JP2010021092A - Switching device - Google Patents

Abstract

The present invention provides a switchgear that does not require a fixed frame and a special stopper in a switch accommodating part that accommodates the switch only by providing a predetermined mechanical interlock mechanism in the switch.
In a mechanical interlock mechanism interlocked with the operation of an opening / closing operation mechanism 5 of a switch 1, a lock portion 14 is composed of three joint portions and two rods, and the interlock is turned on. The lock portion 14 is protruded in a V shape to prevent erroneous insertion and withdrawal, and when turned off, the lock portion 14 is restored to a straight line to allow insertion and withdrawal.
[Selection] Figure 3

Description

  The present invention relates to a switch that can be pulled out and a switchgear that includes a storage unit that stores the switch.

  In order to prevent the conventional switchgear that can be inserted into and pulled out from the main circuit of the switch, if the switch is inserted with the electrode closed, an electric shock accident or contact welding on the load side will occur. In addition, for example, as in the invention described in Patent Document 1, if the switch is not opened, this switch has a mechanical interlock mechanism that cannot be inserted into the main circuit portion of the switchgear. The switch in this document has a structure in which three phases are integrated. Here, the mechanical interlock mechanism is a structure attached to the side of the switch, and the interlock mechanism is configured as a whole by the interference between the stopper attached to the fixed frame for storing the switch and this structure. ing.

Japanese Patent Laid-Open No. 7-227016, paragraph 0019 FIG.

The mechanical interlock mechanism of a switch described in Patent Document 1 is provided with a lock bar that interlocks with the opening and closing of the electrode on the switch side, and interferes with the lock bar on a fixed frame installed on the switch unit side. A stopper is provided to prevent insertion of the switch into the switchgear when the lock rod collides with the stopper when erroneously inserted (that is, when the switch is inserted into the switchgear in the closed state). .
In the case of such a structure, if the size and structure of the switch are changed, there is a problem that a frame with a stopper of a different standard has to be provided. In addition, if the installation direction of the same switch is changed, a new stopper needs to be separately provided in a frame for storing each of the switches, resulting in a problem that the degree of freedom in the installation environment is low.

  The present invention has been made in order to solve the above-described problems, and by simply providing a predetermined mechanical interlock mechanism in the switch, a fixed frame and a switch frame for storing the switch are provided. An object of the present invention is to provide an opening / closing device that does not require a special stopper.

The switchgear according to this invention is
A bus-side conductor connected to the bus, and
A load-side conductor connected to the load;
A current interrupting portion disposed between the conductors to control the electrical switching function between the two;
An opening / closing operation mechanism for opening and closing the movable conductor of the current interrupting unit;
An insulating rod for electrically insulating the movable conductor of the current interrupting portion and the opening / closing operation mechanism;
A spring for applying a load to energize the movable conductor of the current interrupting part;
An insulation frame for supporting the bus-side conductor, load-side conductor, current interrupting section, opening / closing operation mechanism, insulating rod, and spring while electrically insulating;
A mechanical interlock mechanism supported by an insulating frame and interlocked with an opening / closing operation mechanism;
A switch having,
And a switch housing portion having an opening into which the switch is inserted,
In a switchgear provided with
When the current interrupting part is closed, the mechanical interlock mechanism protrudes from the one end face of the switch in a direction perpendicular to the insertion direction, and collides with the edge of the opening part. It is provided with a lock portion that prevents insertion.

In the switchgear according to the present invention, the lock part protrudes in a direction orthogonal to the insertion / drawing direction according to the open / closed state of the electrode of the switch, and the edge of the opening part of the switchgear serves as a stopper. There is no need to prepare a special stopper and attach it to the switchgear. Therefore, there is an effect that the interlock mechanism can be configured simply.
Further, since the lock portion protrudes in a direction orthogonal to the insertion / drawing direction, there is an effect that the lock portion can be used as a stopper at any position on the upper, lower, left and right edges of the opening / closing device.
In addition, since the switch can be stored in the vertical direction, the horizontal direction, and the depth direction with respect to the switchgear, it is possible to provide an inexpensive switchgear with an interlock mechanism with a high degree of freedom in the installation environment. There is.

Embodiment 1 FIG.
The switch 1 according to the first embodiment of the present invention and the switch device 31 configured to house the switch will be described below with reference to the drawings.
FIG. 1 is a side sectional view of the switchgear 31. The switchgear 31 includes a case 40 that houses the entire device, a switcher storage unit 41 that stores each switch 1, a bus 32 that is introduced from the outside of the switchgear 31 and is connected to each switch 1, It is comprised with the load side conducting wire 33 connected to the switch 1.
The switch housing part 41 is arranged vertically in the case 40, and the switch 1 can be inserted and pulled out from the front left side of the case 40 through the opening 30 of the switch housing part 41. The switch 1 may be arranged in the lateral direction in the case 40.
2A is a side sectional view showing the switch 1 according to Embodiment 1 of the present invention, and FIG. 2B is a front view showing a state before the mechanical interlock mechanism is attached. The switch 1 is disposed between the bus-side conductor 2 connected to the bus 32, the load-side conductor 3 connected to the load-side conductor 33, the bus-side conductor 2 and the load-side conductor 3, and between the two A current interrupting unit 4 that controls the electrical switching function of the current interrupting unit, an opening / closing operation mechanism 5 for driving the movable conductor 9 of the current interrupting unit 4, and a movable conductor 9 and an opening / closing operation mechanism 5 of the current interrupting unit 4 An insulating rod 6 for electrical insulation; a spring 7 for applying a load to the movable conductor 9 of the current interrupting portion 4 for energizing the current; a bus-side conductor 2 and a load-side conductor 3; It comprises an insulating frame 8 for supporting the opening / closing operation mechanism 5, the insulating rod 6 and the spring 7 while being electrically insulated.
The current interrupting unit 4 is a vacuum switch tube. The opening / closing operation mechanism 5 is driven by applying a current to the electromagnetic coil. The bus-side conductor 2 and the load-side conductor 3 are fixed to the insulating frame 8 via the metal fitting 10, and the opening / closing operation mechanism 5 is fixed to the insulating frame 8 via the L-shaped frame 11. This constitutes an independent switch 1 for one phase.
The switch 1 satisfies the predetermined electrical and mechanical requirements required for the switch with this simple structure. The opening / closing operation mechanism 5 is a simple linear drive that is directly connected to the current interrupting unit 4 without using a link mechanism. The switch 1 is inserted into a simple switch 30 or a switch storage part 41 provided with a guide and connected to the main circuit for use.

Next, a mechanical interlock mechanism will be described.
3 and 4 show the vicinity of the opening portions of the switch 1 and the switch housing portion 41 according to the present embodiment. Both figures show the switch 1 in which a mechanical interlock mechanism as a safety device is attached as a component in addition to the opening 30 of the switch housing part 41 of the switch 31. FIG. Is a closed state, and FIG. 4 shows a case where the current interrupting unit 4 is in an open state. Mounting brackets are omitted.
In FIG. 3, when the switch 1 is pulled out from the switchgear 31, the right side of the opening 30 provided in the switchgear 31 is inside the switchgear 31 and the left is outside.
The mechanical interlock mechanism includes a connecting part 12 connected to the end of the opening / closing operation mechanism 5, a lock arm 13 connected to the connecting part 12 and disposed along the insulating frame 8, and connected to the lock arm 13. It is constituted by a lock part 14 that protrudes or releases the protrusion in conjunction with the operation of the opening / closing operation mechanism 5.
The “interlock mechanism” used in this specification is composed of the above-described mechanical interlock mechanism attached to the switch and the opening / closing edge of the switchgear. Specifically, it refers to a mechanism that restricts insertion or withdrawal of the switch 1 from / to the switching device 31 by interference with a mechanical interlock mechanism and an opening edge, or releases the regulation. In addition, the term “interlock” is simply used when referring to ON / OFF as a function of the mechanical interlock mechanism.
Details of the mechanical interlock mechanism will be described.
As shown in FIG. 4, the lock portion 14 includes two rods 144 and 145 and joint portions 141, 142, and 143 indicated by ◯, and is bent at the joint portion. The joint portion 143 at the right end of the figure is fixed to the insulating frame 8. The rod 145 can rotate around the joint 143. The intermediate joint portion 142 is not fixed anywhere except that one end of the rod 144 and one end of the rod 145 are rotatably connected. The joint portion 141 is rotatably connected to one end of the lock arm 13 and one end of the rod 144, and is slidably mounted on the insulating frame 8 in the left-right direction in FIG. As a result, when the lock arm 13 moves to the right from the state of FIG. 4, the lock portion 14 is interlocked and protrudes downward as shown in FIG. 3, and the interlock is turned on.
On the other hand, when the lock arm 13 moves to the left from the state shown in FIG. 3, the lock portion 14 becomes almost linear and the interlock is turned off.
As shown in FIG. 4, the lock portion 14 does not extend completely horizontally even when the interlock is off, and is slightly bent downward (that is, the joint portion 142 is farther from the insulating frame than the joint portion 143). Still). This arrangement is for facilitating the operation of the joints 141, 142, 143 when the interlock is subsequently turned on.
Since the lock arm 13 is close to the high-voltage charging unit (the bus-side conductor 2, the load-side conductor 3, and the current interrupting unit 4), it is necessary to maintain a predetermined insulation with the connecting component 12. Therefore, insulation is maintained by forming the lock arm 13 with an insulator. Here, the lock arm 13 is made of an insulator, but the insulation may be maintained by making the connecting part 12 an insulator.

Next, a method for inserting and pulling the switch 1 into and from the switch storage part 41 of the switchgear 31 will be described.
The switch 1 in FIG. 3 is in a closed state, and is in a state before being inserted into the switch storage part 41 of the switch device 31. At this time, the interlock interlocked with the operation of the opening / closing operation mechanism 5 is on. When the switch 1 is slid rightward from the opening 30 to be inserted into the switch storage part 41 of the switchgear 31 (on the right side of the opening 30), the lock part 14 hits the edge of the opening 30. Cannot insert. If the switch 1 is mistakenly inserted into the switchboard with the electrodes closed, an electric shock accident or contact welding may occur, but this can be prevented by the interlock mechanism.
As shown in FIG. 4, the electrode is opened by the opening / closing operation mechanism 5 to turn off the interlock, and then the switch 1 is inserted to a predetermined position in the switch housing portion 41 of the switch device 31 and then the electrode of the switch 1 is closed. Then, as shown in FIG. 5, the lock portion 14 protrudes and interferes in the lock receiver 25 provided in the switch housing portion 41.
That is, although not shown, the lock receiver 25 is fixed to the case 40 of the switchgear 31 and can pass through the end of the lock receiver 25 in a state where the lock portion 14 extends straight, but the lock portion 14 has a V-shape. It cannot pass when it is protruding.
As a result, the switch 1 cannot be pulled out of the switch device 31 when the electrode of the switch 1 is closed. When pulling out, the switch 1 may be opened to turn off the interlock and pull out.

As described above, in the switchgear 31 according to the first embodiment, the lock portion 14 protrudes in a direction orthogonal to the insertion / drawing direction in accordance with the open / closed state of the electrode of the switch 1 and the opening of the switchgear 31. Since the edge of the portion 30 serves as a stopper, it is not necessary to prepare a special stopper separately and attach it to the switchgear 31. Therefore, the interlock mechanism can be configured simply.
Moreover, since the lock | rock part 14 protrudes in the direction orthogonal to the insertion / drawing-out direction, it can be used as a stopper at any position on the upper, lower, left and right edges of the opening 30 of the opening / closing device 31. That is, the interlock mechanism can be configured to be housed in a state where it is rotated 90 degrees, 180 degrees, or 270 degrees about the longitudinal direction and center line (shown by a one-dot chain line) of the switch 1 shown in FIG. The edge of the opening 30 can be configured as a stopper.
Moreover, since the switch 1 can be accommodated in the vertical direction, the horizontal direction, and the depth direction of the switchgear 31, the switchgear 31 with an interlock mechanism having a high degree of freedom in the installation environment can be provided at low cost.
Further, by providing the lock receiver 25 that interferes after insertion, it is possible to prevent an erroneous operation in which the switch 1 is mistakenly taken out from the switch 31 while the electrode of the switch 1 is closed.
Further, the current interrupting portion 4, the switching operation mechanism 5, the insulating rod 6, the spring 7, the bus-side conductor 2, and the load-side conductor 3, which are the main components of the switch 1, are fixed to one side of the insulating frame 8. Since the mechanical interlock mechanism is disposed on the opposite side of the current interrupting portion 4, the mechanical interlock mechanism does not interfere with the movable portion from the movable conductor 9 to the operating mechanism 5 of the current interrupting portion 4, and the bus-side conductor 2, load It can be configured without affecting the insulation between the side conductors 3 (that is, both ends of the current interrupting portion) and between the load-side conductor 3 and the operation mechanism 5 and without greatly increasing the external dimensions of the switch 1.

Embodiment 2. FIG.
FIG. 6 shows the switch 101 in a closed state and the vicinity of the opening 30 of the switch housing 41 of the switch 101 according to the second embodiment of the present invention, and the interlock is in an on state. FIG. 7 shows the vicinity of the opening part 30 of the switch 101 and the switch housing part 41 in the open state, and the interlock is in the off state.
8A and 8B are a perspective view and a side sectional view of the lock portion 114, respectively.
Since the structure of the switch 101 excluding the mechanical interlock mechanism is the same as that of the switch 1 of the first embodiment, common portions will be described using the same reference numerals.
6, 7, 8 (a) and 8 (b), the mechanical interlock mechanism is connected to the connection part 112 having one end connected to the end of the opening / closing operation mechanism 5 and to the other end of the connection part 112. The lock arm 113 is disposed along the insulating frame 8, and the lock portion 114 is mainly composed of a lock rod 17 that converts the left and right movements of the lock arm 113 into vertical movements.
The connecting part 112 is supported at the point indicated by the mark ● in FIG. 6 by the support shaft 15 of the metal fitting 16 fixed to the insulating frame 8 independently of the operation of the opening / closing operation mechanism 5. Although not shown, the connecting part 112 has an elongated hole in the longitudinal direction near the mark ● so that the support shaft 15 can slide. This hole is for securing “play” so that the end of the opening / closing operation mechanism 5 can linearly move left and right. This “play” may be provided at the portion of the connection point between the opening / closing operation mechanism 5 and the connecting part 12.
Since there is play in the hole, the connecting part 112 can be rotated while sliding around the mark ● in conjunction with the operation of the opening / closing operation mechanism 5. As a result, the lock arm 113 moves in the opposite direction to the operation direction of the opening / closing operation mechanism 5.
FIG. 8 is a perspective view of the lock portion 114.
The lock portion 114 has a spring 18 wound around a shaft 45 supported through a hole 46 formed in the metal fitting 20 fixed to the end of the insulating frame 8, and a lock rod having a notch 171 at the lower end of the shaft 45. 17 is attached.
As shown in FIG. 8A, the lock rod 17 has a shape in which a part of a quadrangular prism is cut obliquely. The notch 171 is provided on the left side surface of the lock rod 17 in FIG. FIG. 8B is a side view of the lock rod 17. A broken line in FIG. 8B shows a cross section of a notch provided in front of the lock rod 17. Although not shown, a member for supporting the shaft from falling off is attached to the upper end of the shaft 45.
In FIG. 6, since the switch 101 is in a closed state, the lock arm 113 is pulled leftward in the figure, and the lock bar 17 protrudes downward due to the force extending up and down of the spring 18.
On the other hand, FIG. 7 shows a state in which the switch 101 is opened. When the opening / closing operation mechanism 5 opens the electrode of the switch 101, the lower end of the connecting part 112 moves rightward with the support shaft 15 as a fulcrum, and the lock arm 113 connected to the connecting part 112 is also pushed rightward in the figure. . When the tip of the lock arm 113 pushes the notch 171 of the lock rod 17 from the left to the right in the figure, the spring 18 attached to the lock rod 17 is contracted, the lock rod 17 is lifted upward, and the interlock is turned off.
This is because the shaft 45 can only move up and down by giving the mounting bracket 20 a predetermined thickness.
The distal end of the lock arm 113 may not be notched as shown in FIG.
However, the upper end of the tip is cut diagonally, the surface of the cutout portion 171 of the lock rod 17 and the surface of the cutout portion of the tip of the lock arm 113 are brought close to each other in parallel, and the tip of the lock arm 113 is If the notch 117 is pressed from the side, the lock rod 17 can be smoothly pushed upward.
As shown in FIG. 8A, both end portions of the lock rod 17 are left without being cut out. If the entire lock rod 17 is cut diagonally, the risk of erroneous insertion of the switch 101 into the switch housing portion 41 with the electrode of the switch 101 closed can be prevented, but erroneous operation during pulling out cannot be prevented. Because. That is, even if the interlock is on and the electrode of the switch 101 is closed, when the switch 101 is pulled out, the notch directly collides with the edge of the storage unit or the lock receiver 25 of the switch storage unit 41. This is because the spring 18 may be contracted to raise the lock rod. By leaving the vertical portions on the left and right of the notch portion 171 of the lock rod 17, even if the switch 101 collides, the lock rod 17 is not pushed upward by that force.

According to such a configuration, when the switch 101 is closed and an attempt is made to insert it horizontally into the opening 30, the lock rod 17 and the opening 30 interfere as shown in FIG. Insertion into 41 is physically blocked. When the switch 101 is open, as shown in FIG. 7, the lock rod 17 is pushed up by the lock arm 113 to a position higher than the edge of the opening 30, so that the switch does not interfere with the edge. 101 can be inserted into the switch housing 41 of the switchgear.
5 corresponds to the lock portion 114 in this embodiment, and therefore, when the switch 101 is inserted into the switch housing portion 41 and then closed, as in the first embodiment, the lock portion 14 is locked. By providing the lock receiver 25 for receiving the rod 17, the effect of preventing erroneous withdrawal can be obtained.
As described above, the interlock mechanism of the switchgear according to the second embodiment also has the same effect as the interlock mechanism of the switchgear 31 according to the first embodiment.

Embodiment 3 FIG.
Based on FIG.10 and FIG.11, the switch 201 which concerns on Embodiment 3 of this invention and the switch 231 comprised by accommodating this are demonstrated below.
FIG. 10 is a side sectional view of the opening / closing device 231. The switchgear 231 includes a case 40 that houses the entire device shown in the figure, a switcher storage unit 241 that stores each switch 201, and a bus 32 that is introduced from the outside of the switchgear 231 and connected to each switch 201. And a load side conductor 33 connected to each switch 201.
The switch housing portion 241 is arranged in the vertical direction in the case 40, and the switch 201 can be inserted and pulled out from the front surface of the case 40 through the opening 30 of the switch housing portion 241. A structure in which the containers 201 are arranged in the horizontal direction may be used.
FIG. 11 is a cross-sectional view of the vicinity of the opening of the switch 201 and the switch storage portion 241 according to the third embodiment. In the figure, the switch 201 is inserted into the switch 231 in the vertical direction from the current interrupting unit 4 to the switch operating mechanism 5. Parts constituting the switch 201 are basically the same as those in the first and second embodiments.
The L-shaped lock arm 213 is supported at the points indicated by ● by the support shaft 15 of the metal fitting 16 fixed to the insulating frame 8 independently of the operation of the opening / closing operation mechanism 5. In the first embodiment, the connecting part 12 and the lock arm 13 are independent parts and are used by being connected to each other. However, in this embodiment, it is an L-shaped part. Although not shown, the L-shaped lock arm 213 has an elongated hole in the longitudinal direction in the vicinity of the mark ● so that the L-shaped lock arm 213 can rotate while sliding around the support shaft 15.
This hole is for securing “play” so that the end of the opening / closing operation mechanism 5 can linearly move left and right. This “play” may be provided at a circled portion of the connection point between the opening / closing operation mechanism 5 and the L-shaped lock arm 213.
In FIG. 11, since the switch 201 is in a closed state, the lock portion 214 of the L-type lock arm 213 is lowered in the downward direction (a direction substantially orthogonal to the insertion / drawing direction).
On the other hand, FIG. 12 shows a state where the switch 201 is opened. With the opening / closing operation of the opening / closing operation mechanism 5, the L-shaped lock arm 213 rotates about the support shaft 15, and the lock portion 214 is raised upward as shown in the figure.

According to such a configuration, when the switch 201 is placed in the vertical direction with the electrodes closed and is to be inserted into the switch storage unit 241 via the opening 30, the lock unit 214 and Interference with the edge of the opening 30 can physically block the opening / closing device 231 from being inserted. When the switch 201 is open, the switch 201 is inserted without the interference of the lock part 214 of the L-type lock arm 213 with the edge of the opening 30 of the switchgear 231 as shown in FIG. Can do.
Further, when the switch 201 is inserted into the switch storage part 241 and then closed, the lock receiver 36 that interferes with the lock part 214 of the L-shaped lock arm 213 can be provided to prevent erroneous pull-out.
Further, by adopting a simple structure in which the lock portion 214 of the mechanical interlock mechanism protrudes in a direction orthogonal to the insertion direction, the switch 201 itself is stored in the height direction and the depth direction of the switch device 231. Therefore, the interlocking opening / closing device 231 having a high degree of freedom in the installation environment can be provided at low cost.
As described above, also in this embodiment, the same effects as those in Embodiments 1 and 2 can be obtained.
Furthermore, since the L-shaped lock arm 213 is a single component, the number of components can be reduced compared to the first and second embodiments.

Embodiment 4 FIG.
FIG. 13 is a cross-sectional view showing the vicinity of the opening of the switch 1 and the switch storage part 341 according to Embodiment 4 of the present invention. The structure of the mechanical interlock mechanism of the switch 1 is the same as that of the first embodiment. In this embodiment, a feature is given to the switch housing portion 341 side. A lock guide 39 is provided in the switch housing portion 341. The lock guide 39 may be a flat plate or a U-shaped groove, and is provided so as to extend a predetermined length in the switch housing portion.
In FIG. 13, during insertion or withdrawal of the switch 1, the lock portion 14 does not protrude in a direction perpendicular to the insertion direction because the lock guide 39 is located directly below. Unless the lock part 14 protrudes in the direction orthogonal to the insertion direction, the electrode of the interlocking switch 1 is not closed.
Therefore, if the predetermined length is appropriately set, the electrode will not be closed due to an erroneous operation until the switch 1 is completely stored in the switch storage portion 341. That is, it is only necessary to arrange the lock guide 39 so that the lock portion 14 can protrude only at the place where it is completely inserted or pulled out.
Such a lock guide can also be applied to the switch 201 of the third embodiment.

As described above, in this embodiment, in addition to the effects of the first embodiment, the state in which the electrode of the switch 1 is opened can be maintained throughout the entire process of inserting and pulling out the switch 1.
Therefore, the safety of work can be ensured in the first embodiment or more.

Embodiment 5 FIG.
FIG. 14 is a side sectional view (left) and a front view (right) of a switch 301 according to Embodiment 5 of the present invention. In the figure, the mechanical interlock mechanism is configured in the same manner as in the first embodiment. The insulating frame 108 that insulates the switch 301 from the surroundings has a U-shaped structure.
According to such a configuration, since the U-shaped side surface serves as an insulation barrier, the electrical insulation performance from the load-side conductor 3 to the operation mechanism 5 or the connecting component 12 via the lock arm 13 is improved.
Furthermore, the insulating frame 108 has a U-shaped structure, so that the separation distance between the switches 108 adjacent in the horizontal direction can be shortened.
In addition, since the frame structure is U-shaped, the strength of the insulating frame 108 can be improved. This U-shaped insulating frame 108 can also be used in all other embodiments.

Embodiment 6 FIG.
FIG. 15 shows a switch 401 according to the sixth embodiment of the present invention. In the figure, the components constituting the mechanical interlock mechanism are not shown, but are configured in the same manner as any one of the first to third embodiments. In the figure, the switch 401 is inserted into and pulled out of the switch storage section in the horizontal direction. Therefore, the bus-side conductor 2 and the load-side conductor 3 are bent in the insertion direction, that is, the right direction in the drawing, and a contact 37 is attached to the tip thereof.
According to such a configuration, since the contact 37 can be pulled out together with the switch 401, maintenance and inspection can be performed together with the inspection of the switch 401.
FIG. 16 also shows the switch 1 according to the sixth embodiment of the present invention. Also in this figure, the components constituting the mechanical interlock mechanism are not shown, but are configured in the same manner as any one of the first to third embodiments. In the figure, the switch 1 is inserted into and pulled out from the switchgear in the vertical direction. A contact 27 is attached to the tips of the bus-side conductor 2 and the load-side conductor 3 in FIG.
The contact 27 can be used in all other embodiments.

It is a sectional side view of the switchgear of Embodiment 1 of the present invention. It is the sectional side view and front view of a part except a mechanical interlock mechanism among the switches of Embodiment 1 of this invention. It is a sectional side view which shows the switch of a closed state among the switchgears of Embodiment 1 of this invention, and the opening vicinity of a switch accommodating part. It is a sectional side view which shows the switch of an open state among the switchgears of Embodiment 1 of this invention, and the opening vicinity of a switch accommodating part. It is a sectional side view which shows the state closed after inserting a switch into the switch accommodating part among the switchgears of Embodiment 1 of this invention. It is a sectional side view which shows the switch of a closed state among the switchgears of Embodiment 2 of this invention, and the opening vicinity of a switch accommodating part. It is a sectional side view which shows the switch in an open state among the switchgears of Embodiment 2 of this invention, and the opening vicinity of a switch accommodating part. It is the perspective view and side sectional view of the lock rod of Embodiment 2 of this invention. FIG. 6 is a perspective view of a metal fitting 16. It is a sectional side view of the switchgear of Embodiment 3 of the present invention. It is a sectional side view which shows the switch of a closed state among the switchgears of Embodiment 3 of this invention, and the opening vicinity of a switch accommodating part. It is a sectional side view which shows the switch in an open state among the switchgears of Embodiment 3 of this invention, and the opening vicinity of a switch accommodating part. It is a sectional side view which shows the switch of an open state among the switchgears of Embodiment 4 of this invention, and the opening vicinity of a switch accommodating part. It is the sectional side view and cross-sectional view of the switch which comprises the switchgear of Embodiment 5 of this invention. It is a sectional side view which shows the horizontal switch which comprises the switchgear of Embodiment 6 of this invention. It is a sectional side view which shows the vertical switch which comprises the switchgear of Embodiment 6 of this invention.

Explanation of symbols

1, 101, 201, 301 Switch, 2 Bus side conductor, 3 Load side conductor,
4 Current interrupting part, 5 Opening / closing operation mechanism, 6 Insulating rod, 7 Spring, 8 Insulating frame,
9 movable side conductor, 10 metal fittings, 11 L-shaped frame, 12, 112 connecting parts,
13,113 lock arm, 213 L-type lock arm,
14, 114, 214 lock part, 141, 142, 143 joint part,
144, 145 rod, 15 support shaft, 16 bracket, 17 lock rod,
171 Notch, 18 spring, 20 bracket, 25, 36 lock receiver,
27,37 contact, 30 opening, 31,131 switchgear, 32 busbar,
33 Load side conductor, 34, 36 Lock receiver, 39 Lock guide. 40 cases,
41,241 Switch housing, 45 shaft, 46 holes.

Claims (8)

A bus-side conductor connected to the bus, and
A load-side conductor connected to the load;
A current interrupting portion disposed between the conductors and controlling an electrical switching function between the two;
An opening / closing operation mechanism for opening / closing the movable conductor of the current interrupting unit;
An insulating rod for electrically insulating the movable conductor of the current interrupting portion and the opening / closing operation mechanism;
A spring for applying a load for current conduction to the movable conductor of the current interrupting portion;
An insulating frame for supporting the bus-side conductor, the load-side conductor, the current interrupting portion, the opening / closing operation mechanism, the insulating rod, and the spring while electrically insulating;
A mechanical interlock mechanism supported by the insulating frame and interlocked with the opening / closing operation mechanism;
A switch having,
And a switch housing portion having an opening into which the switch is inserted,
In a switchgear provided with
The mechanical interlock mechanism protrudes in a direction perpendicular to the insertion direction from one end surface of the switch when the current interrupting unit is closed, and collides with an edge of the opening, thereby An opening / closing device comprising a lock portion for preventing insertion into a switch housing portion. 2. The switchgear according to claim 1, wherein the switch accommodating part includes a member that restricts movement of the lock part in a state where the switch is accommodated. The mechanical interlock mechanism connects the lock arm that moves forward and backward along the insulating frame in conjunction with the closing operation and the opening operation of the opening / closing operation mechanism, and the ends of the two rods so as to be able to bend. One end of the connected body is fixed to the tip of the lock arm and the other end is rotatably fixed to the end of the insulating frame, and the connection body protrudes in a V shape as the lock arm advances. The switchgear according to claim 1 or 2, further comprising a lock portion. The lock portion is composed of an L-shaped arm that rotates about a fulcrum provided at an intermediate point, and rotates around the fulcrum in accordance with a closing operation of the opening / closing operation mechanism, so that the switch of the switch The switchgear according to claim 1 or 2, wherein one end of the arm protrudes in a direction orthogonal to a direction of insertion into the storage portion. The mechanical interlock mechanism includes a lock arm interlocked with the current interrupting unit,
The lock portion includes a spring and a lock rod that moves in a direction perpendicular to the insertion direction of the switch as the spring expands and contracts,
When the current interrupting portion is closed, the lock arm is isolated from the lock rod, and when the current interrupting portion is open, the lock arm presses the lock rod to contract the spring and The switchgear according to claim 1 or 2, wherein insertion is possible. A lock guide is provided in the switch housing portion for restricting the lock portion from protruding until the loading and unloading is completed when the switch is put in and out of the switch housing portion via the opening of the switch device. The switchgear according to claim 3 or 4, characterized by the above. The switchgear according to any one of claims 1 to 6, wherein a contact is provided on the conductor connected to the bus and the conductor connected to the load. The switchgear according to any one of claims 1 to 7, wherein the insulating frame is U-shaped.

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