CN115173254A - From low-voltage distribution cabinet who takes detection instrument to place - Google Patents

Abstract

The invention relates to the technical field of power distribution cabinets, in particular to a low-voltage power distribution cabinet with a detection tool for placement, which comprises a power distribution cabinet body, wherein a sliding structure is arranged on the power distribution cabinet body, a rotating structure is arranged on the sliding structure, a limiting structure is arranged on the sliding structure, a placement structure is arranged on the rotating structure, an adjusting structure is arranged on the rotating structure, a positioning structure is arranged on the rotating structure, and a fixing structure is arranged on the power distribution cabinet body; through installing sliding construction on the switch board body, can maintain according to winding displacement and the power converter to different positions and adjust, can provide a place the platform to some detection instrument through the revolution mechanic of installing on sliding construction, revolution mechanic still is convenient for accomodate moreover, avoids place the platform to touch this internal circuit of switch board.

Description

From low-voltage distribution cabinet who takes detection instrument to place

Technical Field

The invention relates to the technical field of power distribution cabinets, in particular to a low-voltage power distribution cabinet with a detection tool.

Background

The rated current of the low-voltage power distribution cabinet is alternating current 50Hz, a power distribution system with rated voltage 380v is used as power, and the power distribution system is used for electric energy conversion and control of lighting and power distribution.

However, generally when detecting and maintaining the circuit in the low voltage distribution cabinet, all place the instrument subaerial, perhaps put the toolbox subaerial and operate, but the circuit height in the low voltage distribution cabinet varies, consequently need make a round trip to hang down the change instrument and work when maintaining the circuit, change the operating condition and the work efficiency that influence the workman easily for a long time, and parts such as the screw that get off are all placed on the top of low voltage distribution cabinet or subaerial, cause the condition such as part loss and pollution easily, influence the installation quality of circuit.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a low-voltage power distribution cabinet with a detection tool.

The technical scheme adopted by the invention for solving the technical problems is as follows: a low-voltage power distribution cabinet with a detection tool for placement comprises a power distribution cabinet body, wherein a sliding structure is mounted on the power distribution cabinet body, a rotating structure is mounted on the sliding structure, a limiting structure is mounted on the sliding structure, a placement structure is mounted on the rotating structure, an adjusting structure is mounted on the rotating structure, a positioning structure is mounted on the rotating structure, and a fixing structure is mounted on the power distribution cabinet body;

the sliding structure comprises a fixed frame, a fixed frame is connected to the power distribution cabinet body in a sliding mode, a clamping groove is formed in the power distribution cabinet body, a clamping block is fixedly connected to the fixed frame, the clamping block is clamped with the clamping groove, a first sliding block is fixedly connected to the clamping block, and a first spring is installed between the first sliding block and the fixed frame.

Specifically, be equipped with first recess on the fixture block, the first stopper of fixedly connected with on the fixed frame, be equipped with first spacing groove on the switch board body, first stopper and first spacing groove sliding connection.

It is specific, revolution mechanic includes the loading board, be connected with the loading board through rotating on the fixed frame, be equipped with in the fixed frame and accomodate the groove, fixedly connected with fixing base on the loading board, it is connected with first rotary rod to rotate on the fixing base, the fixed frame internal rotation is connected with the second rotary rod, first rotary rod and second rotary rod rotate to be connected.

Specifically, limit structure includes the fixed block, fixedly connected with fixed block on the loading board, be equipped with the fixed slot in the fixed frame, fixed slot and fixed block, there is first fixed plate through second stopper sliding connection on the fixed frame, first fixed plate and fixed slot block, be equipped with the second recess on the first fixed plate.

Specifically, fixedly connected with rubber buffer on the first fixed plate, be equipped with the second spacing groove on the fixed frame, second spacing groove and rubber buffer block.

Specifically, the placing structure comprises a placing groove, the placing groove is formed in the bearing plate, a bottom plate is connected to the placing groove in a sliding mode, a protrusion is fixedly connected to the bottom plate, a third groove is formed in the bearing plate, and the protrusion and the third groove are clamped.

Specifically, a second fixing plate is fixedly connected to the bottom plate, a limiting rod is fixedly connected to the second fixing plate, and the limiting rod is connected with the bearing plate in a sliding mode.

The adjusting structure comprises a sliding plate, the sliding plate is connected to the inside of the bearing plate in a sliding mode, a first accommodating hole is formed in the sliding plate, a second accommodating hole is formed in the sliding plate, a ball is connected between the sliding plate and the bearing plate in a rotating mode, a sliding groove is formed in the bearing plate, the ball rolls in the sliding groove, and a baffle is connected to the bearing plate in a rotating mode.

Specifically, location structure includes the connecting rod, fixedly connected with connecting rod on the slide, connecting rod and loading board sliding connection, fixedly connected with sliding sleeve on the connecting rod, sliding connection has the second slider in the sliding sleeve, the first inserted bar of fixedly connected with on the second slider, first inserted bar and loading board block, install the second spring between second slider and the sliding sleeve, it is connected with the pull ring to rotate on the first inserted bar.

Specifically, fixed knot constructs including the fixed column, this internal fixedly connected with fixed column of switch board, fixedly connected with dead lever on the fixed column, sliding connection has the third slider in the dead lever, fixedly connected with second inserted bar on the third slider, be equipped with the slot on the fixed column, second inserted bar and slot block, install the third spring between third slider and the dead lever, fixedly connected with ejector pad on the third slider.

The invention has the beneficial effects that:

(1) The low-voltage power distribution cabinet with the detection tool for placement can be adjusted according to the maintenance of flat cables and power transformers at different positions by installing the sliding structure on the power distribution cabinet body, can provide a placement platform for some detection tools by the rotating structure arranged on the sliding structure, is convenient to store by the rotating structure, avoids the placement platform from touching the circuit in the power distribution cabinet body, can fix the rotating structure by the limiting structure, prevents the rotating structure from automatically rotating when a door plate of the power distribution cabinet body is closed, causes damage to the circuit in the power distribution cabinet body, namely when the circuit in the power distribution cabinet body needs to be overhauled and maintained, because the fixing frame is arranged in the power distribution cabinet body in a sliding mode, the height of the circuit which needs to be overhauled and maintained can be adjusted according to the height of the circuit which needs to be overhauled and maintained, and when the height needs to be adjusted, the fixture block is pushed to ensure that the fixture block is not clamped with the clamping groove any more, so that the fixed frame can be pushed to slide, the first slider is fixed on the fixture block, and the first spring is arranged between the first slider and the fixed frame, so that the fixture block and the clamping groove are clamped again to fix the fixed frame by the elasticity of the first spring after the fixture block is loosened, the fixture block is conveniently pushed by the first groove arranged on the fixture block, the first limiting block fixed on the fixed frame is connected with the first limiting groove arranged on the power distribution cabinet body in a sliding manner, so that the fixed frame can be prevented from falling off from the power distribution cabinet body during sliding, the bearing plate can be rotated to fall down due to the rotation of the bearing plate on the fixed frame, so that maintenance tools and parts can be placed, the inconvenience in taking the fixed frame and the loss of the parts are prevented, and the bearing plate can be stored when not used through the storage groove arranged in the fixed frame, because be fixed with the fixing base on the loading board, and rotate the first rotary rod of connecting and rotate the second rotary rod of being connected with fixed frame with the fixing base and rotate and be connected, thereby can support the loading board, prevent that the loading board slope from causing instrument and part to drop, when needs are accomodate the loading board, rotate the loading board to accomodating the inslot, because the fixed block of fixing on the loading board and the fixed slot block that is equipped with in the fixed frame, thereby plug up the fixed slot through sliding first fixed plate, prevent the fixed block roll-off fixed slot, consequently, can accomodate fixedly the loading board, because fix second stopper and fixed frame sliding connection on first fixed plate, thereby can prevent the fixed frame of first fixed plate roll-off, because be equipped with the second recess on first fixed plate, can conveniently promote first fixed plate, because fix the rubber buffer on first fixed plate and establish the spacing groove block of second in fixed frame, can prevent first fixed plate automatic sliding, make the loading board automatically from roll-off in the fixed frame.

(2) The low-voltage power distribution cabinet with the detection tool for placement can accommodate the detached screws and other parts by installing the placement structure on the rotating structure, so that the parts are prevented from being lost and instable in installation, meanwhile, some tools can be placed by the adjusting structure and can be adjusted according to the size of the tools, the adjusting structure can be positioned by the positioning structure, namely, when the detached parts need to be placed, the bottom plate is pressed downwards to slide in the placement groove, because the second fixing plate is fixed on the bottom plate and the limiting rod fixed on the second fixing plate slides in the bearing plate, the bottom plate can be prevented from sliding out of the placement groove, and the bottom plate can be prevented from automatically sliding by clamping the protrusion fixed on the bottom plate and the third groove arranged on the bearing plate, therefore, some parts can be classified and placed through the placing groove, the bottom plate can be retracted when the parts are not required to be placed, the detection instrument is not influenced to be placed on the bearing plate, when some disassembly maintenance tools are required to be placed, the baffle plate is rotated to open, the sliding plate slides in the bearing plate, so that some screwdriver tools can be accommodated through the first accommodating hole arranged on the sliding plate, the sliding plate can accommodate some wrench tools through the second accommodating hole on the sliding plate, the sliding plate is convenient to slide in the bearing plate through the ball and the sliding groove, the sliding plate fixed through the connecting rod can be driven to slide by pushing the sliding sleeve, the adjustment is convenient, the second sliding block slides in the sliding sleeve, the first inserting rod is fixed on the second sliding block, and the sliding sleeve and the sliding plate can be prevented from automatically sliding by the clamping of the first inserting rod and the bearing plate, through the elasticity of fixing the second spring between second slider and sliding sleeve, can make more firm of first inserted bar and loading board block, through the pivoted pull ring of pulling on first inserted bar, not only can drive first inserted bar and slide and can also drive the sliding sleeve and slide.

(3) According to the low-voltage power distribution cabinet with the detection tool, the fixing structure is arranged on the power distribution cabinet body, so that the height of the mounting frame in the power distribution cabinet body can be conveniently adjusted, the installation time is saved, and the efficiency is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic overall structural diagram of a low voltage distribution cabinet with a detection tool disposed therein according to a preferred embodiment of the present invention;

FIG. 2 is an enlarged view of the part A shown in FIG. 1;

FIG. 3 is an enlarged view of the part B shown in FIG. 1;

FIG. 4 is an enlarged view of the structure of the section C shown in FIG. 1;

FIG. 5 is an enlarged view of the structure of the portion D shown in FIG. 1;

FIG. 6 is a schematic view of a connection structure of the engaging groove and the engaging block according to the present invention;

FIG. 7 is a schematic view of a second insertion rod and a slot according to the present invention;

FIG. 8 is a schematic view of the connection structure of the bearing plate and the sliding plate according to the present invention;

fig. 9 is a schematic view illustrating a coupling structure of a base plate and a second fixing plate according to the present invention;

fig. 10 is an enlarged view of the structure of the portion E shown in fig. 9.

In the figure: 1. a power distribution cabinet body; 2. a sliding structure; 201. a fixing frame; 202. a card slot; 203. a clamping block; 204. a first slider; 205. a first spring; 206. a first groove; 207. a first stopper; 208. a first limit groove; 3. a rotating structure; 301. a carrier plate; 302. a storage groove; 303. a fixed seat; 304. a first rotating rod; 305. a second rotating rod; 4. a limiting structure; 401. a fixed block; 402. a fixing groove; 403. a first fixing plate; 404. a rubber plug; 405. a second limit groove; 406. a second limiting block; 407. a second groove; 5. a placement structure; 501. a placement groove; 502. a base plate; 503. a protrusion; 504. a third groove; 505. a second fixing plate; 506. a limiting rod; 6. an adjustment structure; 601. a slide plate; 602. a first receiving hole; 603. a second receiving hole; 604. a ball bearing; 605. a chute; 606. a baffle plate; 7. a positioning structure; 701. a connecting rod; 702. a sliding sleeve; 703. a second slider; 704. a first plunger; 705. a second spring; 706. a pull ring; 8. a fixed structure; 801. fixing a column; 802. fixing the rod; 803. a third slider; 804. a second plunger; 805. a slot; 806. a third spring; 807. and (7) pushing the block.

Detailed Description

The present invention will be further described with reference to the following detailed description so that the technical means, the creation features, the achievement purposes and the effects of the present invention can be easily understood.

As shown in fig. 1-10, the low-voltage power distribution cabinet with a detection tool for placement comprises a power distribution cabinet body 1, wherein a sliding structure 2 is installed on the power distribution cabinet body 1, a rotating structure 3 is installed on the sliding structure 2, a limiting structure 4 is installed on the sliding structure 2, a placement structure 5 is installed on the rotating structure 3, an adjusting structure 6 is installed on the rotating structure 3, a positioning structure 7 is installed on the rotating structure 3, and a fixing structure 8 is installed on the power distribution cabinet body 1;

the sliding structure 2 includes fixed frame 201, sliding connection has fixed frame 201 on the switch board body 1, be equipped with draw-in groove 202 on the switch board body 1, fixedly connected with fixture block 203 on the fixed frame 201, fixture block 203 and draw-in groove 202 block, the first slider 204 of fixedly connected with on the fixture block 203, install first spring 205 between first slider 204 and the fixed frame 201, be equipped with first recess 206 on the fixture block 203, the first stopper 207 of fixedly connected with on the fixed frame 201, be equipped with first spacing groove 208 on the switch board body 1, first stopper 207 and first spacing groove 208 sliding connection, when needing to overhaul and maintain the circuit in the switch board body 1, owing to sliding fixed frame 201 in switch board body 1, consequently can overhaul and adjust with the height of the circuit of maintaining as required, when needs adjust the height, promote fixture block 203 and draw-in groove 202 no longer block, thereby can promote fixed frame 201 to slide, owing to be fixed with first slider 204 on fixture block 203, and install first spring 205 between first slider 204 and fixed frame 201, consequently the fixture block 203 and draw-in groove 201 can be fixed frame 201 through first spring 203 and the first spring 203 of switch board, thus the fixed frame 201 that the fixture block 203 and the first spring is established on the fixed frame 201 that the fixture block 201 can be connected again, and the fixture block 201 that the first groove 201 that the fixture block 203 is convenient slide, so that the fixture block 203 comes off can prevent to slide from sliding connection from the fixed frame 201, so that the fixture block 201, and the fixture block 201, so that the fixture block 203 from sliding connection is established on the fixed frame 201, and the fixed frame 201 on the fixed frame 201.

Specific, revolution mechanic 3 includes loading board 301, be connected with loading board 301 through rotating on the fixed frame 201, be equipped with in the fixed frame 201 and accomodate groove 302, fixedly connected with fixing base 303 on the loading board 301, it is connected with first rotary rod 304 to rotate on the fixing base 303, the internal rotation of fixed frame 201 is connected with second rotary rod 305, first rotary rod 304 and second rotary rod 305 rotate to be connected, because it has loading board 301 to rotate on fixed frame 201, consequently can fall the rotation of loading board 301, come to place maintenance instrument and partial part, prevent that the instrument of taking is inconvenient and the part is lost, accomodate groove 302 through establishing accomodating in fixed frame 201 and come to accomodate loading board 301 when not using, because be fixed with fixing base 303 on loading board 301, and rotate the first rotary rod 304 of connection and rotate the second rotary rod 305 of being connected with fixed frame 201 with fixing base 303 and be connected, thereby can support loading board 301, prevent that loading board 301 slope from causing instrument and part to drop, when needs accomodate loading board 301, it is rotatory to accomodate the inslot 302 to loading board 301.

Specific, limit structure 4 includes fixed block 401, fixedly connected with fixed block 401 on the loading board 301, be equipped with fixed slot 402 in the fixed frame 201, fixed slot 402 and fixed block 401 block, there is first fixed plate 403 through second stopper 406 sliding connection on the fixed frame 201, first fixed plate 403 and fixed slot 402 block, be equipped with second recess 407 on the first fixed plate 403, fixedly connected with rubber buffer 404 on the first fixed plate 403, be equipped with second spacing groove 405 on the fixed frame 201, second spacing groove 405 and rubber buffer 404 block, owing to the fixed slot 402 block that is equipped with in fixed block 401 and the fixed frame 201 on loading board 301, thereby stop up fixed slot 402 through sliding first fixed plate 403, prevent fixed block 401 roll-off fixed slot 402, consequently can accomodate fixedly to loading board 301, owing to fix second stopper 406 and the fixed frame 201 sliding connection on first fixed plate 403, thereby can prevent the fixed frame 201 of first fixed plate 403 roll-off, owing to be equipped with second recess 407 on first fixed plate 403, can conveniently promote first fixed plate 403, owing to fix the fixed frame 403 and establish the second stopper 406 and the fixed plate 201 sliding connection at the fixed plate 403 in first fixed plate 403, can prevent that first fixed plate 403 from sliding from automatic roll-off from the fixed plate 201, owing to make first fixed plate 403 from the fixed plate 403.

Specifically, the placing structure 5 includes a placing groove 501, the placing groove 501 is disposed on the carrier plate 301, a bottom plate 502 is slidably connected to the placing groove 501, a protrusion 503 is fixedly connected to the bottom plate 502, a third groove 504 is disposed on the carrier plate 301, the protrusion 503 is engaged with the third groove 504, a second fixing plate 505 is fixedly connected to the bottom plate 502, a limiting rod 506 is fixedly connected to the second fixing plate 505, the limiting rod 506 is slidably connected to the carrier plate 301, when a detached component needs to be placed, the bottom plate 502 is pressed downward, so that the bottom plate 502 slides in the placing groove 501, since the second fixing plate 505 is fixed to the bottom plate 502 and the limiting rod 506 fixed to the second fixing plate 505 slides in the carrier plate 301, the bottom plate 502 can be prevented from sliding out of the placing groove 501, and by engaging the protrusion 503 fixed to the bottom plate 502 with the third groove 504 disposed on the carrier plate 301, the bottom plate 502 can be prevented from sliding automatically, so that some components can be placed in a classified manner through the placing groove 501, and the bottom plate 502 can be retracted when the component does not need to be placed, and the detection instrument placed on the carrier plate 301 is not affected.

Specifically, the adjusting structure 6 includes a sliding plate 601, a sliding plate 601 is slidably connected to the bearing plate 301, a first accommodating hole 602 is formed in the sliding plate 601, a second accommodating hole 603 is formed in the sliding plate 601, a ball 604 is rotatably connected between the sliding plate 601 and the bearing plate 301, a sliding groove 605 is formed in the bearing plate 301, the ball 604 rolls in the sliding groove 605, a baffle 606 is rotatably connected to the bearing plate 301, when some disassembly and maintenance tools need to be placed, the baffle 606 is opened in a rotating manner, the sliding plate 601 slides in the bearing plate 301, so that some screwdriver tools can be accommodated through the first accommodating hole 602 formed in the sliding plate 601, the sliding plate 601 can accommodate some wrench tools through the second accommodating hole 603 formed in the sliding plate 601, the sliding plate 601 can conveniently slide in the bearing plate 301 through the ball 604 and the sliding groove 605, and the sliding plate 601 fixed by the connecting rod 701 can be driven to slide by pushing the sliding sleeve 702, and adjustment can be facilitated.

Specifically, location structure 7 includes connecting rod 701, fixedly connected with connecting rod 701 on slide 601, connecting rod 701 and loading board 301 sliding connection, fixedly connected with sliding sleeve 702 on connecting rod 701, sliding sleeve 702 sliding connection has second slider 703, first inserted bar 704 of fixedly connected with on second slider 703, first inserted bar 704 and loading board 301 block, install second spring 705 between second slider 703 and sliding sleeve 702, rotate on first inserted bar 704 and be connected with pull ring 706, owing to slide in sliding sleeve 702 has second slider 703, and is fixed with first inserted bar 704 on second slider 703, consequently can prevent sliding sleeve 702 and slide 601 automatic sliding through first inserted bar 704 and loading board 301 block, through the elasticity of the second spring 705 of fixing between second slider 703 and sliding sleeve 702, can make first inserted bar 704 and loading board block more firm, through the pivoted pull ring 706 of pulling on first inserted bar 704, not only can drive first inserted bar 704 and slide and can also drive sliding sleeve 702 and slide.

Specifically, the fixing structure 8 includes a fixing column 801, the fixing column 801 is fixedly connected in the power distribution cabinet body 1, a fixing rod 802 is fixedly connected to the fixing column 801, a third slider 803 is slidably connected to the fixing rod 802, a second insertion rod 804 is fixedly connected to the third slider 803, an insertion slot 805 is provided on the fixing column 801, the second insertion rod 804 is engaged with the insertion slot 805, a third spring 806 is installed between the third slider 803 and the fixing rod 802, and a push block 807 is fixedly connected to the third slider 803.

When the invention is used, when the line in the power distribution cabinet body 1 needs to be overhauled and maintained, the fixed frame 201 slides in the power distribution cabinet body 1, so the line can be adjusted according to the height of the line needing to be overhauled and maintained, when the height needs to be adjusted, the fixture block 203 is pushed to ensure that the fixture block 203 is not clamped with the clamping groove 202, so the fixed frame 201 can be pushed to slide, because the first sliding block 204 is fixed on the fixture block 203, and the first spring 205 is arranged between the first sliding block 204 and the fixed frame 201, after the fixture block 203 is loosened, the fixture block 203 and the clamping groove 202 are clamped again through the elasticity of the first spring 205 to fix the fixed frame 201, the fixture block 203 is conveniently pushed through the first groove 206 arranged on the fixture block 203, because the first limit block 207 fixed on the fixed frame 201 is in sliding connection with the first limit groove 208 arranged on the power distribution cabinet body 1, therefore, the fixing frame 201 can be prevented from falling off from the power distribution cabinet body 1 when sliding, the bearing plate 301 can be rotated to fall down due to the rotation of the bearing plate 301 on the fixing frame 201, so as to place maintenance tools and parts, thereby preventing inconvenience in taking tools and loss of parts, the bearing plate 301 can be received when not in use through the receiving groove 302 arranged in the fixing frame 201, the bearing plate 301 can be supported due to the fixing base 303 fixed on the bearing plate 301, and the first rotating rod 304 rotatably connected with the fixing base 303 is rotatably connected with the second rotating rod 305 rotatably connected with the fixing frame 201, so as to prevent the tools and parts from falling off due to the inclination of the bearing plate 301, when the bearing plate 301 needs to be received, the bearing plate 301 is rotated into the receiving groove 302, because the fixing block 401 fixed on the bearing plate 301 is engaged with the fixing groove 402 arranged in the fixing frame 201, thereby blocking the fixing groove 402 by sliding the first fixing plate 403, preventing the fixing block 401 from sliding out of the fixing groove 402, thus enabling the loading plate 301 to be received and fixed, preventing the first fixing plate 403 from sliding out of the fixing frame 201 due to the sliding connection of the second stopper 406 fixed on the first fixing plate 403 with the fixing frame 201, preventing the first fixing plate 403 from sliding out of the fixing frame 201 due to the second recess 407 provided on the first fixing plate 403, facilitating the pushing of the first fixing plate 403, preventing the loading plate 301 from sliding out of the fixing frame 201 due to the engagement of the rubber stopper 404 fixed on the first fixing plate 403 with the second stopper groove 405 provided in the fixing frame 201, preventing the loading plate 301 from sliding out of the fixing frame 201 automatically when a detached part is desired to be placed, pressing the bottom plate 502 downwards when the detached part is desired to be placed, enabling the bottom plate 502 to slide in the placement groove 501 due to the second fixing plate 505 fixed on the bottom plate 502, and the stopper rod 506 fixed on the second fixing plate 505 sliding in the loading plate 301, thereby preventing the bottom plate 502 from sliding out of the placement groove 501, facilitating the collection of the loading plate 301 by the loading plate 601 by the sliding of the sliding tools 601 through the sliding of the sliding wrench 601 and the sliding of the loading plate 601, facilitating the loading plate 601 when the loading tools 601 placed on the loading plate 601, facilitating the loading plate 601 by the loading plate 601, and the sliding of the loading tools 601, and the loading tools 601, facilitating the loading tools 601, and the loading tools 601, preventing the loading plates 601, preventing the loading tools 601 from being placed on the loading tools 601, and the loading tools 601, preventing the loading tools 601 from being placed on the loading tools 601 by the loading tools 601, and the loading tools 601, preventing the loading plates 601, preventing the loading tools 601 by rotating tools 601, preventing the loading plates 601, the sliding sleeve 702 can be pushed to drive the sliding plate 601 fixed through the connecting rod 701 to slide, so that adjustment is facilitated, the second sliding block 703 is arranged in the sliding sleeve 702 in a sliding mode, the first inserting rod 704 is fixed on the second sliding block 703, and therefore the sliding sleeve 702 and the sliding plate 601 can be prevented from automatically sliding through the clamping of the first inserting rod 704 and the bearing plate 301, the clamping of the first inserting rod 704 and the bearing plate 301 can be firmer through the elastic force of the second spring 705 fixed between the second sliding block 703 and the sliding sleeve 702, the first inserting rod 704 and the bearing plate 301 can be driven to slide through pulling the pull ring 706 rotating on the first inserting rod 704, the sliding sleeve 702 can also be driven to slide through driving the first inserting rod 704, the fixing rod 801 is fixed in the power distribution cabinet body 1, and the fixing rod 802 slides on the fixing rod 801, so that the electric device can be installed by adjusting the fixing rod 802 up and down, when the fixing rod 802 needs to be adjusted, the pushing block 807 is pushed to drive the third sliding block 803 to slide, so that the second inserting rod 804 fixed on the fixing rod 803 can be clamped with the fixing rod 805.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims (10)

1. The utility model provides a from low-voltage distribution cabinet that area detection instrument was placed which characterized in that: the power distribution cabinet comprises a power distribution cabinet body (1), wherein a sliding structure (2) is installed on the power distribution cabinet body (1), a rotating structure (3) is installed on the sliding structure (2), a limiting structure (4) is installed on the sliding structure (2), a placing structure (5) is installed on the rotating structure (3), an adjusting structure (6) is installed on the rotating structure (3), a positioning structure (7) is installed on the rotating structure (3), and a fixing structure (8) is installed on the power distribution cabinet body (1);

sliding construction (2) are including fixed frame (201), sliding connection has fixed frame (201) on switch board body (1), be equipped with draw-in groove (202) on switch board body (1), fixedly connected with fixture block (203) are gone up in fixed frame (201), fixture block (203) and draw-in groove (202) block, the first slider of fixedly connected with (204) is gone up in fixture block (203), install first spring (205) between first slider (204) and fixed frame (201).

2. The low-voltage distribution cabinet with the detection tool for placement according to claim 1, characterized in that: the improved power distribution cabinet is characterized in that a first groove (206) is formed in the clamping block (203), a first limiting block (207) is fixedly connected to the fixing frame (201), a first limiting groove (208) is formed in the power distribution cabinet body (1), and the first limiting block (207) is connected with the first limiting groove (208) in a sliding mode.

3. The low-voltage distribution cabinet with the detection tool for placement according to claim 1, characterized in that: revolution mechanic (3) are including loading board (301), be connected with loading board (301) through rotating on fixed frame (201), be equipped with in fixed frame (201) and accomodate groove (302), fixedly connected with fixing base (303) are gone up in loading board (301), it is connected with first rotary rod (304) to rotate on fixing base (303), fixed frame (201) internal rotation is connected with second rotary rod (305), first rotary rod (304) and second rotary rod (305) rotate the connection.

4. The low-voltage distribution cabinet with the detection tool for placement according to claim 3, characterized in that: limit structure (4) include fixed block (401), fixedly connected with fixed block (401) are gone up in loading board (301), be equipped with fixed slot (402) in fixed frame (201), fixed slot (402) and fixed block (401) block, there is first fixed plate (403) through second stopper (406) sliding connection on fixed frame (201), first fixed plate (403) and fixed slot (402) block, be equipped with second recess (407) on first fixed plate (403).

5. The low-voltage distribution cabinet with detection tool placement according to claim 4, characterized in that: fixedly connected with rubber buffer (404) on first fixed plate (403), be equipped with second spacing groove (405) on fixed frame (201), second spacing groove (405) and rubber buffer (404) block.

6. The low-voltage distribution cabinet with the detection tool for placement according to claim 3, characterized in that: placing structure (5) includes standing groove (501), be equipped with standing groove (501) on loading board (301), sliding connection has bottom plate (502) in standing groove (501), fixedly connected with is protruding (503) on bottom plate (502), be equipped with third recess (504) on loading board (301), protruding (503) and third recess (504) block.

7. The low-voltage distribution cabinet with the detection tool for placement according to claim 6, characterized in that: the base plate (502) is fixedly connected with a second fixing plate (505), the second fixing plate (505) is fixedly connected with a limiting rod (506), and the limiting rod (506) is connected with the bearing plate (301) in a sliding mode.

8. The low-voltage distribution cabinet with the detection tool for placement according to claim 3, characterized in that: adjust structure (6) and include slide (601), sliding connection has slide (601) in loading board (301), be equipped with the first hole (602) of accomodating on slide (601), it accomodates hole (603) to be equipped with the second on slide (601), it is connected with ball (604) to rotate between slide (601) and loading board (301), be equipped with spout (605) on loading board (301), ball (604) roll in spout (605), it is connected with baffle (606) to rotate on loading board (301).

9. The low-voltage distribution cabinet with the detection tool for placement according to claim 8, characterized in that: location structure (7) are including connecting rod (701), fixedly connected with connecting rod (701) is gone up in slide (601), connecting rod (701) and loading board (301) sliding connection, fixedly connected with sliding sleeve (702) is gone up in connecting rod (701), sliding sleeve (702) sliding connection has second slider (703), first inserted bar (704) of fixedly connected with is gone up in second slider (703), first inserted bar (704) and loading board (301) block, install second spring (705) between second slider (703) and sliding sleeve (702), it is connected with pull ring (706) to rotate on first inserted bar (704).

10. The low-voltage distribution cabinet with the detection tool for placement according to claim 1, characterized in that: the fixing structure (8) comprises a fixing column (801), the fixing column (801) is fixedly connected in the power distribution cabinet body (1), a fixing rod (802) is fixedly connected on the fixing column (801), a third sliding block (803) is slidably connected in the fixing rod (802), a second insertion rod (804) is fixedly connected on the third sliding block (803), a slot (805) is formed in the fixing column (801), the second insertion rod (804) is clamped with the slot (805), a third spring (806) is installed between the third sliding block (803) and the fixing rod (802), and a pushing block (807) is fixedly connected on the third sliding block (803).

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