SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model lies in, to prior art's above-mentioned defect, a pull-out type cubical switchboard drawer unit of instrument installation component with maintenance instrument and on-off status indicator lamp can not cut off the power supply is provided.
Another object of the present invention is to provide a drawer-type switch cabinet with the drawer unit.
The utility model provides a technical scheme that its technical problem adopted is:
a drawer unit of a draw-out switch cabinet is constructed, and comprises a drawer body, wherein an instrument installation component is arranged on a front panel of the drawer body; the instrument mounting assembly comprises a mounting plate and an indicating device arranged on the mounting plate, wherein an opening is formed in the front panel, the mounting plate is detachably arranged at the opening, and the mounting plate is connected with the drawer body in a relatively sliding mode through a sliding connecting piece; the indicating device is electrically connected with a circuit in the drawer body through a movable joint.
The drawer unit of the present invention, wherein the sliding connector includes a first sliding portion and a second sliding portion that can slide relatively; the first sliding part is fixed on the drawer body, and the second sliding part is connected with the mounting plate.
Drawer unit, wherein, first sliding part is for having orbital sliding plate support, the second sliding part is for imbedding slide on the sliding plate support track.
The drawer unit of the utility model, wherein, the sliding plate bracket comprises two guide rails which are arranged in parallel, and the sliding plate comprises a first section plate which is connected with the sliding plate bracket and a second section plate which is connected with the mounting plate; wherein,
the two guide rails are respectively provided with a first sliding chute, and two sides of the first section plate are respectively provided with a first sliding block which is clamped in the first sliding chute and can slide relative to the first sliding chute;
the second section plate is provided with at least two second sliding grooves which are parallel to each other, and the upper surface of the first section plate is provided with at least two second sliding blocks which are respectively clamped in the second sliding grooves and can slide relative to the second sliding grooves.
Drawer unit, wherein, the second sliding part with the mounting panel can turn over the connection of rolling over through the loose-leaf.
Drawer unit, wherein, the mounting panel both sides are provided with the draw-in groove respectively the opening part is provided with the fixture block, the mounting panel passes through the draw-in groove with the cooperation card of fixture block is established the opening part.
Drawer unit, wherein, the fixture block include with drawer body bottom surface is mutually perpendicular, just fixes support on the drawer body bottom surface, and including setting up on the support, be used for stretching into bellying in the draw-in groove.
Drawer unit, wherein, be provided with in the draw-in groove and prevent the anti-disengaging structure that the fixture block deviates from.
Drawer unit, wherein, be provided with the handle position on the mounting panel, the handle position set up in indicating device's below.
The utility model also provides a pull-out type cubical switchboard, the intelligent cabinet temperature adjusting device comprises a cabinet body, wherein, the internal drawer unit that is provided with as aforementioned arbitrary of cabinet.
The beneficial effects of the utility model reside in that: through set up the opening on the front panel at the drawer body, mounting panel detachable with instrument installation component sets up at this opening part, and with drawer body bottom surface sliding connection, simultaneously with this internal circuit of indicating device and drawer through the swing joint electricity and be connected, when the situation appears in the indicating device of drawer unit, can directly take instrument installation component out from the drawer unit, extract corresponding swing joint again, can change indicating device, and not only convenient operation is simple, the maintenance time is short, the maintenance cost is also lower, and need not have a power failure the operation, economic benefits is high, and the commonality is strong.
Detailed Description
As shown in fig. 1, 2 and 3, and also see fig. 7, 8 and 9, the drawer unit of the drawer-type switch cabinet according to the preferred embodiment of the present invention includes a drawer body 20, and a meter mounting assembly 30 is disposed on a front panel 21 of the drawer body 20; the meter mounting assembly 30 includes a mounting plate 31 and an indicating device (the indicating device may specifically include the meter 40 and the on-off status indicator lamp 50, and may also include other devices, and only the meter 40 and the on-off status indicator lamp 50 are described below as examples); wherein, the front panel 21 is provided with an opening 211, the mounting plate 31 is detachably clamped at the opening 211, and the mounting plate 31 is connected with the drawer body 20 in a relatively sliding way through a sliding connection piece 32; the meter 40 and the switch status indicator lamp 50 are electrically connected to the circuit in the drawer body 20 through the movable joint 70. When the instrument 40 or the on-off state indicator lamp 50 of the drawer unit is in a state, the mounting plate 31 can be directly pulled outwards to draw out the instrument mounting assembly 30 from the drawer unit, and then the movable joint 70 correspondingly connected with the instrument 40 or the on-off state indicator lamp 50 in a state is pulled out, so that the instrument 40 or the on-off state indicator lamp 50 can be replaced. In addition, the mode of arranging the instrument mounting assembly 30 in the embodiment has no requirement on the size of the drawer unit, so that the instrument mounting assembly is suitable for drawer units with different heights, and the universality is high.
In a further embodiment, as shown in fig. 3 and 4, and referring to fig. 8 and 9, the sliding connector 30 includes a first sliding portion 321 and a second sliding portion 322 capable of sliding relatively, wherein the first sliding portion 321 is fixed on the bottom surface 22 of the drawer body 20, and the second sliding portion 322 is connected to the mounting plate 31. When the mounting plate 31 is pulled outwards, the mounting plate 31 is separated from the front panel 21 of the drawer body 20, and then under the action of external force, the mounting plate 31 drives the second sliding portion 322 to slide relative to the first sliding portion 321, so that the instrument mounting assembly 30 is integrally pulled out of the drawer unit, and then the instrument 40 or the on-off state indicator lamp 50 with a fault on the mounting plate 31 is maintained.
The first sliding portion 321 and the second sliding portion 322 in the above embodiments may adopt any structure that can realize the sliding connection. For example, the first sliding portion 321 may be a slide groove, and the second sliding portion 322 may be a slider that is slidable relative to the slide groove.
Preferably, as shown in fig. 3, 4 and 5, the first sliding portion 321 is a slider bracket with a rail, and the second sliding portion 322 is a slider embedded in the rail of the slider bracket. One end of the sliding plate is connected with the mounting plate 31, the sliding plate is led to the outside, the mounting plate 31 is pulled, and the sliding plate can be driven to slide relative to the sliding plate bracket along the track, so that the instrument mounting assembly 30 is integrally drawn out from the drawer unit, and then the instrument 40 with a fault or the switch state indicator lamp 50 on the mounting plate 31 is maintained.
More preferably, as shown in fig. 3, 4 and 5, the above-mentioned slide bracket (i.e., the first sliding portion 321) includes two guide rails disposed parallel to each other, and the slide (i.e., the second sliding portion 322) includes a first link 323 connected to the slide bracket and a second link 324 connected to the mounting plate 31. Wherein, the two guide rails are respectively provided with a first sliding chute 3211, and both sides of the first section plate 323 are respectively provided with a first sliding block 3231 which is clamped in the first sliding chute 3211 and can slide relative to the first sliding chute 3211; at least two parallel second sliding grooves 3242 are disposed on the second section plate 324, and at least two second sliding blocks 3232 which are respectively clamped in the second sliding grooves 3242 and can slide relative to the second sliding grooves 3242 are disposed on the upper surface of the first section plate 323. When the mounting plate 31 is pulled outwards, the second link plate 324 is driven to move outwards, at this time, the second slide block 3232 on the first link plate 323 slides relatively in the second slide groove 3242 of the second link plate 324, so that the second link plate 324 slides relative to the first link plate 323, when the second slide block 3232 moves to the end of the second slide groove 3242, the first link plate 323 and the second link plate 324 stop moving relatively, when the mounting plate 31 is pulled outwards, the first link plate 323 and the second link plate 324 move outwards together as a whole, at this time, the first slide blocks 3231 on both sides of the first link plate 323 slide relatively in the first slide groove 3211 of the guide rail, and when the first slide block 3231 slides to the end of the first slide groove 3211, the first link plate 323 and the second link plate 324 stop moving outwards together, at this time, the slide plate moves to the maximum stroke relative to the slide plate bracket. Thus, the sliding plate is pulled out in a two-section mode, the instrument installation assembly 30 can be fully drawn out, and the instrument 40 and the switch state indicator lamp 50 on the installation plate 31 cannot interfere with the front panel 21 of the drawer body 20 when being maintained, so that the maintenance is more convenient.
In a further embodiment, as shown in fig. 3, 4 and 5, and also referring to fig. 8 and 9, the second sliding portion 322 is connected to the mounting plate 31 via a hinge 60 in a foldable manner. After the meter mounting assembly 30 is completely pulled out from the opening 211 of the front panel 21, the mounting plate 31 can be folded over with respect to the second sliding portion 322 so that the mounting plate 31 is parallel to the ground, thereby facilitating maintenance of the meter 40 and the on-off status indicator lamp 50 on the mounting plate 31.
Further, as shown in fig. 3, when the second sliding portion 322 and the mounting plate 31 are connected by the hinge 60 in a foldable manner, it is preferable to adopt the two-stage pull-out slide and the corresponding slide bracket structure, so that the meter mounting assembly 30 can move to a large stroke relative to the front panel 21 of the drawer body, thereby ensuring that the meters 40 and the on-off status indicator lights 50 on the mounting plate 31 do not interfere with the front panel 21 of the drawer body 20 during maintenance.
In the above embodiment, the mounting plate 31 may be detachably disposed at the opening 211 of the front panel 21 in various ways. For example, the mounting plate 31 may be detachably connected to the opening 211 of the front panel 21 by using a hook structure, or the mounting plate 31 may be detachably connected to the opening 211 of the front panel 21 by using an adhesive.
Preferably, as shown in fig. 3, a locking groove 312 is respectively disposed at both sides of the mounting plate 31, a locking block 221 is disposed at the opening 211, and the mounting plate 31 is locked at the opening 211 by the locking groove 312 and the locking block 221. The number of the locking slots 312 and the number of the locking blocks 221 may be one, two or more, respectively, and the number is not limited herein as long as the mounting plate 31 can be fixed at the opening 211. The latch 221 does not have to be connected to the sidewall of the opening 211, and it is only necessary to provide the latch 221 at the opening 211 and the position of the latch 221 can correspond to the position of the latch slot 312 on the mounting plate 31. When the mounting plate 31 is pulled outward, a large external force may overcome the friction force between the locking groove 312 and the locking block 221, thereby removing the mounting plate 31 from the opening 211. In order to prevent the mounting plate 31 from falling off when the drawer unit is vibrated or impacted, anti-falling structures may be properly disposed on the engaging groove 31 and the engaging block 221, or the engaging groove 312 and the engaging block 221 may be engaged with each other in an interference fit manner, so as to increase the external force required to overcome the engaging block 221 from being disengaged from the engaging groove 312.
Preferably, as shown in fig. 3, referring to fig. 8 and 9, the latch 221 includes a support 2211 perpendicular to the bottom 22 of the drawer body 20 and fixed on the bottom 22 of the drawer body 20, and a protrusion 2212 disposed on the support 2211 and extending into the slot 312. When the mounting plate 31 is mounted, the mounting plate 31 is buckled at the opening 211, the convex part 2212 is clamped into the clamping groove 312, and the mounting plate 31 is fixed at the opening 211; when the mounting plate 31 is pulled outwardly, the projection 2212 is disengaged from the slot 312 so that the meter mounting assembly 30 can be withdrawn relative to the drawer unit.
In a further embodiment, as shown in fig. 1 and 2, a handle portion 311 is provided on the mounting plate 31, and the handle portion 311 is preferably mounted below the switch status indicator lamp 50, so that the meter mounting assembly 30 can be more conveniently operated when being pulled out or pushed in.
In a further embodiment, as shown in fig. 7, the movable joint 70 includes a plug portion 71 electrically connected to the meter 40 or the switch status indicator lamp 50, and a socket portion 72 electrically connected to the circuit inside the drawer body 20. Alternatively, the movable joint 70 includes a socket portion 72 electrically connected to the meter 40 or the switch status indicator lamp 50, and a plug portion 71 electrically connected to the circuit in the drawer body 20. Devices such as the instrument 40 and the switch status indicator lamp 50 on the mounting plate 31 can be respectively connected with the internal circuit of the drawer body 20 through a plurality of movable joints 70, and only the movable joint 70 corresponding to the fault device needs to be pulled out during maintenance, so that the maintenance is more convenient.
In a further embodiment of the present invention, there is provided a draw-out type switch cabinet, as shown in fig. 8 and 9, comprising a cabinet body 10, wherein the drawer unit described in any of the previous embodiments is disposed in the cabinet body 10, and the drawer unit can be disposed on a column in the cabinet body 10. The specific structure of the drawer unit is described in the foregoing embodiments, and is not described herein again.
Preferably, the drawout switchgear in each of the above embodiments is a GCK type low voltage drawout switchgear, wherein the letter "G" indicates a cabinet type structure, the letter "C" indicates a drawout type, and the letter "K" indicates a control center.
To sum up, the utility model discloses a through set up opening 211 on drawer body 20's front panel 21, set up the 31 detachable of mounting panel of instrument installation component 30 in this opening 211 department, and with drawer body 20 bottom surface sliding connection, pass through the swing joint 70 electricity with instrument 40 or on-off state pilot lamp 50 and drawer body 20 internal circuit simultaneously and be connected, when the situation appears in instrument 40 or on-off state pilot lamp 50 of drawer unit like this, can directly take instrument installation component 30 out from the drawer unit, extract corresponding swing joint 70 again, can change instrument 40 or on-off state pilot lamp 50, and not only convenient operation is simple, and the maintenance time is short, and the maintenance cost is also lower, and need not have a power failure the operation, and economic benefits is high, and the commonality is strong.
It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.