CN117791349B - Intelligent high-low voltage power distribution cabinet with remote power monitoring function - Google Patents

Abstract

The invention relates to the technical field of power distribution cabinets, in particular to an intelligent high-low voltage power distribution cabinet with a remote power monitoring function, which comprises a power distribution cabinet body, a mounting structure, an adjusting structure, a wiring structure, a sealing structure, a fixing structure and a monitoring structure.

Description

Intelligent high-low voltage power distribution cabinet with remote power monitoring function

Technical Field

The invention relates to the technical field of power distribution cabinets, in particular to an intelligent high-low voltage power distribution cabinet with a remote power monitoring function.

Background

The power monitoring is to monitor and detect the operation state of important equipment of the system in order to ensure the safe operation of the power system, and a high-low voltage power distribution cabinet is often used in the remote power monitoring process and is used for receiving instructions from a control system so as to realize remote control and monitoring.

However, after the wiring of the internal components is completed, the traditional power distribution cabinet body is usually characterized in that the electric wires are fixed on the cabinet body through wire buckles, the wire buckles are installed and detached through screws, the operation efficiency is low, wires slide easily, the cabinet body is damaged, the binding is performed through binding belts, the efficiency is high, the power distribution cabinet is not easy to detach, the stability is poor, the electric wires are easy to fall off, or the electric wires are mutually wound, so that the damage is caused;

When the internal components are installed, the shapes and the sizes of the components are different, so that the installation positions or the directions of the components are required to be continuously adjusted in the installation process, and the installation efficiency is low;

the inside electric wire of switch board body is usually through hole and external connection that switch board body bottom was reserved, and then easily causes inside components and parts to damage because of the rainwater is clean wet and dust is piled up, and the leakproofness is poor.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an intelligent high-low voltage power distribution cabinet with a remote power monitoring function.

The technical scheme adopted for solving the technical problems is as follows: the intelligent high-low voltage power distribution cabinet with the remote power monitoring function comprises a power distribution cabinet body, a mounting structure arranged on the power distribution cabinet body, an adjusting structure arranged on the mounting structure, a wiring structure arranged on the power distribution cabinet body, a sealing structure arranged on the power distribution cabinet body, a fixing structure arranged on the sealing structure and a monitoring structure arranged on the mounting structure;

The wiring structure includes the fixation clamp, fixedly connected with a plurality of fixation clamps on the switch board body, threaded connection has the connecting rod on the fixation clamp, the top fixedly connected with connecting block of connecting rod, sliding connection has the slider on the connecting rod, be equipped with the third spring between slider and the connecting block, the one end of third spring is contradicted in the slider, the other end fixedly connected with of third spring is in the connecting block, the third spring is in the outside of connecting rod, sliding connection has the arc on the slider, fixedly connected with second spring between arc and the slider, fixedly connected with spliced pole on the slider, fixedly connected with ring on the spliced pole.

Specifically, the first rubber pad of block has on the fixation clamp, fixedly connected with second dog on the connecting rod, the fixation clamp is "U" font structure.

Specifically, mounting structure includes the guide rail, fixedly connected with two guide rails on the switch board body, two sliding connection has a plurality of first mounting panels between the guide rail, fixedly connected with second mounting panel on the first mounting panel.

Specifically, two the guide rails are symmetrically arranged, and a plurality of first limiting holes are formed in the guide rails.

Specifically, the adjusting structure comprises a connecting plate, two connecting plates are clamped on the first mounting plate, two first mounting holes are formed in the connecting plate, the connecting plate is fixedly connected with the first mounting plate through bolts, a mounting cylinder is fixedly connected to the connecting plate, a limiting rod is slidably connected to the mounting cylinder, a first stop block is fixedly connected to the limiting rod, the first stop block is slidably connected to the mounting cylinder, and a first spring is fixedly connected between the first stop block and the inner wall of the mounting cylinder.

Specifically, the cross-section of gag lever post is "L" font structure, the one end block of gag lever post is in first spacing hole.

Specifically, seal structure includes three sealing member, be connected with the sealing member on the switch board body, every the adhesion has two second rubber pads on the sealing member, every the back fixedly connected with third rubber pad of sealing member.

Specifically, the second rubber pad is arc structure with the third rubber pad, every fixedly connected with installation cover on the sealing member, through bolt fixed connection between installation cover and the switch board body.

Specifically, fixed knot constructs including the fixed block, every fixedly connected with fixed block on the sealing member, the recess block on fixed block and the another sealing member, sliding connection has the fixture block on the fixed block, fixedly connected with fourth spring between fixture block and the fixed block, the fixture block joint is connected in the sealing member.

Specifically, the monitoring structure comprises a voltage sensor, the voltage sensor is clamped on the second mounting plate, a PLC controller, a data transmitter, a storage battery and a power-off processing unit are sequentially clamped on the second mounting plate, the output end of the voltage sensor is connected to the input end of the PLC controller, the data transmitter is in bidirectional electrical connection with the PLC controller, and the output end of the storage battery is connected to the input end of the PLC controller.

The beneficial effects of the invention are as follows:

(1) According to the intelligent high-low voltage power distribution cabinet with the remote power monitoring function, the installation structure and the adjusting structure are matched for use, the position of the first installation plate is convenient to adjust due to the arrangement of the adjusting structure, the flexibility is high, and the installation of components in the power distribution cabinet body is facilitated.

(2) According to the intelligent high-low voltage power distribution cabinet with the remote power monitoring function, the wiring structure is arranged on the power distribution cabinet body, the wiring structure is convenient to store and arrange the wires inside the power distribution cabinet body, damage caused by mutual winding of the wires can be avoided, and attractiveness is improved.

(3) According to the intelligent high-low voltage power distribution cabinet with the remote power monitoring function, the sealing structure is arranged on the power distribution cabinet body, the fixing structure is arranged on the sealing structure, the sealing structure is matched with the fixing structure for use, so that a closed space is formed inside the power distribution cabinet body conveniently, and damage to components caused by rainwater cleaning and wetting is avoided.

(4) According to the intelligent high-low voltage power distribution cabinet with the remote power monitoring function, the monitoring structure is arranged on the mounting structure, the monitoring regulation and control function of the remote terminal of the power distribution cabinet body is realized through the arrangement of the monitoring structure, so that the phenomenon that the power distribution cabinet body is difficult to monitor in a remote region is avoided, and the application range of the power distribution cabinet body is improved.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of an intelligent high-low voltage power distribution cabinet with remote power monitoring function according to an embodiment of the present invention;

FIG. 2 is a schematic view of a connection structure between a mounting structure and an adjusting structure according to the present invention;

FIG. 3 is a schematic view of the connection structure of the guide rail and the first mounting plate of the present invention;

FIG. 4 is an enlarged schematic view of the portion A shown in FIG. 2;

FIG. 5 is an enlarged schematic view of the B-section structure shown in FIG. 3;

FIG. 6 is a schematic structural view of a fixing clip according to the present invention;

FIG. 7 is a schematic view of the connection structure of the fixing clip and the connecting rod of the present invention;

FIG. 8 is a schematic structural view of a seal structure of the present invention;

FIG. 9 is a schematic view of a connection structure between a sealing member and a fixing structure according to the present invention

Fig. 10 is a schematic structural view of the fixing structure of the present invention.

In the figure: 1. a power distribution cabinet body; 2. a mounting structure; 201. a guide rail; 202. a first limiting hole; 203. a first mounting plate; 204. a second mounting plate; 3. an adjustment structure; 301. a mounting cylinder; 302. a connecting plate; 303. a limit rod; 304. a first spring; 305. a first stopper; 306. a first mounting hole; 4. a wiring structure; 401. a fixing clamp; 402. a first rubber pad; 403. a connecting rod; 404. a second stopper; 405. a slide block; 406. an arc-shaped plate; 407. a second spring; 408. a third spring; 409. a connecting column; 410. a circular ring; 411. a connecting block; 5. a sealing structure; 501. a seal; 502. a mounting sleeve; 503. a second rubber pad; 504. a third rubber pad; 6. a fixed structure; 601. a fixed block; 602. a clamping block; 603. a fourth spring; 7. monitoring the structure; 701. a voltage sensor; 702. a power-off processing unit; 703. a storage battery; 704. a data transmitter; 705. and a PLC controller.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-10, the intelligent high-low voltage power distribution cabinet with the remote power monitoring function comprises a power distribution cabinet body 1, a mounting structure 2 arranged on the power distribution cabinet body 1, an adjusting structure 3 arranged on the mounting structure 2, a wiring structure 4 arranged on the power distribution cabinet body 1, a sealing structure 5 arranged on the power distribution cabinet body 1, a fixing structure 6 arranged on the sealing structure 5, a monitoring structure 7 arranged on the mounting structure 2, wherein the wiring structure 4 comprises fixing clamps 401, a plurality of fixing clamps 401 are fixedly connected on the power distribution cabinet body 1, connecting rods 403 are connected on the fixing clamps 401 in a threaded manner, connecting blocks 411 are fixedly connected at the top ends of the connecting rods 403, sliding blocks 405 are connected on the connecting rods 403 in a sliding manner, a third spring 408 is arranged between the sliding blocks 405 and the connecting blocks 411, one ends of the third spring 408 are abutted against the sliding blocks 405, the other ends of the third spring are fixedly connected with the outer parts of the connecting rods 403, the sliding blocks 406 are connected with the sliding blocks 406 in a sliding manner, a circular connecting block 401 is fixedly connected with the sliding blocks 401, a circular connecting block 401 is fixedly connected with the connecting blocks 401, and a circular connecting block 401 is fixedly connected with a circular connecting block 401, and a circular connecting block 401 is fixedly connected with a circular connecting block 401;

Because a plurality of fixation clamps 401 of fixedly connected with through the bolt on the lateral wall of switch board body 1, and then only need pack into between arc 406 and the first rubber pad 402 with the electric wire, just realize holding in to the electric wire, when electric wire conflict arc 406, it slides along the inner wall of slider 405 to drive arc 406, then pack in the electric wire, make arc 406 top and fixation clamp 401 conflict again under the reset effect of second spring 407, alright effectively wrap up the electric wire in the inside of fixation clamp 401, and slider 405 upper surface conflict has third spring 408, the other end fixed connection of third spring 408 is in connecting block 411, and then slider 405 slides along connecting rod 403 under the thrust effect of third spring 408, and then slider 405 and arc 406 compress tightly the fixed to the electric wire, and be equipped with first rubber pad 402 on the fixation clamp 401, can effectively avoid the electric wire to damage when fixed, when needs take out the electric wire, because of threaded connection between connecting rod 403 and the fixation clamp 401, and then drive slider 405 to the direction removal of fixation clamp 401, until fixation clamp 401 no longer stop slider 405 rotates, the ring 410 passes through the spliced pole 409 and slider 405 and the thrust link, and the inside can be rotated from the connecting rod 401 and can be avoided the rotation of the connection rod 401 completely to rotate the connection rod 401, and the convenience is realized when the connection rod is completely rotates the connection rod 401, and the connection is completely rotates the connection rod is removed from the connection 401, and the connection is easy and the connection is avoided from the inside 401 to be completely to the connection has been removed from the connection 401.

Specifically, the installation structure 2 comprises a guide rail 201, two guide rails 201 are fixedly connected to the power distribution cabinet body 1, a plurality of first installation plates 203 are connected between the two guide rails 201 in a sliding manner, a second installation plate 204 is fixedly connected to the first installation plates 203, the two guide rails 201 are symmetrically arranged, a plurality of first limit holes 202 are formed in the guide rails 201, the adjusting structure 3 comprises a connecting plate 302, two connecting plates 302 are clamped to the first installation plates 203, two first installation holes 306 are formed in the connecting plate 302, the connecting plate 302 is fixedly connected with the first installation plates 203 through bolts, an installation cylinder 301 is fixedly connected to the connecting plate 302, a limit rod 303 is connected to the installation cylinder 301 in a sliding manner, a first stop block 305 is fixedly connected to the limit rod 303, the first stop block 305 is connected to the installation cylinder 301 in a sliding manner, a first spring 304 is fixedly connected between the first stop block 305 and the inner wall of the mounting cylinder 301, the cross section of the limiting rod 303 is in an L-shaped structure, one end of the limiting rod 303 is clamped in the first limiting hole 202, the door of the power distribution cabinet body 1 is opened, then the position of the first mounting plate 203 is required to be adjusted to fix internal components of the power distribution cabinet body 1, the two limiting rods 303 are pressed towards the middle, the limiting rods 303 drive the first stop block 305 to slide towards the inside of the mounting cylinder 301 and compress the first spring 304, meanwhile, the end part of the limiting rod 303 is not clamped with the first limiting hole 202 formed in the guide rail 201, the first mounting plate 203 is pulled up and down to adjust the position, after the first mounting plate 203 slides to a proper position, the limiting rod 303 is released again, and the limiting rod 303 is clamped with the first limiting hole 202 again under the reset action of the first spring 304, alright fix first mounting panel 203, stability is strong, when need dismantle and change gag lever post 303, is equipped with two first mounting holes 306 on the connecting plate 302, passes through the bolt fastening between first mounting hole 306 and the first mounting panel 203, and then alright dismantle mounting cylinder 301 together with gag lever post 303 through the dismantlement bolt, is convenient for change the part, easy and simple to handle, and the flexibility is strong.

Specifically, seal structure 5 includes three sealing member 501, be connected with sealing member 501 on the switch board body 1, every the adhesion has two second rubber pads 503 on the sealing member 501, every the back fixedly connected with third rubber pad 504 of sealing member 501, second rubber pad 503 and third rubber pad 504 all are the arc structure, every fixedly connected with installation cover 502 on the sealing member 501, pass the hole of reserving on the switch board body 1 with the electric wire through bolt fixed connection between installation cover 502 and the switch board body 1, then select sealing member 501 of suitable size, laminate the electric wire with the second rubber pad 503 on the sealing member 501, again with three same sealing member 501 through fixture block 602 joint in proper order, two second rubber pads 503 laminate each other and constitute a circular, the inside airtight space that forms of switch board body of being convenient for, avoid the rainwater to clean wet and arouse components and parts damage.

Specifically, fixed knot constructs 6 includes fixed block 601, every fixedly connected with fixed block 601 on the sealing member 501, the recess block on fixed block 601 and another sealing member 501, sliding connection has fixture block 602 on the fixed block 601, fixedly connected with fourth spring 603 between fixture block 602 and the fixed block 601, fixture block 602 block is connected in sealing member 501, when mutual block is as an integer between three same sealing member 501, under the reset action of fourth spring 603, drive the inside fixture block 602 outside roll-off of fixed block 601 to with the recess block on the sealing member 501, thereby effectively interconnect two sealing members 501, stability is strong, then passes through installation cover 502 with three sealing member 501, and uses the bolt fastening on switch board body 1, and the inside leakproofness of switch board body 1 has been guaranteed to third rubber pad 504 and switch board body 1, when needs to separate two sealing members 501, only need use the screw to inwards press fixture block 602 until not block 602 and sealing member 501 again, and two sealing members 501 are closely laminated, and the flexibility is easy and simple and convenient again with the operation is strong between two sealing members 501 and sealing member 501 again.

Specifically, the monitoring structure 7 includes a voltage sensor 701, a voltage sensor 701 is clamped on the second mounting board 204, a PLC controller 705, a data transmitter 704, a storage battery 703 and a power-off processing unit 702 are sequentially clamped on the second mounting board 204, an output end of the voltage sensor 701 is connected to an input end of the PLC controller 705, the data transmitter 704 is electrically connected to the PLC controller 705 in both directions, an output end of the storage battery 703 is connected to an input end of the PLC controller 705, after the position of the first mounting board 203 is regulated, the voltage sensor 701, the power-off processing unit 702, the storage battery 703, a data transmitter 704 and the PLC controller 705 are sequentially clamped on the second mounting board 204, first, an external circuit and the voltage sensor 701 are assembled by a worker, the voltage sensor 701 detects the circuit in real time, when the power distribution cabinet body 1 works, if the voltage changes or fails, the voltage sensor will transmit the changed information to the PLC controller 705, then the PLC controller 705 determines that the voltage is higher than a set value, and then the PLC controller 705 will determine that the voltage is dangerous, when it is determined that the voltage is higher than the set, it is high, the dangerous information is transmitted to the PLC controller is difficult to the power-off-state power supply terminal, and the PLC controller is remotely transmitted to the power-on the remote control terminal, and the power-on the remote control terminal is controlled to the power-on the power-supply terminal, and the power-supply terminal is remotely receives the remote control signal, and the data transmitter 704, and the remote control signal is transmitted to the power-control signal, and the data is transmitted to the remote control device.

When the power distribution cabinet is used, the door of the power distribution cabinet body 1 is opened, then the position of the first mounting plate 203 is required to be adjusted to fix internal components of the power distribution cabinet body 1, the two limiting rods 303 are pressed towards the middle, the limiting rods 303 drive the first stop blocks 305 to slide towards the inside of the mounting cylinder 301, the first springs 304 are compressed, meanwhile, the end parts of the limiting rods 303 are not clamped with the first limiting holes 202 formed in the guide rails 201 any more, the first mounting plate 203 is pulled up and down to adjust the position, after the first mounting plate 203 slides to a proper position, the limiting rods 303 are loosened, and then the limiting rods 303 are clamped with the first limiting holes 202 again under the reset action of the first springs 304, so that the first mounting plate 203 can be fixed, the stability is high, when the limiting rods 303 are required to be disassembled and replaced, the two first mounting holes 306 are formed in the connecting plate 302, the first mounting cylinder 301 and the limiting rods 303 are disassembled by the disassembling bolts, and the replacement parts are convenient, and the flexibility is high;

when the position of the first mounting plate 203 is adjusted, the voltage sensor 701, the power-off processing unit 702, the storage battery 703, the data transmitter 704 and the PLC controller 705 are clamped on the second mounting plate 204 in sequence, firstly, an external circuit and the voltage sensor 701 are assembled by a worker, the circuit is detected in real time by the voltage sensor 701 (the specific model of the voltage sensor 701 is CHV-100), when the power distribution cabinet body 1 works, if the voltage changes or fails, the voltage sensor 701 transmits the changed information to the PLC controller 705 (the specific model of the PLC controller 705 is Siemens S7-600), then the PLC controller 705 judges danger according to whether the voltage is higher than a set value, when the danger is judged, the danger information is transmitted to the data transmitter 704 (the specific model of the voltage sensor 701 and the data transmitter 704 work by adopting a method commonly used in the prior art), the received information is rapidly transmitted to a remote end through a regional network by the data transmitter 704 (the specific model of the data transmitter 704 is DL 6300), the remote end receives the information in real time and integrates the information, then an operation command is transmitted to the regional network, and the power distribution cabinet body is difficult to realize the regulation and control of the power distribution cabinet body 1, and the remote monitoring function of the PLC controller is difficult to realize;

the electric wire passes through a hole reserved on the power distribution cabinet body 1, then a sealing piece 501 with a proper size is selected, the electric wire is attached to a second rubber pad 503 on the sealing piece 501, then three identical sealing pieces 501 are sequentially clamped through clamping blocks 602, the two second rubber pads 503 are attached to each other and form a circle, the electric wire is tightly attached to the inner walls of the two second rubber pads 503, a sealed space is formed inside the power distribution cabinet body 1, the damage of components caused by the clean wetting of rainwater is avoided, when the three identical sealing pieces 501 are mutually clamped into a whole, under the reset action of a fourth spring 603, a clamping block 602 inside a fixing block 601 is driven to slide out outwards and is clamped with a groove on the sealing piece 501, so that the two sealing pieces 501 are effectively connected with each other, the stability is strong, then the three sealing pieces 501 are fixed on the power distribution cabinet body 1 through mounting sleeves 502 by bolts, the third rubber pad 504 arranged on the inner side of the sealing piece 501 is tightly attached to the outer wall of the power distribution cabinet body 1, the sealing piece 1 is guaranteed, when the two sealing pieces are required to be separated, and the two sealing pieces 501 are required to be mutually pressed down, and the sealing pieces are required to be mutually separated by the clamping blocks 602, and the sealing pieces are not required to be mutually pressed down, and are easy and flexible;

Because a plurality of fixation clamps 401 of fixedly connected with through the bolt on the lateral wall of switch board body 1, and then only need pack into between arc 406 and the first rubber pad 402 with the electric wire, just realize holding in to the electric wire, when electric wire conflict arc 406, it slides along the inner wall of slider 405 to drive arc 406, then pack in the electric wire, make arc 406 top and fixation clamp 401 conflict again under the reset effect of second spring 407, alright effectively wrap up the electric wire in the inside of fixation clamp 401, and slider 405 upper surface conflict has third spring 408, the other end fixed connection of third spring 408 is in connecting block 411, and then slider 405 slides along connecting rod 403 under the thrust effect of third spring 408, and then slider 405 and arc 406 compress tightly the fixed to the electric wire, and be equipped with first rubber pad 402 on the fixation clamp 401, can effectively avoid the electric wire to damage when fixed, when needs take out the electric wire, because of threaded connection between connecting rod 403 and the fixation clamp 401, and then drive slider 405 to the direction removal of fixation clamp 401, until fixation clamp 401 no longer stop slider 405 rotates, the ring 410 passes through the spliced pole 409 and slider 405 and the thrust link, and the inside can be rotated from the connecting rod 401 and can be avoided the rotation of the connection rod 401 completely to rotate the connection rod 401, and the convenience is realized when the connection rod is completely rotates the connection rod 401, and the connection is completely rotates the connection rod is removed from the connection 401, and the connection is easy and the connection is avoided from the inside 401 to be completely to the connection has been removed from the connection 401.

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 characteristics 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 disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (9)

1. The intelligent high-low voltage power distribution cabinet with the remote power monitoring function is characterized by comprising a power distribution cabinet body (1), a mounting structure (2) arranged on the power distribution cabinet body (1), an adjusting structure (3) arranged on the mounting structure (2), a wiring structure (4) arranged on the power distribution cabinet body (1), a sealing structure (5) arranged on the power distribution cabinet body (1), a fixing structure (6) arranged on the sealing structure (5) and a monitoring structure (7) arranged on the mounting structure (2);

The wiring structure (4) comprises fixing clamps (401), a plurality of fixing clamps (401) are fixedly connected to the power distribution cabinet body (1), connecting rods (403) are connected to the fixing clamps (401) in a threaded mode, connecting blocks (411) are fixedly connected to the top ends of the connecting rods (403), sliding blocks (405) are connected to the connecting rods (403) in a sliding mode, third springs (408) are arranged between the sliding blocks (405) and the connecting blocks (411), one ends of the third springs (408) are abutted to the sliding blocks (405), the other ends of the third springs (408) are fixedly connected to the connecting blocks (411), the third springs (408) are located outside the connecting rods (403), arc plates (406) are connected to the sliding blocks (405) in a sliding mode, and second springs (407) are fixedly connected between the arc plates (406) and the sliding blocks (405). The fixing clamp is characterized in that a first rubber pad (402) is clamped on the fixing clamp (401), a second stop block (404) is fixedly connected on the connecting rod (403), the fixing clamp (401) is of a U-shaped structure, a connecting column (409) is fixedly connected on the sliding block (405), and a circular ring (410) is fixedly connected on the connecting column (409).

2. The intelligent high-low voltage power distribution cabinet with a remote power monitoring function according to claim 1, wherein: the mounting structure (2) comprises guide rails (201), two guide rails (201) are fixedly connected to the power distribution cabinet body (1), a plurality of first mounting plates (203) are connected between the guide rails (201) in a sliding mode, and second mounting plates (204) are fixedly connected to the first mounting plates (203).

3. The intelligent high-low voltage power distribution cabinet with a remote power monitoring function according to claim 2, wherein: the adjusting structure (3) comprises a connecting plate (302), two connecting plates (302) are clamped on a first mounting plate (203), two first mounting holes (306) are formed in the connecting plate (302), the connecting plate (302) is fixedly connected with the first mounting plate (203) through bolts, a mounting cylinder (301) is fixedly connected with the connecting plate (302), a limiting rod (303) is connected to the mounting cylinder (301) in a sliding mode, two guide rails (201) are symmetrically arranged, a plurality of first limiting holes (202) are formed in the guide rails (201), and one end of the limiting rod (303) is clamped in the first limiting holes (202).

4. The intelligent high-low voltage power distribution cabinet with a remote power monitoring function according to claim 3, wherein: the limiting rod (303) is fixedly connected with a first stop block (305), and the first stop block (305) is slidably connected with the mounting cylinder (301).

5. The intelligent high-low voltage power distribution cabinet with the remote power monitoring function according to claim 4, wherein: the cross section of the limiting rod (303) is of an L-shaped structure, and a first spring (304) is fixedly connected between the first stop block (305) and the inner wall of the mounting cylinder (301).

6. The intelligent high-low voltage power distribution cabinet with a remote power monitoring function according to claim 1, wherein: seal structure (5) are including three sealing member (501), sealing member (501) are fan-shaped structure, and is three sealing member (501) concatenation becomes circular structure, be connected with sealing member (501) on switch board body (1), every semicircular hole form structure has been seted up to the both sides of sealing member (501), and inside second rubber pad (503) that is adhered to of every semicircular hole form structure, every the back fixedly connected with third rubber pad (504) of sealing member (501).

7. The intelligent high-low voltage power distribution cabinet with a remote power monitoring function according to claim 6, wherein: the second rubber pad (503) and the third rubber pad (504) are of arc structures, each sealing piece (501) is fixedly connected with a mounting sleeve (502), and the mounting sleeves (502) are fixedly connected with the power distribution cabinet body (1) through bolts.

8. The intelligent high-low voltage power distribution cabinet with a remote power monitoring function according to claim 7, wherein: fixed knot constructs (6) including fixed block (601), every fixedly connected with fixed block (601) on sealing member (501), recess block on fixed block (601) and another sealing member (501), sliding connection has fixture block (602) on fixed block (601), fixedly connected with fourth spring (603) between fixture block (602) and fixed block (601), fixture block (602) block is connected in sealing member (501).

9. The intelligent high-low voltage power distribution cabinet with a remote power monitoring function according to claim 2, wherein: the monitoring structure (7) comprises a voltage sensor (701), the voltage sensor (701) is clamped on the second mounting plate (204), a PLC (programmable logic controller) (705), a data transmitter (704), a storage battery (703) and a power-off processing unit (702) are sequentially clamped on the second mounting plate (204), the output end of the voltage sensor (701) is connected to the input end of the PLC (705), the data transmitter (704) is electrically connected with the PLC (705) in a bidirectional mode, and the output end of the storage battery (703) is connected with the input end of the PLC (705).