevented.

  Further, each of the long holes 21 is formed in such a size that the pair of terminals L1 to L3 and the insertion hole 16 can be exposed at the same time as described above, so that the load wiring 13 is inserted and connected to each of the terminals L1 to L3. The insulation resistance measurement test or the like can be performed in the state (that is, the insertion hole cover 8 is slid from the cover position to the exposed position), which is easy to use. In addition, the insertion hole cover 8 is provided with a plurality of long holes 21, 21... According to the distance between the terminals L <b> 1 to L <b> 3 (that is, a configuration in which an opening / closing mechanism in each insertion hole 16 is integrated). Therefore, the workability is very high as compared with the one provided with the opening / closing mechanism for each insertion hole 16.

  Furthermore, since the insertion hole cover 8 is provided with the locking portions 22 and 22 that bulge outward, the insertion is performed by locking the locking portion 22 and the locking recess in the lower mating groove. The hole cover 8 can be held at the cover position and the exposed position. Therefore, the position of the insertion hole cover 8 is not easily shifted during the insulation resistance measurement test or in the state of installation in the distribution board, and the usability is very good. Furthermore, since the insertion hole cover 8 is also held by the locking portions 22 and 22 made of synthetic resin and the locking recesses, the insertion hole cover 8 can be simply applied in the direction in which it is desired to slide. 8 can be easily slid, and workability is extremely good.

  Furthermore, the terminal cover 6 and the insertion hole cover 8 are held between the support walls 5 and 5 on the front surface of the circuit breaker 1 and cannot be removed after the case body 4 is assembled. Therefore, the terminal cover 6 and the insertion hole cover 8 are not inadvertently detached, and are not lost during work. Further, since the terminal cover 6 and the insertion hole cover 8 are held without protruding from the case main body 4 (including the support walls 5 and 5), the circuit breakers 1 installed adjacent to each other in the distribution board or the like. Therefore, the terminal cover 6 and the insertion hole cover 8 do not interfere with each other, so that the installation space of the circuit breaker 1 can be further reduced, and the distribution board can be downsized. it can.

  In addition, both the terminal cover 6 and the insertion hole cover 8 are formed in a thin plate shape, and the terminal cover 6 is inserted along the upper engaging groove between the support walls 5 and 5 on the front surface of the circuit breaker 1. Since the insertion hole cover 8 can be independently slid along the lower engaging groove, it is easy to use and is more convenient than the circuit breaker having a door member for rotating operation. Compactness can be realized.

  The configuration related to the circuit breaker of the present invention is not limited to the aspect of the above embodiment, and the configuration related to the case body, the power supply side terminal, the load side terminal, the terminal cover, the insertion hole cover, and the like. As long as it does not deviate from the gist of the present invention, it can be changed as needed.

For example, in the above embodiment, the central terminals P2 and L2 are neutral poles, but there is no problem even if either one of the upper and lower terminals is a neutral pole. In addition, in each of the terminals L1 to L3 of the load side terminal, the wire insertion space is formed in a diagonally downward direction orthogonal to the inclined surface, but the wire insertion space is such that load wiring can be inserted horizontally from the front toward the rear. Alternatively, the electric wire insertion space may be formed so that the load wiring can be inserted from the top toward the bottom. Similarly, the insertion holes can be formed in various directions.
It is also possible to provide a circuit breaker capable of switching the output voltage by using two terminals on the load side and switching the input terminal position on the power source side terminal.

Furthermore, in the above embodiment, the front surface of the circuit breaker is formed on an inclined surface inclined obliquely upward, but the front surface of the circuit breaker is a vertical surface, and load wiring is provided on the vertical surface, for example, rearward. It is also possible to adopt a configuration in which a load side terminal having an electric wire insertion space to be inserted is provided.
Furthermore, although the power supply side terminal and the load side terminal are arranged on a straight line in plan view, they may be arranged slightly shifted in the left-right direction. By doing so, the thickness of the case body in the left-right width direction is increased, but the visibility of the load-side terminal can be improved. For example, the visibility from above of the three terminals L1 to L3 can be improved by shifting only the central terminal L2 in one direction left and right.

  Furthermore, in the above embodiment, “100 V” or “200 V” is described on the display portion of the terminal cover, but instead of performing such description, both the display portions are colored by different colors. It is also possible to configure it so that it can be identified. In addition, the locking mechanisms at the respective positions of the terminal cover and the insertion hole cover can be changed as appropriate, and are limited to the elastic locking pieces and the locking portions as described in the above embodiment. There is nothing. The terminal cover and the insertion hole cover are made of a softer resin than the case main body, so that an effect that the sliding and locking operations can be performed smoothly can be achieved.

It is perspective explanatory drawing which showed the external appearance of the circuit breaker which concerns on this invention. It is explanatory drawing which looked at the circuit breaker from the front side. It is perspective explanatory drawing which showed the inside of a circuit breaker. It is a section explanatory view of a circuit breaker in the state where load wiring was connected to a load side terminal. It is perspective explanatory drawing which showed the external appearance of the insertion hole cover. It is perspective explanatory drawing which showed the external appearance of the terminal cover. It is a perspective view showing the circuit breaker in a state where the insertion hole cover is located at the exposed position. It is a perspective explanatory view showing the circuit breaker in the state where the terminal cover is located at the terminal L2 closing position.

Explanation of symbols

  1 .... circuit breaker, 2 .... power supply side terminal, 3 .... load side terminal, 4 .... case body, 5 .... support wall, 6 .... terminal cover, 7 .... cover, 8, ... insertion hole Cover, 13 ... Load wiring, 15 ... Quick-connect terminal fitting, 16 ... Insert hole, 17 ... Terminal fitting, 21 ... Long hole, 22 ... Locking part, 31 ... Projection, 32 ... -Elastic locking pieces, 33a, 33b-Display part.

Claims (3)

A breaker for wiring that can be used for a single-phase three-wire circuit, with an operation lever that opens and closes the circuit on the top of the circuit breaker case, a power-side terminal on the back, and a load-side terminal on the front.
The load side terminal is composed of a quick connection terminal, and on the same surface side as the quick connection terminal, an insertion hole for bringing a measurement terminal of various instruments into contact with a connection portion in each fast connection terminal is provided for each fast connection terminal. It has been established for each,
The cover member for opening and closing the insertion hole is slidably installed between an open position for opening the insertion hole on the surface side and a closing position for closing the insertion hole. Circuit breaker for wiring.   In the cover member, an opening that can expose a set of quick connection terminals and insertion holes at the same time is established for each of the groups, and both the quick connection terminals and insertion holes are located in the opening. 2. The wiring use according to claim 1, wherein the first and second quick-connection terminals are exposed in the opening and the insertion hole is closed in a closed position. Circuit breaker.   The circuit breaker according to claim 1 or 2, wherein the cover member is provided with a holding portion for holding the position in the open position and / or the closed position.

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