JP2016116303A - Shutter opening/closing mechanism for switch gear - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent an electrical shock caused by an erroneous action of a worker or the like by making the worker or the like unlikely to erroneously move a shutter.SOLUTION: A drive shaft 5 is rotated by rotationally operating an operation handle 4 with specific worker's own power. A rotational movement of the drive shaft 5 is converted into a reciprocal movement by a warm 24 and a warm rack 25, move a breaker 3 and are transmitted to a shutter operation shaft 11 via a plurality of bevel gears 6, 8, 10, and 12 and the shutter operation shaft 11 is rotated while being interlocked with the movement of the breaker 3. When the shutter operation shaft 11 is rotated, a slider part 16 of a shutter 13 with which a female screw 15 to be engaged with a male screw 14 of the shutter operation shaft 11 is formed, and slid and moved along the shutter operation shaft 11, and the shutter 13 is opened/closed.SELECTED DRAWING: Figure 1

Description

  In accordance with the operation of putting the circuit breaker to a predetermined position in the switchgear main body, the present invention opens the shutter that covered the bus charging part in the switchgear main body and pulls out the circuit breaker from the predetermined position in the switchgear main body. The present invention relates to a shutter opening / closing mechanism of a switchgear that covers a bus charging part in a switchgear main body with a shutter in conjunction with the operation.

(First prior art)
Conventionally, when a circuit breaker is moved in a pull-out direction from a predetermined position in the switch gear body (a position where the contactor of the circuit breaker is connected to the bus charging unit), the switchgear contacts the switchgear and the switchgear. The connection state with the bus charging part in the main body is released, and the high-voltage distribution line is cut off. In this case, the switch gear exposes the bus charging part, but if the bus charging part remains exposed, the buses exposed to workers (third party other than the worker and the worker) are exposed. There is a risk of electric shock coming into contact with the charged part.

  Therefore, as shown in FIG. 5, in the conventional switchgear 100, the link mechanism 103 is swung by the operation of pushing the circuit breaker 101 into a predetermined position in the switchgear body 102, and the shutter 104 connected to the link mechanism 103. Is opened, and the bus bar charging unit 105 is exposed so that the contact 106 of the circuit breaker 101 can be connected to the bus bar charging unit 105. Note that one end of the swing arm 107 of the link mechanism 103 is supported by the support pin 108 so as to be swingable to the switch gear body 102, and the other end is connected to the shutter 104. The link mechanism 103 is configured to hold the shutter 104 in its closed position by its own weight unless the swing arm 107 is pushed up by the operation pin 110 of the circuit breaker 101 (see Patent Document 1).

  However, in the conventional switchgear 100, when the circuit breaker 101 is pulled out from the switchgear main body 102, the shutter 104 is held by its own weight at a position covering the bus charger 105, and the link mechanism 103 is detached from the circuit breaker 101. (See FIG. 5A). Therefore, in the conventional switch gear 100, the operator or the like can freely swing the link mechanism 103 in a state where the circuit breaker 101 is pulled out from the switch gear main body 102, and covers the bus charger 105. There is a risk that the operator or the like may accidentally move the shutter 104 and contact the bus charger 105 where the operator or the like is exposed to cause an electric shock.

(Second conventional technology)
In order to solve such a problem of the conventional switch gear, a switch gear has been developed in which the link mechanism connected to the shutter is fixed by the electric lock mechanism at the position where the shutter covers the bus charging part (Patent Document 2, 3).

JP 2006-42503 A JP 2011-200075 A JP 2011-200076 A

  However, in the second prior art, when the control circuit for energization control of the electric lock mechanism fails or a power failure occurs, the link mechanism cannot be fixed by the electric lock mechanism, and the shutter is closed (the position covering the bus charger). Therefore, the same problem as in the first prior art arises.

  Therefore, the present invention can interlock the shutter with the movement of the circuit breaker and can make it difficult for an operator or the like to move the shutter accidentally, thereby preventing an electric shock accident caused by an erroneous operation of the operator or the like. Provided is a switchgear shutter opening / closing mechanism.

  In the present invention, as shown in FIGS. 1 to 4, the shutter covering the bus charging portion 21 in the switch gear body 17 in conjunction with the operation of putting the circuit breaker 3 to a predetermined position in the switch gear body 17. 13 is opened to expose the bus bar charging unit 21, while the bus bar charging unit 21 in the switch gear body 17 is moved in conjunction with the operation of pulling out the circuit breaker 3 from the predetermined position in the switch gear body 17. The present invention relates to the shutter opening / closing mechanism 2 of the switchgear 1 that is covered with the shutter 13. In the present invention, when the breaker 3 is inserted into and removed from the switchgear body 17 in the front-rear direction and the predetermined position in the front-rear direction is the rear side, the drive shaft 5 extending along the front-rear direction is provided. The switch gear body 17 is rotatably supported at the lower part. A first bevel gear 6 is fixed to the other end side that is the rear side of the drive shaft 5. An operation handle 4 for rotating the drive shaft 5 is detachably attached to one end side of the drive shaft 5. A worm 24 is fixed between the one end side and the other end side of the drive shaft 5. A worm rack 25 that meshes with the worm 24 is fixed to the lower part of the circuit breaker 3. A driven shaft 7 orthogonal to the drive shaft 5 is rotatably supported at a lower portion of the switch gear body 17 and on the rear side. A second bevel gear 8 that meshes with the first bevel gear 6 is fixed to an intermediate portion in the axial direction of the driven shaft 7. In addition, shutter drive bevel gears 10 are fixed to both ends of the driven shaft 7 in the axial direction. In addition, a shutter operation shaft 11 that extends along the vertical direction of the switch gear body 17 and is orthogonal to the driven shaft 7 is provided in the switch gear body 17 and at both axial ends of the driven shaft 7. It is supported rotatably. A shutter driven bevel gear 12 that meshes with the shutter drive bevel gear 10 is fixed to one end of the shutter operation shaft 11. Further, the shutter 13 is stretched over the shutter operating shafts 11 positioned on both ends in the axial direction of the driven shaft 7 so as to be slidable. The shutter 13 is formed with a slider portion 16 that is slidably engaged with the shutter operation shaft 11, and a female screw 15 that is screwed into the male screw 14 of the shutter operation shaft 11. It is formed in the part 16. When the operation handle 4 is rotated, the drive shaft 5 is rotated, and the worm rack 25 is moved along the drive shaft 5 by the worm 24 of the drive shaft 5. The circuit breaker 3 is moved in the front-rear direction, and the rotation of the drive shaft 5 is caused to rotate through the first bevel gear 6, the second bevel gear 8, the shutter drive bevel gear 10, and the shutter driven bevel gear 12. When the shutter 13 is moved up and down with the rotation of the shutter operating shaft 11 and the circuit breaker 3 is moved toward the predetermined position, the shutter 13 is shut off. When the bus charger 21 is exposed in conjunction with the movement of the device 3 and the circuit breaker 3 is moved from the predetermined position, So that the cover the bus charging unit 21 the shutter 13 is in conjunction with the movement of the circuit breaker 3.

  The switchgear shutter opening / closing mechanism according to the present invention allows the shutter to be interlocked with the movement of the circuit breaker, as well as a specific operator (an operator who stores the operation handle) to attach the operation handle to the drive shaft. After that, the circuit breaker and the shutter cannot be moved unless a specific operator rotates the operation handle. Therefore, compared to the conventional example in which the shutter is opened and closed by the link mechanism, the operator or the like moves the shutter by mistake. Therefore, it is possible to effectively prevent an electric shock accident caused by an erroneous operation of an operator or the like.

  Further, the switchgear shutter opening / closing mechanism according to the present invention rotates a drive shaft by a specific operator by rotating the operation handle by himself / herself, and the rotational movement of the drive shaft is reciprocated by a worm and a worm rack. Convert and move the circuit breaker, transmit the rotational movement of the drive shaft to the shutter operating shaft via multiple bevel gears, rotate the shutter operating shaft in conjunction with the movement of the circuit breaker, and operate the shutter Since the shutter is opened and closed by sliding the slider part of the shutter, which has a female thread that meshes with the male thread of the shaft, along the shutter operating shaft, it affects the failure of the electrical control circuit and power failure. Therefore, the circuit breaker and the shutter can be moved reliably.

It is a figure for demonstrating the shutter opening / closing mechanism of the switch gear which concerns on 1st Embodiment of this invention, and is a block diagram of the switch gear which shows the state which the shutter opened. Fig.1 (a) is a front side block diagram of a switchgear, Comprising: It is a front side block diagram of the switchgear cut | disconnected and shown along the A2-A2 line | wire of FIG.1 (b). FIG. 1B is a side view of the switch gear, and is a side view of the switch gear cut along the line A1-A1 of FIG. It is a figure for demonstrating the shutter opening / closing mechanism of the switch gear which concerns on 1st Embodiment of this invention, and is a block diagram of the switch gear which shows the state which the shutter closed. Fig.2 (a) is a front side block diagram of a switchgear, Comprising: It is a front side block diagram of the switchgear cut | disconnected and shown along the A4-A4 line | wire of FIG.2 (b). FIG. 2B is a side view of the switch gear, and is a side view of the switch gear cut along the line A3-A3 in FIG. It is a top view which shows the meshing state of the 1st bevel gear of a drive shaft, and the 2nd bevel gear of a driven shaft. It is a perspective view which shows typically the operation handle and the insertion part of the operation handle. It is a figure for demonstrating the shutter opening / closing mechanism of the conventional switchgear.

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

[First Embodiment]
FIGS. 1 to 4 are views for explaining a shutter opening / closing mechanism 2 of the switchgear 1 according to the first embodiment of the present invention.
(Structure of switchgear and switchgear shutter opening / closing mechanism)
As shown in FIGS. 1 to 4, the switch gear 1 includes a shutter opening / closing mechanism 2 that is interlocked with the movement of the circuit breaker 3. The shutter opening / closing mechanism 2 of the switch gear 1 includes an operation handle 4 that is rotated by an operator, a drive shaft 5 that is rotated by the operation handle 4, and a first bevel gear 6 that is fixed to the drive shaft 5. A driven shaft 7 arranged perpendicular to the drive shaft 5, a second bevel gear 8 fixed to the driven shaft 7 and meshing with the first bevel gear 6, and a shutter fixed to both ends of the driven shaft 7. Driving bevel gears 10, 10, a shutter operating shaft 11 disposed on both ends of the driven shaft 7 and orthogonal to the driven shaft 7, and fixed to the end of the shutter operating shaft 11. The shutter driven bevel gear 12 that meshes with the shutter driving bevel gear and the pair of shutter operating shafts 11 and 11 are slidably moved. A shutter 13, a male screw 14 of the shutter operation shaft 11, and a slider portion 16 of the shutter 13 female thread 15 is formed to be screwed to the external thread 14 of the shutter operation shaft 11.

  The details of the switch gear 1 and its shutter opening / closing mechanism 2 will be described below with reference to FIGS.

  The switch gear 1 is accommodated in a state in which the circuit breaker 3 can be taken in and out of the switch gear main body 17. That is, the switch gear 1 is provided with rollable rollers 18 at the lower four corners of the circuit breaker 3, and can push the circuit breaker 3 to a predetermined position in the switch gear body 17 (FIG. 1B). The circuit breaker 3 can be pulled out from a predetermined position in the switch gear body 17 (see FIG. 2B). Here, the direction in which the circuit breaker 3 is taken in and out of the switchgear main body 17 is the front-rear direction, the predetermined position side in the front-rear direction is the rear side (the right side in FIG. 1B is the rear side), and the predetermined position in the front-rear direction The opposite side to the side is the front side (the left side of FIG. 1B is the front side).

  The switchgear main body 17 is a box having a space in which the circuit breaker 3 is housed, and a bus charging unit 21 is attached to the rear wall 20. In the bus charging unit 21, a three-phase upper-side disconnecting part 21a and a three-phase lower-side disconnecting part 21b are arranged with an interval in the vertical direction. One of the upper-side disconnection portion 21a and the lower-side disconnection portion 21b is a power supply-side disconnection portion, and the other of the upper-side disconnection portion 21a and the lower-side disconnection portion 21b is a load-side disconnection portion.

  In the circuit breaker 3, a contact 22 that is connected to the bus charger 21 or is disconnected from the bus charger 21 is attached to the side facing the bus charger 21. When the circuit breaker 3 is pushed along a rail (not shown) to a predetermined position in the switchgear main body 17, the contact 22 is connected to the bus charger 21, and the power supply side and the load side are connected. While energizing, when the connection between the contact 22 and the bus charger 21 is released from a predetermined position in the switchgear body 17 along the rail in the pulling direction (front direction), the power supply side and the load side Shut off the power to.

  A drive shaft 5 extending along the front-rear direction of the switchgear body 17 is rotatably supported via a bearing 23 at a position below the switchgear body 17 and at a position where the movement of the circuit breaker 3 is not disturbed. .

  A first bevel gear 6 is fixed to the other end side which is the rear side of the drive shaft 5, and an operation handle 4 for rotating the drive shaft 5 is detachably attached to one end side of the drive shaft 5. The drive shaft 5 has a worm 24 fixed between one end side and the other end side thereof, and the worm 24 meshes with a worm rack 25 fixed to the lower part of the circuit breaker 3. When the worm 24 (drive shaft 5) is rotated, the worm rack 25 meshing with the worm 24 is moved along the axial direction of the drive shaft 5, and the circuit breaker 3 integrated with the worm rack 25 is connected to the drive shaft 5. It is moved along the axial direction.

  A driven shaft 7 orthogonal to the drive shaft 5 is rotatably supported via a plurality of bearings 26 at a lower portion and a rear side of the switch gear body 17. A second bevel gear 8 that meshes with the first bevel gear 6 of the drive shaft 5 is fixed to the intermediate portion of the driven shaft 7. In addition, shutter drive bevel gears 10 are fixed to both ends of the driven shaft 7 in the axial direction. Then, the rotation of the drive shaft 5 is transmitted to the driven shaft 7 via the first bevel gear 6 and the second bevel gear 8.

  In the switchgear main body 17 and on both end sides in the axial direction of the driven shaft 7, the shutter operation shaft 11 extending along the vertical direction of the switchgear main body 17 and orthogonal to the driven shaft 7 is rotated via a bearing 27. It is supported freely. A shutter driven bevel gear 12 that meshes with the shutter drive bevel gear 10 of the driven shaft 7 is fixed to one end of the shutter operation shaft 11. When the driving shaft 5 is rotated, the driven shaft 7 is rotated by the driven shaft 7 via the first bevel gear 6 and the second bevel gear 8, and the rotation of the driven shaft 7 is the shutter driving bevel gear 10. Is transmitted via the shutter driven bevel gear 12.

  A shutter 13 is stretched over the shutter operating shafts 11 located on both ends in the axial direction of the driven shaft 7 so as to be slidable. The entire shutter 13 is formed of a non-conductive member. The shutter 13 has a plate-like upper shutter portion 13a formed so as to open and close the upper-side disconnect portion 21a and a plate-like lower portion formed so as to open and close the lower-side disconnect portion 21b. The shutter portion 13b, a connecting member 13c for connecting and integrating the upper shutter portion 13a and the lower shutter portion 13b in the vicinity of the shutter operating shaft 11, and the shutter operating shaft 11 fixed to the lower shutter portion 13b. And a guide portion 28 fixed to the upper shutter portion 13a and slidably engaged with the shutter operating shaft 11. The shutter 13 is moved up and down (shutter operation) by an upper shutter stopper 30 installed on the upper end side of the shutter operation shaft 11 and a lower shutter stopper 31 installed on the lower end side of the shutter operation shaft 11. The amount of movement along the axis 11 is limited.

  The slider portion 16 of the shutter 13 is formed with a female screw 15 that is screwed into the male screw 14 of the shutter operation shaft 11. The slider portion 16 of the shutter 13 is moved toward a predetermined position in the switch gear body 17 by rotating the operation handle 4 in the clockwise direction (clockwise direction). When the shutter operation shaft 11 is rotated in conjunction with the rotation of the drive shaft 5 and the driven shaft 7, the shutter operation shaft 11 is moved upward of the shutter operation shaft 11. As a result, the shutter 13 exposes the bus charging unit 21 and enables connection between the contact 22 of the circuit breaker 3 and the bus charging unit 21. On the other hand, when the operation handle 4 is rotated counterclockwise (counterclockwise) in a state where the contact 22 of the circuit breaker 3 and the bus charger 21 are connected, the slider portion 16 of the shutter 13 is disconnected. 3 is moved forward from a predetermined position in the switchgear body 17, and the shutter operation shaft 11 is rotated in conjunction with the rotation of the drive shaft 5 and the driven shaft 7, so that the shutter operation shaft 11 moves downward. To slide. Then, the connection between the contact 22 of the circuit breaker 3 and the bus charging unit 21 is released, and when the circuit breaker 3 is further away from the bus charging unit 21 by a predetermined distance, the shutter 13 reliably covers the bus charging unit 21. In addition, the shutter 13 moves up and down along the shutter operation shaft 11 and moves up and down with a slight gap (a gap that does not allow the operator's finger to be inserted) with respect to the bus charger 21. It comes to move. Therefore, according to the shutter 13 actuated in this way, an operator or the like cannot easily touch the bus charging unit 21, and an electric shock accident of the operator or the like is surely prevented.

  Here, the shutter opening / closing mechanism 2 of the switch gear 1 has a worm 24 and a worm rack 25 so that the circuit breaker 3 is moved toward a predetermined position in the switch gear main body 17 by the clockwise rotation of the operation handle 4. The torsion direction of the teeth is determined. Further, the shutter opening / closing mechanism 2 of the switch gear 1 includes a first bevel gear 6, a second bevel gear 8, and a shutter drive so that the shutter operation shaft 11 rotates counterclockwise in accordance with the clockwise rotation of the drive shaft 5. The twist directions of the teeth of the bevel gear 10 and the shutter-driven bevel gear 12 are determined. Further, the shutter opening / closing mechanism 2 of the switchgear 1 operates the shutter operation so that the slider portion 16 of the shutter 13 can slide and move upwardly of the shutter operation shaft 11 by the counterclockwise rotation of the shutter operation shaft 11. The male screw 14 of the shaft 11 and the female screw 15 of the slider portion 16 are right-handed screws. Further, the gear specifications (gear ratio, lead, etc.), the lead of the male screw 14 and the female screw 15 and the like are determined so that the movement amount of the circuit breaker 3 and the shutter 13 with respect to one rotation of the drive shaft 5 is optimized.

  FIG. 4 is a perspective view showing the relationship between the operation handle 4 and the drive shaft 5. As shown in FIG. 4, the operation handle 4 has a cylindrical shaft portion 32, an arm portion 33, and a grip portion 34. The cylindrical shaft portion 32 is formed with a shaft hole (not shown) to be inserted into the operation handle mounting shaft portion 35 formed on one end side of the drive shaft 5, and the shaft hole is one end side of the shaft portion 32. Is open. In addition, the cylindrical shaft portion 32 integrally has an arm portion 33 that protrudes radially outward on the other end side. A bar-shaped grip 34 that can be gripped by the operator is attached to the tip of the arm 33. Here, the shaft hole of the shaft portion 32 has a plurality of anti-rotation grooves (not shown) engaged with the plurality of anti-rotation projections 35a formed on the operation handle mounting shaft portion 35 in correspondence with the anti-rotation projection 35a. Is formed. Therefore, in the operation handle 4, the shaft hole and the rotation prevention groove of the shaft portion 32 match the shape of the operation handle mounting shaft portion 35 (one end side of the drive shaft 5), and the shaft hole and the rotation prevention groove of the shaft portion 32 are driven. Only the one inserted into one end of the shaft 5 can rotate the drive shaft 5. Since the operation handle 4 can be attached to and detached from the drive shaft 5 (operation handle mounting shaft portion 35), when there is no need to move the circuit breaker 3 in the switch gear body 17, a specific operator can It can be removed from the drive shaft 5 and stored. Therefore, according to the shutter opening / closing mechanism 2 of the present embodiment, a third party (a person other than a specific worker) can erroneously operate the circuit breaker 3 and the shutter 13 interlocked with the movement of the circuit breaker 3. Therefore, a third party electric shock can be effectively prevented.

  Further, as shown in FIG. 4, a lock pin insertion hole 37 into which the lock pin 36 is inserted is formed in the arm portion 33 of the operation handle 4. On the other hand, an operation handle fixing hole 38 that fits with the distal end side of the lock pin 36 is formed in the front portion 17 a of the switch gear body 17 located on one end side of the drive shaft 5. Then, with the operation handle 4 being detachably attached to one end side (operation handle attachment shaft portion 35) of the drive shaft 5, the lock pin 36 is inserted into the lock pin insertion hole 37 and the front end side of the lock pin 36 is By engaging the operation handle fixing hole 38, the operation handle 4 can be prevented from rotating with respect to the switchgear main body 17, so that the shutter 13 cannot be prevented from falling only by the self-locking function of the worm 24 and the worm rack 25. Even in this case, the shutter 13 can be reliably prevented from falling. The technique for preventing the operation handle 4 from rotating with respect to the switchgear main body 17 with the lock pin 36 is omitted only when the shutter 13 can be prevented from falling only by the self-locking function of the worm 24 and the worm rack 25. Can do.

(Explanation of switchgear shutter opening / closing mechanism)
In the shutter opening / closing mechanism 2 of the switch gear 1 as described above, the operation handle 4 is rotated in the clockwise direction when the circuit breaker 3 is pulled out (the contact 22 and the bus charger 21 are separated) (see FIG. 2). When the pivoting operation is performed, the drive shaft 5 is rotated to the right, and the worm rack 25 is moved rearward along the drive shaft 5 by the worm 24 of the drive shaft 5. Is moved toward a predetermined position on the rear side, the second bevel gear 8 of the driven shaft 7 is rotated by the first bevel gear 6 of the drive shaft 5, and the driven shaft 7 integrated with the second bevel gear 8 is driven by the drive shaft 5. And the circuit breaker 3 are moved in conjunction with each other.

  In the shutter opening / closing mechanism 2 of the switch gear 1, when the driven shaft 7 is rotated, the shutter driving bevel gear 10 fixed to both ends of the driven shaft 7 moves the shutter driven bevel gear 12 of the shutter operating shaft 11 to the left. The shutter operating shaft 11 integrated with the shutter driven bevel gear 12 is rotated counterclockwise, the slider portion 16 of the shutter 13 moves upward of the shutter operating shaft 11, and the shutter 13 is rotated. Exposes the bus charger 21. In a state in which the circuit breaker 3 is moved (pushed in) to a predetermined position and the contact 22 of the circuit breaker 3 is connected to the bus charging unit 21, the shutter 13 exposes the bus charging unit 21 completely (FIG. 1).

  Further, the shutter opening / closing mechanism 2 of the switchgear 1 has the operation handle 4 when the circuit breaker 3 is in a predetermined position and the contactor 22 of the circuit breaker 3 and the bus charger 21 are connected (the state of FIG. 1). Is rotated counterclockwise, the drive shaft 5 is rotated counterclockwise, the worm rack 25 of the drive shaft 5 moves the worm rack 25 forward along the drive shaft 5, and is integrated with the worm rack 25. The circuit breaker 3 is moved toward the front side, the connection between the contact 22 of the circuit breaker 3 and the bus charger 21 is released, and the second bevel gear 8 of the driven shaft 7 is connected to the first shaft of the drive shaft 5. The driven shaft 7 that is rotated by the bevel gear 6 and integrated with the second bevel gear 8 is rotated in conjunction with the rotation of the drive shaft 5 and the movement of the circuit breaker 3.

  In the shutter opening / closing mechanism 2 of the switch gear 1, when the driven shaft 7 is rotated, the shutter driving bevel gear 10 fixed to both ends of the driven shaft 7 moves the shutter driven bevel gear 12 of the shutter operating shaft 11 to the right. The shutter operating shaft 11 integral with the shutter driven bevel gear 12 is rotated clockwise, the slider portion 16 of the shutter 13 moves downward of the shutter operating shaft 11, and the shutter 13 is rotated. Covers the bus charger 21. In a state where the circuit breaker 3 is pulled out to the original position (predetermined pulling position), the shutter 13 completely covers the busbar charging unit 21 (see FIG. 2).

(effect)
The shutter opening / closing mechanism 2 of the switchgear 1 according to the present embodiment can be operated by a specific operator (an operator who stores the operation handle 4) as well as the shutter 13 can be interlocked with the movement of the circuit breaker 3. After the handle 4 is attached to the drive shaft 5, the circuit breaker 3 and the shutter 13 cannot be moved unless a specific operator rotates the operation handle 4. Therefore, the shutter is opened and closed by a link mechanism. Thus, it becomes difficult for an operator or the like to move the shutter 13 by mistake, and an electric shock accident caused by an erroneous operation of the operator or the like can be effectively prevented.

  In addition, the shutter opening / closing mechanism 2 of the switchgear 1 according to the present embodiment rotates the drive shaft 5 when a specific operator rotates the operation handle 4 by his / her own force, and the rotational motion of the drive shaft 5 is changed to the worm 24. The worm rack 25 converts the circuit breaker 3 into a reciprocating motion, and transmits the rotational motion of the drive shaft 5 to the shutter operating shaft 11 via the plurality of bevel gears 6, 8, 10, and 12, thereby releasing the shutter. The operating shaft 11 is rotated in conjunction with the movement of the circuit breaker 3, and the slider portion 16 of the shutter 13 formed with the female screw 15 that meshes with the male screw 14 of the shutter operating shaft 11 slides along the shutter operating shaft 11. By moving the shutter 13, the shutter 13 is opened and closed, so that the circuit breaker 3 and the shutter 3 are not affected by failure of the electrical control circuit or power failure. It is possible to reliably move the coater 13.

  In the shutter opening / closing mechanism 2 of the switch gear 1 according to the present embodiment, the second bevel gear 8 is preferably fixed at the center in the axial direction of the driven shaft 7. With this configuration, when the same rotational load torque is applied to both ends of the driven shaft 7, the torsion angles at both ends of the driven shaft 7 become equal, and the rotation of the pair of shutter operation shafts 11 does not shift. The shutter 13 moves up and down smoothly without tilting.

[Second Embodiment]
The shutter opening / closing mechanism 2 of the switch gear 1 is not limited to the above-described first embodiment. For example, the first bevel gear is configured so that the shutter operation shaft 11 rotates clockwise as the drive shaft 5 rotates clockwise. 6, the twisting directions of the teeth of the second bevel gear 8, the shutter driving bevel gear 10, and the shutter driven bevel gear 12 may be determined. In this case, the shutter opening / closing mechanism 2 of the switchgear 1 is configured so that the slider portion 16 of the shutter 13 can slide and move upwardly of the shutter operation shaft 11 by the clockwise rotation of the shutter operation shaft 11. The male screw 14 of the operating shaft 11 and the female screw 15 of the slider portion 16 are left-handed.

  DESCRIPTION OF SYMBOLS 1 ... Switch gear, 2 ... Shutter opening / closing mechanism, 3 ... Circuit breaker, 4 ... Operation handle, 5 ... Drive shaft, 6 ... 1st bevel gear, 7 ... Driven shaft, 8 ... 2nd bevel gear DESCRIPTION OF SYMBOLS 10 ... Shutter driving bevel gear, 11 ... Shutter operating shaft, 12 ... Shutter driven bevel gear, 13 ... Shutter, 14 ... Male screw, 15 ... Female screw, 16 ... Slider part, 17 ... Switch Gear body, 21 ... Bus charging part, 24 ... Worm, 25 ... Worm rack

Claims (4)

In conjunction with the operation of putting the circuit breaker to a predetermined position in the switchgear body, the shutter covering the busbar charging unit in the switchgear body is opened to expose the busbar charging unit, while the circuit breaker is switched to the switch In conjunction with the operation of pulling out from the predetermined position in the gear body, in the shutter opening / closing mechanism of the switch gear configured to cover the bus charging part in the switch gear body with the shutter,
When the direction in which the circuit breaker is inserted into and removed from the switchgear body is the front-rear direction, and the predetermined position side in the front-rear direction is the rear side, a drive shaft extending along the front-rear direction is located at the lower part of the switchgear body. Supported rotatably,
A first bevel gear is fixed to the other end side which is the rear side of the drive shaft,
An operation handle for rotating the drive shaft is detachably attached to one end side of the drive shaft,
A worm is fixed between the one end side and the other end side of the drive shaft,
A worm rack that meshes with the worm is fixed to the lower part of the circuit breaker,
A driven shaft orthogonal to the drive shaft is rotatably supported at the lower part of the switch gear body and on the rear side,
A second bevel gear that meshes with the first bevel gear is fixed to an intermediate portion in the axial direction of the driven shaft,
Shutter drive bevel gears are fixed to both axial ends of the driven shaft,
In the switch gear body and on both axial ends of the driven shaft, shutter operating shafts extending along the vertical direction of the switch gear body and orthogonal to the driven shaft are respectively supported rotatably.
At one end of the shutter operating shaft, a shutter driven bevel gear that meshes with the shutter driving bevel gear is fixed,
The shutter operating shafts that are respectively positioned on both axial ends of the driven shaft are spanned so that the shutter can slide.
The shutter has a slider portion that is slidably engaged with the shutter operation shaft, and a female screw that is screwed into a male screw of the shutter operation shaft is formed on the slider portion.
When the operation handle is rotated, the drive shaft is rotated, and the worm rack is moved along the drive shaft by the worm of the drive shaft, so that the circuit breaker moves in the front-rear direction. And the rotation of the driving shaft is transmitted to the shutter operating shaft via the first bevel gear, the second bevel gear, the shutter driving bevel gear, and the shutter driven bevel gear, and the rotation of the shutter operating shaft. Accordingly, when the shutter is moved up and down and the circuit breaker is moved toward the predetermined position, the shutter exposes the bus charging unit in conjunction with the movement of the circuit breaker, and the circuit breaker When the shutter is moved from the predetermined position, the shutter covers the bus charging unit in conjunction with the movement of the circuit breaker. Am I,
A switchgear shutter opening / closing mechanism characterized by that. The second bevel gear is fixed at the axial center of the driven shaft.
The switchgear shutter opening / closing mechanism according to claim 1. The operation handle has a shaft hole inserted into one end side of the drive shaft,
The shaft hole has a detent groove that is engaged with a detent protrusion provided on one end side of the drive shaft.
The shutter opening / closing mechanism of the switchgear according to claim 1 or 2. The operation handle is formed with a lock pin insertion hole for inserting a lock pin,
An operation handle fixing hole into which a distal end side of a lock pin inserted into the lock pin insertion hole is fitted is formed in a portion of the switch gear body located on one end side of the drive shaft,
In a state where the operation handle is detachably attached to one end side of the drive shaft, the lock pin is inserted into the lock pin insertion hole and the tip end side of the lock pin is engaged with the operation handle fixing hole. To prevent the operation handle from rotating relative to the switchgear body,
The shutter opening / closing mechanism of the switchgear according to any one of claims 1 to 3.

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