JP4515890B2 - Switchboard interlock device - Google Patents

Description

The present invention relates to an interlock device for safely inspecting the cable section of a switchboard having a circuit breaker section with a door and a cable section with a door.

Distribution boards, especially high-voltage distribution boards, are connected between the bus sections that store the conductors connected to the external power supply, the cable sections that store the cables connected to the external load devices, and between these conductors and the cables. Each circuit block has a circuit breaker compartment in which the circuit breaker is housed, and each section is separated from each other by an iron plate so that it does not affect other sections when an accident occurs. Is provided. The external power supply device and the external load device may be connected to the cable and the conductive band, respectively, contrary to the above.

Next, the breaker compartment will be described. Generally, a drawer type breaker comprising a drawer frame and a breaker body is housed in the breaker compartment. The circuit breaker body of this drawer type circuit breaker has a power supply side terminal, a load side terminal, and an open / close contact provided between both terminals, and is linear between the connection position and the disconnection position in the drawer frame. It is provided so that movement is possible. And when the circuit breaker body is in the connection position, the power supply side terminal and the load side terminal of the circuit breaker body are in contact with the power supply side terminal and the load side terminal of the drawer frame, respectively. The child is disconnected. This circuit breaker is attached so that either the power supply side terminal or the load side terminal of the drawer frame protrudes from the bulkhead to the busbar section and the other protrudes from the cable section. Connected.

Next, the cable section will be described. In the cable section, a voltage generated by an external power supply device and a voltage due to residual charges that may be accumulated in an external circuit may be applied. When checking the inside of this cable section, it is necessary to keep the inside of the cable section free of voltage in order to prevent an electric shock accident. As a method for this, first, the breaker body is placed in the disconnecting position in order to prevent intrusion of voltage from the external circuit connected to the above-mentioned conductive band, and then the remaining of the external circuit connected to the cable including the above-mentioned cable is retained. What is necessary is just to provide the ground switch for discharging an electric charge to the earth. When an external power supply device is connected to the cable, it is necessary to prevent power supply from the power supply device. In other words, an interlock configuration may be adopted in which the door of the cable section is not opened unless the breaker body is moved to the disconnect position and the ground switch is turned on.

In the conventional technology of such an interlock configuration, a position switch that operates when the circuit breaker body is in the disconnecting position is provided in the circuit breaker, and an auxiliary switch that operates when the grounding switch is ON is provided. In this case, the solenoid interlock that enables opening of the cable compartment door was installed in the cable compartment.

In addition, although the safety | security when moving a circuit breaker main body to a disconnecting position is also calculated | required, an example of a structure of the circuit breaker which can ensure this safety is disclosed by Unexamined-Japanese-Patent No. 9-320408. The circuit breaker disclosed in this publication has the following configuration. In other words, this circuit breaker has the following features: 1) When the terminal of the drawer frame and the terminal of the main body are in contact with or separated from each other, the circuit breaker main body in the ON state does not generate an arc between the terminals. When moving between disconnection positions, it is always turned off prior to movement, and cannot be turned on at an intermediate position between each position. 2) To prevent electric shock due to the voltage of the external power supply, The switchboard (breaker compartment) door cannot be opened or closed unless it is in the disconnect position. 3) To prevent the occurrence of arc and electric shock, the breaker body must be closed without closing the switchboard (breaker compartment) door. Can not be moved. Further, when the ground switch is turned on, it is necessary to turn off the circuit breaker. However, in the description of the prior art in JP-A-7-241007, the circuit breaker body is moved from the connection position to the disconnection position. A structure in which the ground switch cannot be turned on is disclosed.
JP-A-9-320408 JP-A-7-241007

However, the above-described conventional electrical interlock device has anxiety that the interlock becomes invalid when the fuse of the interlock circuit is blown or when a short circuit accident occurs.
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a mechanical interlock device having a simple configuration that can safely check the inside of a cable section of a switchboard.

In order to solve the problems as described above, the invention of claim 1 includes a bus section that stores a conductive band to which any one of the external power supply device and the external load device in the electric circuit is connected, and A circuit breaker section with a door storing a drawer type circuit breaker having a terminal to which a conductive band is connected and a terminal to which a cable connected to the other of the external devices is connected; a cable; and A cable section with a door for storing a grounding switch for grounding the cable, a switch operating means for enabling ON / OFF operation of the grounding switch from the surface of the circuit breaker section, and a pull-out type circuit breaker from the surface of the circuit breaker section. In the interlock device configured between the circuit breaker section and the cable section of the switchboard having a drawer operation means that enables movement of the circuit breaker body, the circuit breaker body is in the disconnecting position, The circuit breaker compartment door interlock mechanism that allows the circuit breaker compartment door to be opened only when the ground switch is in the ON state, and prevents the circuit breaker body from moving from the disconnect position in the locked state. A circuit breaker compartment key lock mechanism that can be attached / detached only in the locked state, and a key lock mechanism that keeps the cable compartment door closed in the locked state. A breaker compartment key lock mechanism and a cable compartment key lock mechanism that can be used only for the two key lock mechanisms. It is supposed to be operated by only one key.

According to a second aspect of the present invention, in the first aspect of the invention, there is provided a ground switch OFF blocking interlock mechanism for blocking a ground switch OFF operation when the door of the circuit breaker section is in an open state. The lock mechanism is a key lock mechanism that prevents the closing operation of the door of the circuit breaker section in the locked state.

Furthermore, the invention of claim 3 is the interlock device of the switchboard in which the external power supply device is connected to the opposite side of the circuit breaker with respect to the cable in the invention of claim 1 or claim 2, and the power supply from the external power supply device Power supply blocking means for blocking the power supply, power supply blocking means for maintaining the power supply blocking function of the power supply blocking means in the locked state, and having a key that can be attached and detached only in the locked state, and turning off the ground switch in the locked state And a ground switch key lock mechanism provided in a circuit breaker section having a key that can be attached and detached only in the locked state, the power supply blocking means key lock mechanism and the ground switch key lock mechanism, It is assumed that it is operated by a single key shared with each other that can only be used for the locking mechanism.

According to a fourth aspect of the present invention, in the third aspect of the present invention, the power supply blocking means is a switch of an excitation circuit of an external power supply device comprising a generator having an excitation circuit, and the power supply blocking means key lock mechanism is an excitation circuit switch. It is assumed that the key can be attached / detached only when is turned off.

According to a fifth aspect of the present invention, in the third aspect of the invention, each of the distribution boards corresponding to the two systems of external power supply devices is provided, and each of the two systems of distribution boards is connected to the conductive band with the respective external power supply devices. The distribution board of the system has a common cable, and the interlock device of the two distribution boards of the electric circuit that enables parallel power feeding from the two external power supply devices by turning on both circuit breakers of the two distribution boards The power supply blocking means corresponding to the distribution board of one system is a lock mechanism that prevents the circuit breaker body of the distribution board of the other system from moving from the disconnect position, and the power supply blocking means key lock mechanism is a lock of the lock mechanism. The key can be attached and detached only in the state.

According to the first aspect of the present invention, when the circuit breaker compartment door can be opened by the circuit breaker compartment door interlock mechanism, the circuit breaker body is in the disconnection position, so that the voltage of the external power supply and the electric circuit The voltage due to the residual charge is not applied to the breaker body and the cable section through the breaker body. Further, since the ground switch is turned on, the residual charge in the electric circuit connected to the cable is discharged, and the cable section is in a no-voltage state. Therefore, when the circuit breaker compartment door is opened and the circuit breaker compartment key lock mechanism is locked, the key is removed, and when the shared key is attached to the cable compartment key lock mechanism and the door is opened, the cable compartment has no voltage. The inside can be safely checked.
In addition, when the inspection of the cable compartment is completed, the cable compartment key lock mechanism key cannot be removed unless the cable compartment door is closed and locked, and the removed key is attached to the circuit breaker compartment key lock mechanism and the door is closed. If the circuit breaker is not closed, power cannot be supplied by moving the circuit breaker to the connection position, so there is no danger of forgetting to close both doors. That is, according to the invention of claim 1, since the circuit breaker compartment and the cable compartment can be interlocked mechanically using the key lock mechanism, there is an effect that safe inspection can be performed with a simple mechanism.

In addition to the effect of the invention of claim 1, the invention of claim 2 is because the door of the circuit breaker section is locked to the open state by the circuit breaker section key lock mechanism during the inspection of the cable section. The effect that the corresponding cable section is being inspected can be clearly confirmed from the surface of the switchboard.

In addition to the effect of the invention of claim 1 or 2, the invention of claim 3 is a switchboard in which the external power supply device is connected to the cable. When the switch cannot be turned on and the ground switch is turned on, the power supply from the external power supply device is blocked, so that it is possible to prevent an electric shock accident, a short-circuit accident, and the like, thereby ensuring safety. That is, in order to turn on the ground switch, it is necessary to attach a key and switch the ground switch key lock mechanism to a state where it can be turned on. Since this key is shared with the key of the power supply blocking key lock mechanism, it is necessary to remove the key from the power supply blocking key lock mechanism in a locked state in which power supply from the power supply device to the cable is blocked. Therefore, no short circuit occurs when the ground switch is turned on. In addition, since the key cannot be removed from the ground switch key lock mechanism in the ON state, the power supply blocking key lock mechanism cannot be unlocked. For this reason, a voltage is not applied to a cable from a power supply device during an inspection.

According to a fourth aspect of the present invention, in the third aspect of the present invention, the power supply blocking means key lock mechanism is configured to be able to lock in a state in which the excitation circuit switch of the generator is turned off, so that the external power supply device is connected to the cable. Even if it is the structure to connect, there exists an effect that safety | security can be ensured. That is, the residual charge of the external load circuit connected to the conductor of the bus section does not enter the cable section because the breaker body is in the disconnect position. Further, the residual charge in the external power supply circuit including the cable is discharged by turning on the ground switch, and the generator voltage generation is also blocked by the power supply blocking means key lock mechanism.

According to a fifth aspect of the present invention, in the third aspect of the invention, there is provided a distribution board for two systems having a bus section, a circuit breaker section and a cable section to which the external power supply apparatus is connected, corresponding to the two external power supply apparatuses. However, even in an electric circuit in which the cables of both cable sections are common, there is an effect that safety of inspection of the cable sections of these switchboards is ensured. For example, when explaining the distribution board of one system, the voltage of the external power supply device of one system and the circuit breaker and common cable of the other system are connected to the cable section of one system via the circuit breaker of one system. The voltage of the external power supply device of the other system is also applied. That is, the “distribution panel in which an external power supply device is connected to the opposite side of the circuit breaker with respect to the cable” described in claim 3 means “with respect to the cable of one system (corresponding to a common cable). The power distribution blocking means of one system with the external power supply device of the other system connected to the other side of the circuit breaker on the opposite side of the circuit breaker. It is a mechanism that can be locked with. With such a configuration, the power supply from the external power supply device of the one system to the cable of one system (corresponding to the common cable) is prevented by setting the circuit breaker body of the one system to the disconnecting position. In addition, power supply from the external power supply device of the other system is blocked by locking the circuit breaker body of the other system at the disconnection position. Moreover, residual charges in the cable circuit are also discharged by turning on the ground switch of one system.

The best mode for carrying out the invention will be described in the first embodiment shown in FIGS.
First, the schematic structure of the switchboard provided with the interlock device of the first embodiment will be described. Referring to FIGS. 2, 3 and 4, this switchboard is provided with a circuit breaker section 1 located in the front middle part, a low pressure section 2 located in the upper part, a cable section 3 located on the back side, and an upper central part. It has a bus section 4 located. Each of these sections has an L-shaped iron plate 5 between the circuit breaker section 1 and the low pressure section 2, the circuit breaker section 1, the cable section 3, and the like so that the other sections are not affected when an accident occurs. An iron plate 6 is separated from the bus section 4 and an iron plate 7 having an L-shaped cross section is separated from the cable section 3 and the bus section 4. The circuit breaker section 1 and the cable section 3 have doors 1 a and doors, respectively. 3a is provided.
Briefly describing each section, the bus section 4 stores a three-phase conductor 10 connected to a three-phase generator 9 (which is an external power supply device), and the cable section 3 is connected to the external load device 11. Connected to the ground switch 13 for discharging the residual charge that may be accumulated in the load circuit such as the connected cable 12, the cable 12 and the external load device 11 to the ground, and the circuit breaker 14 described later. The conductor 15 is accommodated. The circuit breaker section 1 houses a drawer type circuit breaker 14 having a drawer frame 16 and a circuit breaker body 17. The drawer frame 16 is grounded by being fixed to the iron plate on the bottom surface of the circuit breaker section 1 and the iron plate 6 on the back surface on the bottom surface and the back surface, respectively. In addition, an upper terminal 18 and a lower terminal 19 are provided on the back surface portion of the drawer frame 16 so as to pass through holes formed in the iron plate 6 and protrude into the bus bar section 4 and the cable section 3, respectively. Yes. The upper terminal 18 is connected to the conductive band 10 via a three-phase connection conductive band 20, and one end of the cable 12 is connected to the lower terminal 19.

Next, the above-described circuit breaker 14 will be described. 5 to 7, the circuit breaker body 17 has an upper terminal 21, a lower terminal 22, and an opening / closing contact not shown, and is connected between a connection position, a test position, and a disconnection position in the drawer frame 16. Can be moved linearly. As shown in FIG. 6, when the circuit breaker body 17 is in the connection position located at the innermost side, the upper terminal 21 and the lower terminal 22 of the circuit breaker body 17 are respectively the upper terminals 18 of the drawer frame 16. And the lower terminal 19 are in contact with each other. When in this connection position, although not shown, the terminals of the auxiliary circuits provided on the drawer frame 16 and the circuit breaker body 17 are also in contact with each other. When the circuit breaker body 17 is pulled out from this connection position, the test position is brought into contact with only the auxiliary circuit. When the circuit breaker body 17 is further pulled out, the main circuit and the auxiliary circuit are disconnected and the disconnection position indicated by the chain line in FIG.
The drawer frame 16 is provided with a known drawer operation device including a rail 23 for guiding the movement of the circuit breaker body 17 and a drawer operation shaft 24 for moving the circuit breaker body 17 by rotating. A drawer frame space 25 is formed in the lower part of the drawer frame 16, and the front surface of the drawer frame space 25 is covered with a lower cover 25 a and an upper cover 25 b that are connected to each other in a staircase pattern. The drawer operation shaft 24 is housed in a drawer frame space 25 and can be rotated by attaching a detachable operation handle (not shown) that passes through a hole 25c formed in the lower cover 25a. The upper cover 25b is in a position covered by the door 1a, whereas the lower cover 25a is in a position not covered by the door 1a, so that the door 1a is closed under a predetermined condition. Also, the breaker body 17 can be moved.

Next, the above-described ground switch 13 will be described with reference to FIG. 1 and FIGS. The grounding switch 13 is shown on the back side of the drawer frame 16 and connected to the grounding part, the switch-side terminal 30, the three-phase movable contact rod 31, and the switch-side terminal 30 and the movable contact rod 31 are connected. A contact portion including a crossbar 32 that rotates together with a non-conductive conductor and a movable contact rod 31 is provided. The contact portion further includes a board-side terminal 33 attached so as to face the movable contact rod 31. The board-side terminal 33 is connected to the lower terminal 19 of the drawer frame 16 by the conductor 15. It is connected. This grounding switch 13 has a grounding switch operating shaft 36 provided with a gear 35 that meshes with a gear 34 attached to the end of the crossbar 32 at the back end in order to turn on / off the contact portion. . The ground switch operating shaft 36 is housed in the drawer frame space 25 of the drawer frame 16, and has a hexagonal column tip in the hexagonal hole 36a shown in FIG. An operation handle (not shown) can be rotated by inserting it through a hole 25d formed in the lower cover 25a of the drawer frame space.

That is, referring to FIGS. 1 and 8, when an operation handle (not shown) is attached and the ground switch operation shaft 36 is rotated approximately 90 degrees counterclockwise in FIG. The movable contact rod 31 is rotated together with the cross bar 32 via the, and is in an ON state in contact with the board side terminal 33 as shown in FIG. When the grounding switch operating shaft 36 is rotated in the reverse direction, it is turned OFF.
In addition, although illustration and detailed description are abbreviate | omitted between this earthing | grounding switch 13 and the above-mentioned circuit breaker 14, it prevents that the circuit breaker main body 17 turns on the earthing switch 13 in positions other than a disconnection position, In addition, an interlock mechanism is formed that prevents the breaker body 17 from moving when the ground switch 13 is in the ON state.

Next, various interlock mechanisms and key lock mechanisms for realizing the interlock action intended by the present invention included in the first embodiment will be described. That is, in the first embodiment, the circuit breaker compartment door interlock mechanism that prevents the circuit breaker compartment door 1a from being opened when the above-described ground switch 13 is in the OFF state, and the ground switch 13 is turned on to open the door 1a. A ground switch OFF blocking interlock mechanism that prevents the ground switch 13 from being turned OFF in a state, a circuit breaker section key lock mechanism for maintaining the door 1a in an open state, i.e., maintaining no voltage in the cable section, and It includes a cable compartment key lock mechanism that allows the cable compartment door 3a to be opened only when the circuit breaker compartment door 1a is open.

First, referring to FIG. 8, the breaker compartment door interlock mechanism is attached to the inside of the door 1a with a cylindrical lock pin 40 attached to the vicinity of the tip of the ground switch operation shaft 36 so as to be orthogonal to the axial direction. The lock plate 41 is provided. Referring to FIG. 5, the lock plate 41 can be inserted into the ground switch through the lock plate hole 25e formed in the upper cover 25b of the drawer frame space according to the opening and closing of the door 1a. A lock engagement end 41a is formed at the end of the lock plate 41. When the door 1a is opened when the ground switch 13 is in the OFF state, it is indicated by a chain line in FIG. The lock engagement end 41a engages with the lock pin 40 and is prevented from being released. When the ground switch operating shaft 36 is rotated to turn on the ground switch 13, the lock pin 40 moves to a position where it does not engage with the lock engagement end 41a, as indicated by a chain line. Therefore, the door 1a cannot be opened when the ground switch 13 is OFF, and can be opened when the switch is ON.

Next, referring to FIG. 8, the ground switch OFF blocking interlock mechanism includes a first shutter 42 having a shutter surface 42 a and an arm 42 b, and a beveled edge 41 b formed in the middle portion of the lock plate 41. The The first shutter 42 is rotatably mounted inside the drawer frame space upper cover 25b so that the shutter surface 42 can move to a position where it closes the hexagon hole 36a of the ground switch operation shaft 36. In the closed state of the door 1a, the arm 42b of the first shutter 42 (shown in FIG. 8 (a) is a cross-section taken along line XX in FIG. 8A) is an oblique edge 41b of the lock plate 41 (FIG. 8 (b) is shown by a cross section taken along the line Y-Y of (b), and the shutter surface 42 is in a position that does not block the hexagonal hole 36a of the ground switch operating shaft 36. The switch 13 can be turned on. When the ground switch 13 is turned on and the door 1a is opened, the lock plate 41 rotates together with the door 1a, the engagement with the oblique edge 41b is released, and the first shutter 42 rotates counterclockwise, as shown in FIG. ), The ground switch 13 cannot be turned OFF because it moves to a position where the hexagon hole 36a of the ground switch operating shaft 36 is closed as indicated by a chain line. When the door 1a is closed, the slanted edge 41b of the lock plate 41 rotates the first shutter 42 in the clockwise direction and retracts from the front face of the hexagonal hole of the ground switch operating shaft 36, so that the ground switch 13 can be turned off. .

Next, referring to FIG. 1, the circuit breaker section key lock mechanism includes a key lock body 37 and a key 38 attached to the inside of the circuit breaker section, and opens the door 1a to bring the key 38 into the locked position. When rotated, the lock pin 39 protrudes in the direction of the door 1a and prevents the door 1a from closing. Since the key 38 is configured to be detachable only when in the locked position, the door 1a cannot be closed if the key 38 is removed as shown in FIG. In other words, the ground switch 13 cannot be turned off when the key 38 is removed.

Next, referring to FIG. 9, the cable section key lock mechanism is in close contact with the key lock main body 60 in a state where the key lock main body 60 attached to the inside of the door 3 a of the cable section and the door 3 a are closed. Have a pin block 61, a lock pin 62 and a key attached to the side plate of the cable section 3. In FIG. 9 (a), this cable section key lock mechanism cannot close the door 3a and rotate the key to the lock position so that the lock pin 62 fits into the recess formed in the pin block 61 and cannot open the door 3a. The key can be attached and detached only in the state. However, since the key cannot be rotated to the locked position when the door 3a is in the open state, the key cannot be removed. That is, the key lock body 60 includes a latch mechanism (not shown) that enables the key to rotate in the engaged state, and this latch mechanism is in a state where the pin 63 of the pin block 61 is inserted into the key lock body 60. Only in the engaged state. For this reason, in FIG. 9C, when the door 3a is opened and the pin 63 is detached from the key lock body 60, the key cannot be rotated to the lock position. Since the cable section key lock mechanism key is shared with the circuit breaker section key lock mechanism key 38 and only one is provided, the cable section door 3a is closed with the circuit breaker section door 1a closed. Cannot be released.

The operation of the interlock device of the first embodiment configured as described above will be described. When the inside of the cable section 3 is inspected, first, the circuit breaker body 17 is turned OFF, and it moves from the connection position to the disconnection position. In this state, since the ground switch 13 is OFF, the circuit breaker compartment door 1a cannot be opened by the function of the circuit breaker compartment door interlock mechanism. Next, when the operating handle is mounted on the ground switch operating shaft 36 and rotated, the ground switch 13 is turned on, and the voltage inside the cable section 3 becomes no voltage. Next, when the operation handle is removed and the door 1a is opened, the ground switch 13 cannot be turned off again by the ground switch OFF prevention interlock mechanism. Next, when the key 38 of the circuit breaker section key lock mechanism is rotated to the locked position, the door 1a is kept open and the no-voltage state inside the cable section 3 is maintained. Next, the removed key 38 is attached to the cable section key lock mechanism, rotated to the unlock position, the cable section door 3a is opened, and the inside is inspected. After inspection, the door 3a is closed and the key 38 is rotated to the locked position, removed from the cable partition key lock mechanism, and attached to the circuit breaker partition key lock mechanism. Next, when the key 38 attached to the circuit breaker section key lock mechanism is rotated to the unlock position, the door 1a is closed, the ground switch 13 is turned OFF, and the circuit breaker body 17 is moved to the connection position, power supply can be resumed. At this time, since the key 38 cannot be removed when the door 3a of the cable section is in the open state, the door 1a is not closed in the open state of the door 3a, which is safe.

Next, a second embodiment of the interlock device of the present invention will be described with reference to FIGS. In addition, about the structure essentially equivalent to the structure of Example 1, it attaches | subjects and demonstrates the same code | symbol. The interlock device of the second embodiment is a generator 9 in which an external power supply device has an excitation circuit, and the output of the generator 9 is connected to a terminal 19 on the lower side of the drawer frame 16 via a cable 12 and is connected to an external load. The device 11 is provided in a switchboard used for a circuit connected to the conductive band 10.

First, in the switchboard equipped with the interlock device of the second embodiment, at least the following three points must be satisfied in order to inspect the inside of the cable section 3 safely.
First, it is necessary to prevent residual charges that may be accumulated in the load circuit from entering the cable section 3.
Second, it is necessary to discharge residual charges that may be accumulated in the generator 9 and the cable 12 to the ground.
The third point is that it is necessary to prevent power supply from the generator 9 before turning on the ground switch 13 and to prevent power supply from the generator 9 during inspection.

In order to satisfy the first point and the second point described above, the circuit breaker body 17 may be held at the disconnecting position and the ground switch 13 may be turned ON during the inspection. Therefore, in the second embodiment, an interlock mechanism that satisfies the condition of the third point is added to the interlock device similar to the first embodiment described above.
That is, two key lock mechanisms are provided as a configuration that satisfies the condition of the third point. The first is a key lock mechanism corresponding to the power supply blocking means key lock mechanism in “Claims”, and can be locked with the excitation switch for opening and closing the excitation circuit of the generator 9 turned off. Exciting circuit key lock mechanism. Although the detailed description of the excitation circuit key lock mechanism is omitted, the key can be attached and detached only when the excitation switch is locked OFF.

The second is a grounding switch key lock mechanism that prevents the ground switch 13 from being turned on. The grounding switch key lock mechanism will be described with reference to FIG. The ground switch key lock mechanism includes a key lock main body 43 attached to the inside of the lower cover 25a of the drawer frame space, a second shutter 44 slidable in the left-right direction by guide means (not shown), the key lock main body 43 and the second lock. A lever 45 that is connected to the shutter 44 and slides the second shutter 44 according to the rotation of a key (not shown). When the ground switch 13 is in the ON state, the second shutter 44 is in the hexagonal hole 36a of the ground switch operation shaft 36. A stopper 46 is provided for preventing movement to the front surface.
The key of the key lock body 43 can be operated even when the door 1a of the circuit breaker section is closed. When the ground switch 13 is in the OFF state, the lock mechanism is in the locked state. Only in this locked state, the key can be attached and detached. A state indicated by a chain line in FIG. 11 is a locked state, and the second shutter 44 covers the front surface of the hexagon hole 36 a of the ground switch operation shaft 36. In this state, when the key is attached and rotated to the unlock position, the second shutter 44 slides to the right and the ground switch 13 can be turned ON as shown by the solid line in FIG. When turned on, the second shutter 44 is prevented from moving leftward by a stopper 46 indicated by a solid line attached to the ground switch operating shaft 36. That is, in this unlocked position, the ground switch can be turned on and off freely, and the key cannot be removed in this state. Note that this key is shared with the key of the excitation circuit key lock device, and only one key is prepared. However, the key is not shared with the key 38 of the circuit breaker section key lock mechanism or the cable section key lock mechanism described above.

When checking the inside of the cable section 3 of the switchboard equipped with the interlock device of the second embodiment, the excitation circuit switch of the generator 9 is turned OFF and the key of the excitation circuit key lock mechanism is removed. Next, the circuit breaker body 17 is moved to the disconnection position, the key of the removed excitation circuit key lock mechanism is attached to the key lock body 43 in the locked state, rotated in the unlock position direction, and the operation handle is attached. As in Example 1, the ground switch 13 is turned ON. The subsequent operation is the same as in the first embodiment.

Next, a third embodiment of the interlock device of the present invention will be described with reference to FIGS. The interlock device of the third embodiment is used for a two-system circuit including the generator, the external load device, and the switchboard of the first embodiment, and these series are distinguished in the following description. When it is necessary to explain, the code “A” is attached to one series, and the code “B” is attached to the other series.

Referring to FIG. 12, one series includes a generator 9A, a bus 10A including a switch 70A, a power distribution board 71A for supplying power to the external load device described in the first embodiment, both of which are connected to the bus 10A, and will be described later. It has a switchboard 71AT for connecting busbars. As will be described below, the distribution board 71AT for bus connection has essentially the same configuration as the distribution board 71A for the load device, and therefore, the reference numerals of the components and the like are denoted by “T” in the reference numerals of the distribution board 71A. To distinguish. The switchboard 71A is the switchboard described in the first embodiment, and an external load device 11A is connected to the cable 12A. The switchboard 71AT has a circuit breaker section 1AT, a low voltage section 2AT, a cable section 3AT, and a bus section 4AT that are isolated from each other, similar to the switchboard 71A, and also includes a circuit breaker 14AT, a ground switch 13AT, a cable 12AT, and the like. Similarly to this one series, the other series is also provided with the generator 9B, the switch 70B, the load device switchboard 71B, and the busbar connection switchboard 71BT. The cable 12AT of one series and the cable 12BT of the other series are common cables, and the distribution board 71B for the load device and the distribution board 71BT for connecting the bus are always connected, and the distribution boards 71A of both series are connected. The switchboard 71AT, switchboard 71B, and switchboard 71BT are installed side by side.

Such a switchboard group is used as follows, for example. That is, when power is supplied from all generators and all external load devices are driven, the switches 70A and 70B are in the ON state, the circuit breakers 14A, 14AT, 14B and 14BT are in the ON state, and the ground switch 13A, 13AT, 13B, and 13BT are in an OFF state. In addition to this state, for example, when the sum of the drive capacities of the external load device 11A and the external load device 11B becomes small, for example, the switch 70B is turned OFF to stop the generator 70B, and only the generator 9A is connected to both external load devices. Can be fed from.

The interlock device of the third embodiment is provided for safely checking the inside of the cable section 3AT and the cable section 3BT of the above-described busbar connection switchboard 71AT and the busbar connection switchboard 71BT, respectively. The case where the cable section 3AT of the distribution board 71AT for connecting the busbars is inspected will be described. For this inspection, it is necessary to satisfy at least the following three points.
First, it is necessary to prevent the output from the generator 9A of one system from entering the cable section 3AT of one system.
The second point is that residual charges that may be accumulated in the common cables 12AT and 12BT must be discharged to the ground.
Third, it is necessary to prevent the output of the generator 9B of the other system from entering the cable section 3AT of one system via the common cables 12BT and 12AT.

In order to satisfy the first point and the second point described above, the circuit breaker body 17AT of one system may be held at the disconnection position and the ground switch 13AT of one system may be turned ON during the inspection. Therefore, in the third embodiment, an interlock mechanism that satisfies the condition of the third point is added to the same interlock device as in the first embodiment.
That is, two key lock mechanisms are added as a configuration that satisfies the condition of the third point.
The first is a key lock mechanism corresponding to the power supply blocking means key lock mechanism. In order to prevent power supply from the generator 9B of the other system to the cable 12BT, the circuit breaker body 17BT of the other system is connected to the disconnection position. It is the circuit breaker main body movement prevention key lock mechanism locked in.
The second one is the same as the ground switch key lock mechanism shown in FIG. 11 used in the second embodiment.

With reference to FIGS. 13 and 14, the circuit breaker body movement prevention key lock mechanism of the distribution board 71BT for connecting the buses of the other system will be described. In FIG. 13 and FIG. 14 and this description, the notation of characters such as “A”, “B”, “T” attached to the reference numerals is omitted. The breaker body movement blocking key lock mechanism is attached to the bar 47 that moves in parallel with the movement of the breaker body, the notch 47a formed at the tip of the bar 47T, and the lower cover 25a of the drawer frame space. A key lock body 48, a lever 49 that rotates according to the rotation of a key (not shown), a movable bushing 50 that is positioned coaxially with the bar 47 and provided on the lower cover 25a, and a frame 51 that slidably holds the movable bushing 50. A spring 52 for urging the movable bushing 50 toward the bar 47 is provided.

The movable bushing 50 has a stepped shape. Referring to FIG. 13A, when the circuit breaker body 17B is located at a position other than the disconnection position, the distal end portion 50a protrudes from the frame 51 and is spaced apart from the bar 47. In position. In this position, when the key of the key lock main body 48 of the circuit breaker main body movement prevention key lock mechanism is rotated in the lock position direction, the lever 49 comes into contact with the distal end portion 50a of the movable bushing as shown in FIG. Does not rotate to the locked position. When the circuit breaker body 17B is moved to the disconnecting position, the distal end portion 50a of the movable bushing is retracted into the frame 51 by the distal end portion of the bar 47. When the key is rotated in the lock position direction in this state, the lever 49 is fitted into the notch 47a of the bar 47 and rotated to the lock position as shown in FIG. In this locked position, the breaker body 17B cannot be moved to a position other than the disconnection position because the lever 49 and the notch 47a of the bar 47 can be engaged.

The key of the key lock body 48BT of the circuit breaker body movement prevention key lock mechanism of the distribution board 71BT for connecting the bus of the other system can be operated even when the door 1aT of the circuit breaker section 1BT is closed. In this structure, the key can be attached and detached only in the locked state. Further, only one key of the circuit breaker main body movement prevention key lock mechanism of the distribution board 71BT for connecting the bus of the other system is prepared, and provided on the ground switch 13AT of the distribution board 71AT for connecting the bus of the other system. It is shared with the key of the selected ground switch key lock mechanism, but is not shared with the key of any other key lock mechanism.

When inspecting the inside of the cable section 3AT of the distribution board 71AT for connecting the bus of one system of the distribution board having the interlock device of the third embodiment, the circuit breaker body 17AT and the circuit breaker body 17BT of both systems are checked. Turn OFF to move to the disconnect position. Then, the key of the key lock body 48BT of the circuit breaker body movement prevention key lock mechanism of the circuit breaker 14BT of the other system is rotated to the lock position, and the key is removed. Next, the removed key is attached to the key lock body 43AT of the ground switch key lock mechanism of the ground switch 13AT of one system, rotated to the unlocked position, and the operation handle is attached to install the operation handle of one system as in the first embodiment. Turn on the ground switch 13AT. The subsequent operation is the same as in the first embodiment.

In the above description of the third embodiment, the configuration in the case of checking the inside of the cable section 3AT of the distribution board 71AT for connecting the bus of one system has been described. However, the cable section 3BT of the distribution board 71BT for connecting the bus of the other system has been described. Can be safely checked in the same way.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure explaining the circuit breaker division key lock mechanism of Example 1 of the interlock device of the switchboard by this invention, Comprising: It is a top view which shows (a) unlocked state and (b) locked state. FIG. 2 is a circuit diagram of a switchboard including the interlock device of FIG. It is a schematic side view of the switchboard of FIG. FIG. 4 is a front view of FIG. 3. FIG. 3 is a front view of a circuit breaker and a ground switch housed in the switchboard of FIG. 2. FIG. 6 is a side view of FIG. 5. FIG. 6 is a rear view of FIG. 5. FIG. 2A is a plan view and FIG. 2B is a front view illustrating a circuit breaker compartment door interlock mechanism and a ground switch OFF blocking interlock mechanism according to the first embodiment of FIG. 1. It is a figure explaining the cable division key lock mechanism with which the cable division of the switchboard of FIG. 2 was equipped, Comprising: (a) It is a top view which shows a locked state, (b) unlocked state, and (c) door open state. It is a circuit diagram of a switchboard provided with Example 2 of the interlock device of the switchboard by this invention. FIG. 11A is a plan view and FIG. 11B is a front view for explaining a grounding switch key lock mechanism of the embodiment of FIG. 10. It is a circuit diagram of the switchboard provided with Example 3 of the interlock apparatus of the switchboard by this invention. It is the (a) top view and (b) front view explaining the unlocking state of the circuit breaker main body movement prevention key lock mechanism of the Example of FIG. It is the (a) top view and (b) front view explaining the locked state of the circuit breaker main body movement prevention key lock mechanism of the Example of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Circuit breaker section, 1a Door 3 Cable section, 3a Door 9 Generator 10 Conductor 11 External load device 12 Cable 13 Ground switch 14 Circuit breaker 16 Drawer frame 17 Breaker body 24 Drawer operation shaft 25 Drawer frame space, 25a Lower cover , 25b Top cover, 25c hole, 25d hole, 25e hole 30 Switch side terminal 31 Movable contact rod 32 Crossbar 33 Panel side terminal 36 Ground switch operation shaft, 36a Hexagonal hole 37 Key lock body 38 Key 41 Lock plate, 41a Lock Engagement end, 41b Slope 42 First shutter, 42a Shutter surface, 42b Arm 43 Key lock body 44 Second shutter 45 Lever 46 Stopper 47 Bar, 47a Notch 48 Key lock body 49 Lever 50 Movable bushing, 50a Tip 51 Frame 52 Spring 60 Key lock book Body 61 Pin block 62 Lock pin 63 Pin 71 Switchboard

Claims (5)

A bus section containing a conductive band to which any one of the external power supply device and the external load device in the electric circuit is connected;
A circuit breaker section with a door containing a drawer type circuit breaker having a terminal to which the conductive band is connected and a terminal to which a cable connected to the other external device of the external devices is connected;
A cable compartment with a door for housing the cable and a ground switch for grounding the cable;
Switch operating means for enabling ON / OFF operation of the ground switch from the surface of the circuit breaker section;
A drawer operation means for enabling movement of the circuit breaker body of the drawer type circuit breaker from the surface of the circuit breaker section;
In an interlock device configured between the circuit breaker section and the cable section of a switchboard having
A circuit breaker compartment door interlock mechanism that allows the circuit breaker compartment door to be opened only when the breaker body is in the disconnect position and the ground switch is in an ON state;
A key lock mechanism that prevents the breaker body from moving from the disconnection position in the locked state and prevents the ground switch from being turned off, and the circuit breaker section key lock mechanism can be attached / detached only in the locked state. When,
A key lock mechanism for maintaining the cable compartment door in a closed state in a locked state, wherein the key can be attached and detached only in the locked state; and
Have
The circuit breaker compartment key lock mechanism and the cable compartment key lock mechanism are operated by a single key that can be used only for the two key lock mechanisms and is shared with each other.
A grounding switch OFF blocking interlock mechanism for blocking the grounding switch OFF operation when the circuit breaker compartment door is open;
The switchboard interlock device according to claim 1, wherein the circuit breaker section key lock mechanism is a key lock mechanism that prevents a closing operation of the door of the circuit breaker section in the locked state.
The switchboard interlock device to which the external power supply device is connected on the opposite side of the circuit breaker with respect to the cable,
Power supply blocking means for blocking power supply from the external power supply device;
While maintaining the power supply blocking function of the power supply blocking means in the locked state, the power supply blocking means key lock mechanism having a key that can be attached and detached only in the locked state;
A ground switch key lock mechanism provided in the circuit breaker section having a key that can be attached and detached only in the locked state, while maintaining the ground switch OFF in the locked state,
The switchboard according to claim 1 or 2, wherein the power supply blocking means key lock mechanism and the ground switch key lock mechanism are operated by a single key that can be used only for both the key lock mechanisms. Interlock device.
The power supply blocking means is a switch of the excitation circuit of the external power supply device comprising a generator having an excitation circuit, and the power supply blocking means key lock mechanism can be attached and detached only when the excitation circuit switch is OFF. The switchboard interlock device according to claim 3, wherein:
The switchboards corresponding to the two systems of the external power supply devices are provided, the power distribution boards of the two systems are both connected to the conductive band, and the power distribution boards of the two systems are connected to the common cable. And having two power distribution circuit interlocking devices that enable parallel power feeding from the two external power supply devices by turning on both of the circuit breakers of the two power distribution panels,
The power supply blocking means corresponding to the power distribution board of one system is a lock mechanism that prevents the circuit board of the other system from moving from the disconnection position of the circuit breaker body, and the power supply control means key lock mechanism is the lock mechanism. 4. The switchboard interlock device according to claim 3, wherein the key can be attached and detached only in the locked state.

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