JP5547951B2 - Electrical circuit housing - Google Patents

Description

  The present invention relates to an electric circuit housing case in which an electric circuit mounting case on which electric circuit related parts are mounted is detachably stored.

  Usually, a housing in which a box is removably accommodated is provided with a pull-out prevention device that alerts the operator to prevent the operator from pulling out the box from the housing. For example, Patent Document 1 discloses a pull-out prevention provided with a restricting unit that is provided on the housing side and restricts the withdrawal of the box, and a restriction release unit that is provided on the box side and releases the restriction by the restricting unit. An example device is disclosed.

  FIG. 7 is a diagram showing a schematic configuration of an extraction preventing apparatus based on the prior art such as Patent Document 1 and an example of its operation principle. As shown in the top view of FIG. 7 (a) and the side view of FIG. 7 (b), the pull-out prevention device 50 includes a side surface of the box body 6 parallel to the insertion / extraction direction of the box body 6, Provided in a gap between the side surface of the housing 5 facing the side surface, and includes a lock lever 51 attached to the housing 5 side and a lock release lever 61 attached to the box body 6 side. The

  The lock lever 51 is rotatably attached to a support shaft 52 provided on the side surface of the housing 5, and an end thereof extends to the front surface side of the housing 5. And the extension part of the lock lever 51 including this end part is always urged upward by a spring member (not shown), abuts against a stopper 53 provided on the side surface of the housing 5, and rotates upward. Is regulated. In addition, an inclined surface portion 511 descending toward the front surface side of the housing 5 is formed at an upper portion of the extended end portion of the lock lever 51, and an inclined surface portion 511 is disposed on the rear surface side of the housing 5 of the inclined surface portion 511. And a collar portion 512 that is recessed substantially vertically from the upper portion.

  On the other hand, the lock release lever 61 is rotatably attached to a support shaft 62 provided on the side surface of the box body 6 and is held substantially horizontally during normal times. Further, a stopper 63 for restricting the downward rotation of the extension portion of the lock release lever 61 is provided on the side surface of the box body 6.

  When the operator inserts the box 6 into the housing 5, the pin 64 protruding and attached to a predetermined position on the side surface of the box 6 comes into contact with the inclined surface 511 of the lock lever 51, and the lock lever 51 is pressed. Pushed down. Further, as the box body 6 is inserted into the back, the pin 64 reaches the rear part of the collar portion 512 of the lock lever 51, and the box body 6 is loaded at a predetermined position in the housing 5. Stop at.

  Next, when the operator pulls out the box 6 from the housing 5, the pin 64 of the box 6 is locked to the flange portion 512 of the lock lever 51, and the extraction operation of the box 6 is forced to stop. The At this time, the rear end portion on the rear surface side of the lock release lever 61 is configured to contact the upper portion of the inclined surface portion 511 of the lock lever 51 (see FIG. 7B). Then, when the operator lifts the front end portion of the lock release lever 61 upward, the inclined surface portion 511 of the lock lever 51 is pressed downward by the rear end portion of the lock release lever 61. As a result, the flange 512 of the lock lever 51 is released from the locking of the pin 64 (see FIG. 7C), and the box 6 is pulled out from the housing 5.

  According to the pull-out preventing device 50 as described above, when the box body 6 is pulled out from the housing 5, the pull-out operation of the box body 6 is temporarily stopped before the box body 6 is pulled out. Therefore, it is possible to prevent an accident in which the operator pulls out the box 6 by mistake and drops it from the housing 5 to damage or scatter the box 6 and the articles stored therein.

JP-A-11-213215

  By the way, in plants such as factories, electrical circuit mounting cases (boxes) on which electrical circuit related parts such as power conversion devices and various control devices are mounted are often stored in multiple stages in a housing such as a rack. . And, the electrical circuit mounted in the electrical circuit mounting case is often subjected to regular maintenance and inspection. In that case, it is necessary to improve the work efficiency of the maintenance inspection.

  When trying to improve the efficiency of maintenance and inspection work for the electric circuit mounted on the electric circuit mounting case, the position where the electric circuit mounting case is extracted from the housing and stopped is, for example, the mounting position of the electric circuit component to be checked It is desirable to always have the same position and an appropriate position.

  In the box and the case disclosed in Patent Document 1 and the like, the position of the box can be aligned with the position for preventing the box from being pulled out, but the position is not necessarily an appropriate position for maintenance and inspection work. . From the operator's point of view, it was unclear where the appropriate position to extract and stop the box (electric circuit mounting case) was.

  Therefore, when the maintenance / inspector pulls out the electric circuit mounting case from the housing, the maintenance / inspector cannot stop or confirm the electrical circuit mounting case at an appropriate position for the maintenance / inspection work. For this reason, it has been impossible to improve the efficiency of maintenance inspection work, such as standardization of maintenance inspection work.

  Then, this invention is providing the electrical circuit housing | casing housing | casing which can aim at the efficiency improvement of a maintenance inspection work.

  The electrical circuit housing case of the present invention has an electrical circuit mounting case on which an electrical circuit is mounted and at least one open side surface, and stores the electrical circuit mounting case so that it can be inserted and removed in a direction substantially perpendicular to the open side surface. And a supporting housing that supports the structure. The electrical circuit mounting case includes a front panel provided on a side surface corresponding to an open side surface, a case side plate provided on a side surface adjacent to the front panel, and a support shaft attached substantially vertically to the outside of the case side plate. A support lever is mounted on the outside of the case side plate and on the inside of the case side plate. A guide plate having an opening that is elongated from the side to the back side, and the protrusion provided on one end of the lock lever to protrude outward from the case side plate is an electric circuit mounting case. Is inserted into and removed from the guide plate and moved back and forth, and the other end of the lock lever penetrates through the slit hole provided in the front panel. Protrude outward with insertion of the electrical circuit mounting case, it moves through the slit up and down, characterized in that.

  Furthermore, if the first recess is formed in the vicinity of the entrance of the opening as the shape of the opening, and the second recess is formed between the first recess and the innermost portion, the electric circuit mounting case When the is pulled out from the housing, the protrusions provided on the lock lever are locked in the respective recesses, and the operation of extracting the electric circuit mounting case stops. Accordingly, in the present invention, the first concave portion is used as a separation position setting section that informs the operator of the separation position of the electric circuit mounting case, and the second opening is inspected for setting an appropriate extraction position for maintenance inspection. It can be used as a position setting unit.

  Further, the shape of the opening provided in the guide plate is such that when the guide plate is attached to the housing side plate, the position of the second recess is higher than the position of the first recess, and the second recess It forms so that the position of the innermost part of an opening part may become higher than a position. In that case, the end of the lock lever provided with the protrusion moves back and forth along the opening, and the other end of the lock lever moves up and down in the slit hole provided in the front panel. . Therefore, the operator knows the position of the end of the lock lever provided with the protrusion, that is, the position where the electric circuit mounting case is inserted and removed, by the position of the end of the lock lever that moves up and down in the slit hole. be able to.

  ADVANTAGE OF THE INVENTION According to this invention, the electrical circuit storage housing | casing which can aim at the efficiency improvement of a maintenance inspection work is provided.

The perspective view which showed the example of schematic structure of the electric circuit storage housing | casing which concerns on this embodiment. The figure which showed the example of schematic structure of the case position setting mechanism part used with the electrical circuit storage housing | casing which concerns on this embodiment. (A) A diagram showing the relative positional relationship between the electric circuit mounting case and the guide plate in a state where the electric circuit mounting case is mounted at the operating position, and (b) the position of the lock lever operating portion within the slit hole. Figure. (A) A diagram showing a relative positional relationship between the electric circuit mounting case and the guide plate in a state where the electric circuit mounting case is mounted at the inspection position, and (b) a position of the lock lever operating portion in the slit hole. Figure. (A) A diagram showing the relative positional relationship between the electrical circuit mounting case and the guide plate in a state where the electrical circuit mounting case is out of the inspection position, and (b) a diagram showing the position of the lock lever operating portion within the slit hole. . (A) A diagram showing the relative positional relationship between the electric circuit mounting case and the guide plate in a state where the electric circuit mounting case is mounted at the disengagement position, and (b) a position of the lock lever operating portion in the slit hole. Figure. The figure which showed the schematic structure of the pull-out prevention apparatus based on a prior art, and the example of the operation principle.

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

  FIG. 1 is a perspective view showing an example of a schematic structure of an electric circuit housing case according to the present embodiment. As shown in FIG. 1, an electrical circuit housing case 1 according to an embodiment of the present invention is configured by housing electrical circuit mounting cases 3 in a support housing 2 in multiple stages.

  Here, one side surface of the support housing 2 is an open surface (open side surface 10), and two side surfaces adjacent to the open side surface 10 are provided with a housing side plate 2 a, and the opposite surface of the open side surface 10. Is provided with a case back plate (2b: see FIG. 2), and a top plate 2c and a bottom plate 2d are provided on the upper and lower surfaces of the support case 2, respectively. A plurality of case-side slide rails 21 arranged in the horizontal direction are attached at equal intervals in the vertical direction at positions facing each other inside the two case-side plates 2a.

  The housing side plate 2a, the housing back plate 2b, the top plate 2c, and the bottom plate 2d may be appropriately provided with ventilation holes, and the ventilation holes are provided with cooling fans or normal air. The filter of etc. may be attached.

  On the other hand, a front panel 32 is provided on one side surface of the electric circuit mounting case 3, and a handle 33 for the operator to lift, push, and pull the electric circuit mounting case 3 is provided on the front panel 32. Is provided. In addition, case-side slide rails 31 are respectively attached to the outer sides of the two case-side plates 3 a adjacent to the front panel 32 of the electric circuit mounting case 3.

  The case-side slide rail 31 engages with the upper side of the housing-side slide rail 21 when the electric circuit mounting case 3 is accommodated in the support housing 2. That is, the electric circuit mounting case 3 is slidably supported by the housing-side slide rail 21 and can be freely inserted and removed from the open side surface 10 of the support housing 2.

  Although not shown in the drawings, elements, a substrate, a wiring material, a switch, a terminal, a heat dissipation material, and the like constituting a power conversion circuit and various control circuits are mounted inside the electric circuit mounting case 3. Shall.

  FIG. 2 is a diagram showing an example of a schematic configuration of a case position setting mechanism unit used in the electric circuit housing case 1 according to the present embodiment, and (a) shows the support case 2 and the electric circuit mounting. The top view of the case position setting mechanism unit including the case 3, (b) is a front view of the electric circuit mounting case 3 for one stage, and (c) is the electric circuit mounting case 3 for one stage and the case position setting. It is a side view of a mechanism part.

  As shown in FIG. 2 (a), the case position setting mechanism 30 is provided in the gap between the case side plate 3a and the housing side plate 2a facing the case side plate 3a, and is attached to the case side plate 3a. And a guide plate 22 mounted in parallel with a small gap on the housing side plate 2a.

  Here, the housing side slide rail 21 is attached immediately below the guide plate 22 of the housing side plate 2a, and the case side slide rail 31 is attached below the lock lever 35 of the case side plate 3a. . At this time, the lower surface of the case side slide rail 31 is engaged with the upper surface of the housing side slide rail 21. Therefore, the electric circuit mounting case 3 is supported by the case side slide rail 31 and can freely slide in the direction of the case side slide rail 31.

  As shown in FIG. 2A or 2B, a support shaft 353 is attached to the outside of the case side plate 3a substantially vertically, and a flat bar-like lock lever 35 is rotatably supported by the support shaft 353. At this time, one end (the end opposite to the front panel 32) of the lock lever 35 is provided with a protrusion that is substantially perpendicular to the plane on which the lock lever 35 rotates and protrudes toward the guide plate 22 side. ing. In this specification, this protrusion is referred to as a lock lever operating portion 352. Further, the other end of the lock lever 35 (the end on the front panel 32 side) protrudes from the front panel 32 through a vertically elongated slit hole 321 provided in the front panel 32. Here, an end portion of the lock lever 35 protruding outside the front panel 32 is referred to as a lock lever operation portion 351 in this specification.

  The names of the lock lever operation part 351 and the lock lever action part 352 are derived from the fact that the lock lever action part 352 of the lock lever 35 is raised and lowered by the operation of the operator raising and lowering the lock lever operation part 351. Yes.

  Here, it is assumed that the length from the support shaft 353 to the lock lever operating portion 352 is longer than the length from the support shaft 353 to the lock lever operation portion 351. Accordingly, since the lock lever 35 is heavier on the lock lever operating portion 352 side than on the lock lever operating portion 351 side, the lock lever operating portion 352 always receives a downward force due to its own weight.

  As shown in FIG. 2 (c), the guide plate 22 attached to the housing side plate 2a is provided with a slit-shaped opening 221 that opens largely toward the front panel 32 and extends into the back. When the electric circuit mounting case 3 is inserted into the support housing 2, the lock lever operating portion 352 is engaged and guided by the opening 221 and enters from the entrance of the opening 221 to the back. Further, when the electric circuit mounting case 3 is pulled out to the support housing 2, the lock lever operating portion 352 is engaged with and guided by the opening 221 and moves from the back to the entrance. In other words, the slit-shaped opening 221 that is elongated into the back of the guide plate 22 functions as a passage for the lock lever operating portion 352.

  By the way, on the way from the entrance of the opening 221 to the back, a staircase portion 222 is formed that is higher on the back side than on the entrance side. Here, when the shape of the staircase portion 222 is a shape that rises smoothly when viewed from the entrance side, the lock lever action portion 352 smoothly smoothes the staircase portion 222 even with the force by which the electric circuit mounting case 3 is pushed. Over to the depth of the opening 221.

  On the other hand, when the shape of the staircase portion 222 is almost vertical (in the case illustrated in FIG. 2C and the like), when the electric circuit mounting case 3 is inserted, the lock lever action portion 352 is temporarily moved by the staircase portion 222. At that time, if the operator pushes down the lock lever operation portion 351 protruding from the front panel 32 while pushing the electric circuit mounting case 3, the lock lever operation portion 352 is lifted upward. Therefore, it is possible to get over the staircase 222.

  Further, in the vicinity of the entrance of the opening 221 formed in the guide plate 22, a recess (first recess) having a substantially vertical shape on the entrance side and a smooth shape on the back side is provided. In the present specification, this first recess is referred to as a detachment position setting unit 223. A recess (second recess) having a substantially vertical shape on the entrance side and a smooth shape on the back side is also provided in the immediate vicinity of the upper side of the staircase portion 222. In the present specification, this second recess is referred to as an inspection position setting unit 224.

  When the electric circuit mounting case 3 is extracted from the support housing 2, the lock lever operating portion 352 moves from the back side to the entrance side while receiving a downward force due to its own weight along with the force toward the entrance side. Therefore, the lock lever operating portion 352 falls into the concave portion at the inspection position setting portion 224 and the disengagement position setting portion 223 and cannot get over the substantially vertical wall on the inlet side of the concave portion. Therefore, when the operator pulls out the electric circuit mounting case 3 from the support housing 2, the electric circuit mounting case 3 is once locked at each of the inspection position setting unit 224 and the removal position setting unit 223.

  In order to release the locking, the operator may push down the lock lever operating portion 351 while pulling out the electric circuit mounting case 3. Then, since the lock lever action part 352 is lifted up, it is possible to get over the substantially vertical wall on the entrance side in each of the inspection position setting part 224 and the separation position setting part 223.

  Next, with reference to FIGS. 3 to 6, the operation of extracting the electric circuit mounting case 3 from the support housing 2 will be described in more detail.

  3A is a diagram showing a relative positional relationship between the electric circuit mounting case 3 and the guide plate 22 in a state where the electric circuit mounting case 3 is mounted at the operating position, and FIG. 3B is a diagram showing a lock in the slit hole 321. FIG. 6 is a diagram illustrating a position of a lever operation unit 351. Here, the operation position means a position when the electric circuit mounting case 3 is inserted in the innermost part of the support housing 2, and at this time, the electric circuit mounted in the electric circuit mounting case 3 is supplied with a power source. Then, the electric circuit is operated. FIG. 3 (a) is substantially the same as FIG. 2 (c).

  However, in FIG. 3A, in order to show the insertion state of the electric circuit mounting case 3 into the support housing 2, the position of the open side surface 10 of the support housing 2 is shown as the housing operation surface 1a. The position of the case back plate 2b of the support case 2 is shown as the case back 1b. Further, in FIG. 3B, the portion surrounded by a broken line is an enlargement of the portion surrounded by the broken line in the upper right portion of the front panel 32 in FIG. 2B. These proviso are the same in FIGS. 4 to 6 below.

  As shown in FIG. 3A, when the electric circuit mounting case 3 is mounted at the operating position, the position of the front panel 32 coincides with the casing operation surface 1a. At this time, the lock lever action part 352 is located at the innermost part of the opening 221. Since the innermost part of the opening 221 is set at the highest position among the openings 221, the lock lever operation part 352 is located at the highest position, and conversely, the lock lever operation part 351 is shown in FIG. As shown in (b), it is located at the lowest position in the slit hole 321.

  4A is a diagram showing a relative positional relationship between the electrical circuit mounting case 3 and the guide plate 22 in a state where the electrical circuit mounting case 3 is mounted at the inspection position, and FIG. 4B is a diagram showing a lock in the slit hole 321. FIG. 6 is a diagram illustrating a position of a lever operation unit 351. Here, the inspection position means that a part of the electric circuit mounting case 3 is pulled out from the casing operation surface 1a and the maintenance and inspection work for the electric circuit mounted on the electric circuit mounting case 3 is performed. Refers to a suitable location.

  When the electric circuit mounting case 3 is extracted to the outside of the casing operation surface 1a, the lock lever action portion 352 is moved from the innermost portion along the elongated opening portion 221 toward the entrance side of the opening portion 221. Moving. Then, as shown in FIG. 4A, when the lock lever action part 352 reaches the inspection position setting part 224, the lock lever action part 352 falls into the concave part of the inspection position setting part 224 by its own weight, and the entrance of the concave part It becomes impossible to get over the wall of the substantially vertical shape on the side. Therefore, the operation of extracting the electric circuit mounting case 3 stops at the position where the lock lever operating portion 352 reaches the inspection position setting portion 224.

  At this time, the lock lever action part 352 has moved to a lower position than when it is located at the innermost part of the opening 221 (see FIG. 3A). Therefore, as shown in FIG. 4B, the lock lever operation unit 351 moves up from the lowest position to a slightly higher position in the slit hole 321.

  Next, when the operator pushes down the lock lever operation portion 351 while pulling the handle 33 in the outward direction of the casing operation surface 1a (left direction of the paper surface), the lock lever operation portion 352 is lifted upward. Therefore, the substantially vertical wall on the entrance side of the inspection position setting unit 224 can be overcome, and the lock lever action unit 352 can be released from the state of being locked in the recess of the inspection position setting unit 224.

  5A is a diagram showing a relative positional relationship between the electrical circuit mounting case 3 and the guide plate 22 in a state in which the electrical circuit mounting case 3 is out of the inspection position, and FIG. 5B is a diagram showing a lock lever in the slit hole 321. FIG. 6 is a diagram illustrating a position of an operation unit 351.

  When the lock lever action part 352 gets over the substantially vertical wall on the entrance side of the inspection position setting part 224, the lock lever action part 352 moves to a position on the lower stage side of the staircase part 222 as shown in FIG. Since the position is lower than the position where the inspection position setting unit 224 is depressed, the lock lever operation unit 351 further includes the slit hole 321 in the slit hole 321, as shown in FIG. Ascend to a higher position.

  6A is a diagram showing a relative positional relationship between the electric circuit mounting case 3 and the guide plate 22 in a state where the electric circuit mounting case 3 is mounted at the disengagement position, and FIG. 6B is a diagram showing a lock in the slit hole 321. FIG. 6 is a diagram illustrating a position of a lever operation unit 351. Here, the detachment position refers to a position that informs the operator that most of the electric circuit mounting case 3 is extracted from the support housing 2 and is detached from the support housing 2.

  When the electric circuit mounting case 3 leaves the inspection position and is further extracted, the lock lever action portion 352 moves toward the entrance side of the opening portion 221 along the elongated opening portion 221 on the lower side of the staircase portion 222. To do. Then, as shown in FIG. 6A, when the lock lever action part 352 reaches the release position setting part 223, the lock lever action part 352 falls into the recess of the release position setting part 223 by its own weight, and the entrance of the recess It becomes impossible to get over the wall of the substantially vertical shape on the side. Therefore, the operation of extracting the electric circuit mounting case 3 stops at the position where the lock lever action part 352 reaches the separation position setting part 223.

  The recessed portion of the detachment position setting portion 223 is provided at the lowest position among the opening portions 221 formed by being cut into the guide plate 22 in an elongated shape at the back. Therefore, the lock lever operation part 352 is located at the lowest position, and as a result, the lock lever operation part 351 is located at the highest position in the slit hole 321 as shown in FIG. Will be located.

  In this state, when the operator pushes down the lock lever operation portion 351 while pulling the handle 33 in the outward direction of the housing operation surface 1a, the lock lever operation portion 352 is lifted upward. The substantially vertical wall on the inlet side of the portion 223 can be overcome, and the lock lever operating portion 352 is released from the state of being locked in the recess of the release position setting portion 223. As a result, the electric circuit mounting case 3 is detached from the support housing 2.

  As described above, in the present embodiment, when the electric circuit mounting case 3 is extracted from the operation position toward the outside of the casing operation surface 1a, the extraction operation is temporarily stopped at the inspection position and the separation position. In this case, the separation position is determined by a physical condition that the most part of the electric circuit mounting case 3 is extracted to the outside of the casing operation surface 1a, but the inspection position is between the separation position and the operation position. If so, you can set it anywhere. The inspection position is determined by where the position of the inspection position setting unit 224 is formed in the opening 221 of the guide plate 22.

  If the work contents of the maintenance inspection of the electric circuit mounted on the electric circuit mounting case 3 are known in advance, the inspection position when the electric circuit mounting case 3 is extracted from the support housing 2 is It means that it can be determined in advance at an appropriate position according to the work contents of the maintenance inspection. That is, as described above, the inspection position is a position where the lock lever action portion 352 is locked to the inspection position setting portion 224 when the electric circuit mounting case 3 is pulled out. The manufacturer of the device calculates the position of the inspection position setting unit 224 in advance so that the position becomes an appropriate position for the work contents of the maintenance inspection, and builds it into the shape of the opening 221 in the guide plate 22. Good.

  When the inspection position is determined as described above, the maintenance inspector, when extracting the electric circuit mounting case 3 from the predetermined operation position, only extracts the electric circuit mounting case 3 until the extraction operation stops. The extraction position of 3 can be adjusted to a predetermined inspection position. Therefore, the maintenance inspector can easily extract the electric circuit mounting case 3 to a position suitable for the maintenance inspection work, and as a result, the efficiency of the maintenance inspection work can be improved.

  Furthermore, in this embodiment, the lock lever operation part 351 protrudes from the slit hole 321 provided in the front panel 32, and the position of the lock lever operation part 351 in the slit hole 321 is shown in FIGS. As shown in Fig. 4, the operation position, inspection position and separation position of the electric circuit mounting case 3 are represented. Therefore, the maintenance inspector can know the position where the electric circuit mounting case 3 is mounted from the position in the slit hole 321 of the lock lever operation portion 351.

  That is, when the maintenance / inspector extracts the electric circuit mounting case 3 from the predetermined operation position, the maintenance / inspector can easily confirm whether or not the position is the inspection position. When adjusting to the inspection position, it will not be accidentally adjusted to another position. As a result, the efficiency of maintenance / inspection work is improved.

  In the embodiment, although not particularly illustrated, the position of the lock lever operation portion 351 in the slit hole 321 determined according to the mounting position of the electric circuit mounting case 3 is the front panel 32 adjacent to the slit hole 321. You may make it clear by displaying on a character or symbol, such as a driving position, an inspection position, and a leaving position. By doing so, the maintenance inspector can further easily confirm that it is the inspection position.

  It is also convenient for the maintenance inspector that the slit hole 321 is provided in the immediate vicinity of the handle 33. As described above, when the maintenance / inspector inserts / removes the electric circuit mounting case 3, the insertion / extraction operation is stopped at a predetermined position such as an inspection position or a removal position. The lock lever operation unit 351 is released by pushing down or lifting it. Therefore, in this embodiment, since the slit hole 321 is provided in the immediate vicinity of the handle 33, the operation can be easily performed. As a result, the efficiency of maintenance / inspection work is improved.

  As described above, according to the present embodiment, the electrical circuit mounting case 3 can be extracted and stopped without error up to an inspection position that is appropriate for a predetermined maintenance inspection operation, and the position is It is clearly indicated that it is an inspection position. In addition, in maintenance inspection work that is repeated regularly, if the same electrical circuit housing case 1 or the same type of electrical circuit housing case 1, the electrical circuit mounting case 3 housed therein is always the same. Since it can be extracted and stopped at the inspection position, standardization of the maintenance inspection work procedure becomes easy, and in this sense, the efficiency of the maintenance inspection work can be improved.

DESCRIPTION OF SYMBOLS 1 Electrical circuit storage housing | casing 1a Housing operation surface 1b Housing back surface 2 Support housing 2a Housing side plate 2b Housing back plate 2c Top plate 2d Bottom plate 3 Electric circuit mounting case 3a Case side plate 10 Open side surface 21 Housing side slide rail 22 Guide plate 30 Case position setting mechanism 31 Case side slide rail 32 Front panel 33 Handle 35 Lock lever 221 Opening 222 Step 223 detachment position setting section (first recess)
224 Inspection position setting section (second recess)
321 Slit hole 351 Lock lever operation part 352 Lock lever action part (protrusion part)
353 spindle

Claims (5)

An electric circuit mounting case on which an electric circuit is mounted; and a support housing that has at least one open side surface, and stores and supports the electric circuit mounting case so that it can be inserted and removed in a direction substantially perpendicular to the open side surface. An electrical circuit housing case comprising:
The electrical circuit mounting case is
A front panel provided on a side surface corresponding to the open side surface;
A case side plate provided on a side surface adjacent to the front panel;
A lock lever that is rotatably supported by a support shaft that is mounted substantially vertically on the outside of the case side plate, and that has a protruding portion that protrudes toward the outside of the case side plate at one end ;
With
The support housing is
On the outside of the case side plate, a housing side plate provided substantially parallel to the case side plate,
A guide plate that is attached to the inside of the housing side plate and has an opening that is elongated from the open side surface to the back side;
With
In the opening formed in the guide plate, a first recess is formed in the vicinity of the entrance of the opening, at a position between the first recess and the innermost part of the opening, and A second recess is formed at a position higher than the first recess and lower than the innermost portion,
The protrusions kicked set at one end of the locking lever, with the insertion and removal of said electrical circuit mounting case, while moving back and forth is engaged with the opening formed in the guide plate, wherein When the electric circuit mounting case is pulled out from the support housing, it is locked at the position of the first recess and the second recess,
The other end of the lock lever penetrates through a slit hole provided in the front panel, protrudes to the outside of the front panel, and moves up and down in the slit hole as the electric circuit mounting case is inserted and removed. An electrical circuit housing case characterized by the above. An electric circuit mounting case on which an electric circuit is mounted; and a support housing that has at least one open side surface, and stores and supports the electric circuit mounting case so that it can be inserted and removed in a direction substantially perpendicular to the open side surface. An electrical circuit housing case comprising:
The electrical circuit mounting case is
A front panel provided on a side surface corresponding to the open side surface;
A case side plate provided on a side surface adjacent to the front panel;
A lock lever that is rotatably supported by a support shaft that is mounted substantially vertically on the outside of the case side plate, and that has a protruding portion that protrudes toward the outside of the case side plate at one end;
With
The support housing is
On the outside of the case side plate, a housing side plate provided substantially parallel to the case side plate,
A guide plate that is attached to the inside of the housing side plate and has an opening that is elongated from the open side surface to the back side;
With
In the vicinity of the side edge of the front panel, a vertically long slit hole is provided that allows the other end of the lock lever to protrude to the outside of the front panel,
The protrusion provided on one end of the lock lever is engaged with the opening formed in the guide plate and moved back and forth with the insertion / extraction of the electric circuit mounting case,
The other end of the lock lever penetrates the slit hole provided in the front panel and protrudes to the outside of the front panel, and moves up and down in the slit hole as the electric circuit mounting case is inserted and removed. When the electric circuit mounting case is inserted into the innermost part of the support housing, the electric circuit mounting case moves to the lowermost position in the slit hole, and the electric circuit mounting case is pulled out from the support housing. , Moving upward in the slit hole, and before the electric circuit mounting case is detached from the support housing , at a position where the protrusion is locked to a recess formed near the entrance of the opening , The electric circuit housing case, wherein the electric circuit housing case moves to the uppermost position in the slit hole. In the opening formed in the guide plate, a first recess is formed in the vicinity of the entrance of the opening, and a second recess is formed between the first recess and the innermost portion of the opening. And
When said electrical circuit mounting case is withdrawn from the housing, in that the projecting portion provided on an end portion of the lock lever is locked in position in the first recess and the second recess The electric circuit housing case according to claim 2 . In the opening formed in the guide plate, the position of the second recess is higher than the position of the first recess, and the position of the deepest part of the opening is higher than the position of the second recess. The electrical circuit housing case according to claim 3 , wherein the electrical circuit housing case is higher. The length from the support shaft of the locking lever to the end where the projecting portion is provided, claims 1, characterized in longer than the length up to the other end from the support shaft of said locking lever The electric circuit housing case according to claim 4 .

Images