CN113783124B - Intelligent building power distribution cabinet protection device and protection method thereof - Google Patents

Abstract

The invention discloses an intelligent building power distribution cabinet protection device which comprises a power distribution cabinet, a foundation and a hidden groove, wherein the end part of the foundation is provided with an installation groove, a cabinet body of the power distribution cabinet is arranged in the installation groove, an electrical installation structure is arranged inside the power distribution cabinet, the hidden groove is arranged on the foundation, and a vibration monitoring structure is arranged inside the hidden groove. This technical scheme provides a switch board based on underground structure, this kind of switch board is inside from taking the maintenance instrument to the monitoring structure of top vibration formula, at first can the furthest play the guard action to the switch board, can carry out image monitoring to deliberate destruction again to a certain extent simultaneously.

Description

Intelligent building power distribution cabinet protection device and protection method thereof

Technical Field

The invention relates to the technical field of intelligent buildings, in particular to an intelligent building power distribution cabinet protection device.

Background

The intelligent building switch board is usually arranged outdoors to owing to adopt intelligent building, consequently the control switch of electrical component is complicated relatively, simultaneously in order to satisfy intelligent building's standard, the switch board also should adopt intelligent control and intelligent maintenance's mode, but the structure of present switch board is simple relatively, the protection performance is relatively poor, simultaneously owing to weather and artificial influence, lead to maintenance cycle little, the maintenance personnel is required to examine and repair regularly, and still need wear multiple instrument at the in-process of examining and repair, the phenomenon of steal appears simultaneously, the phenomenon of destruction also often appears, unable confirm relevant personnel, this case provides a protector of switch board.

Disclosure of Invention

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides an intelligent building switch board protector, includes switch board, ground and hidden groove, and the mounting groove has been seted up to the ground tip, and the cabinet body of switch board is arranged in the mounting groove, and the switch board is inside to be provided with electrical installation structure, and hidden groove sets up on the ground, and hidden inslot portion is provided with vibrations monitoring structure;

the end part of the mounting groove is provided with a shielding plate, the center part of the shielding plate is provided with an opening, and the end part of the power distribution cabinet is provided with a shielding structure;

the lifting structure comprises: a pair of mounting boxes, a pair of linear module translation stages, a pair of guide rails, a moving piece and a connecting body;

the pair of mounting boxes are fixed on the outer wall of the power distribution cabinet, sliding grooves are formed in the left side and the right side of the power distribution cabinet, the pair of linear module translation tables are respectively arranged in the pair of mounting boxes, the pair of guide rails are paved inside the pair of mounting boxes, the moving piece is paved on the pair of linear module translation tables, the left end and the right end of the moving piece are connected with the pair of guide rails, and the connecting body is connected with the moving piece;

the electrical mounting structure includes: the device comprises a frame, a plurality of transverse plates, a longitudinal plate, a pair of sliding bodies, an overhaul box and an overhaul structure;

the frame is arranged in the power distribution cabinet, a plurality of transverse plates are equidistantly arranged in the frame, longitudinal plates are arranged between the transverse plates, a pair of sliding bodies are arranged on the outer wall of the frame and connected with the connecting body after penetrating through the sliding grooves, the overhaul box is arranged on the transverse plates at the upper end part of the frame, the overhaul structure is arranged in the overhaul box, and the end part of the overhaul box is provided with an opening.

Preferably, the vibration monitoring structure comprises: the device comprises a camera, a mounting frame, a movable seat, a rotating motor, a rotating arm, an annular sliding rail, a lifting motor and a telescopic frame;

the bottom of the hidden groove is provided with a base plate, the lifting motor is arranged on the base plate, the telescopic frame is provided with a base plate, the annular sliding rail is paved on the base plate, the rotating motor is arranged at the central part of the base plate, the movable seat is movably arranged on the annular sliding rail, the driving end of the rotating motor is connected with the movable seat through the rotating arm, the camera is fixed on the movable seat through the mounting frame, the hidden groove is provided with a lifting protection structure, and the driving end of the rotating motor and the annular sliding rail are concentric circles.

Preferably, the shielding structure comprises: a pair of shielding covers, a pair of driving boxes, a pair of driving motors, a pair of racks and a pair of gears;

the driving box is arranged on the foundation and located on the left side and the right side of the mounting groove, the driving box is located at the bottom of the shielding plate, the opposite wall surfaces inside the driving box are provided with sliding grooves, the shielding covers are assembled in the driving box, the racks are located at the bottoms of the shielding covers, the driving motor is arranged inside the driving box, the driving end of the driving motor is connected with the gear, the gear can be meshed with the racks, the driving box is provided with an opening left and right, the shielding covers can move left and right in the opening, and a framework is additionally arranged on the foundation on one side of the driving box and used for preventing the ground surface from collapsing and extruding the shielding covers.

Preferably, the lifting type protection structure comprises: the lifting device comprises a pair of lifting sleeves, a pair of lifting columns, a pair of shock absorption columns, a pair of electric push rods, a shock absorption pad, a cover plate and a protection ring with circular ring notch at the end part;

the protection ring is embedded on the opening of hiding the groove top, and a pair of lift cover sets up inside the protection ring, and the lifting column bottom passes through the shock-absorbing column assembly inside the lift cover, and a pair of electric putter is located lifting sleeve one side, and the tip of apron is connected with a pair of lifting column, and the flexible end of a pair of electric putter is connected with the bottom of apron, and the shock pad is located between shock-absorbing column and the lifting column.

Preferably, the maintenance box is arranged on the transverse plate above the frame, and the maintenance structure is positioned inside the maintenance box.

Preferably, the service structure comprises: a multi-layer placing plate, a buckling plate and a plurality of connecting rods;

every two connecting rods are in a group, the two ends of the connecting rods are connected through pin shafts, the other two ends of the connecting rods are connected with the placing plates respectively, the two layers of the placing plates are connected through at least four groups of connecting rods, and the buckling plates are connected with the placing plates on the top layer through at least four groups of connecting rods.

Preferably, the power distribution cabinet is internally provided with a plurality of reinforcing ribs.

Preferably, the end of the cover plate is provided with a warning lamp and a reflective patch.

Preferably, the hidden groove is internally provided with an electric cabinet, the electric cabinet is internally provided with a control panel and a switch, and the electric cabinet is internally provided with a signal receiver;

further comprises: the remote control switch is communicated with the signal transmitter.

Preferably, the bottom of the placing plate is provided with a placing groove, and a rubber elastic pad is arranged in the placing groove and used for clamping and fixing the tool.

Advantageous effects

The invention provides an intelligent building power distribution cabinet protection device. Possess following beneficial effect, this technical scheme provides a switch board based on underground structure, and this kind of switch board is inside from taking the maintenance instrument to the monitoring structure of top vibration formula can at first play the guard action to the switch board, can carry out image monitoring to deliberate destruction to a certain extent again simultaneously.

Drawings

Fig. 1 is a schematic structural view of an intelligent building power distribution cabinet protection device.

Fig. 2 is a schematic diagram of a shielding structure of a protection device of an intelligent building power distribution cabinet.

Fig. 3 is a schematic structural diagram of a vibration monitoring structure of the intelligent building power distribution cabinet protection device.

Fig. 4 is a schematic diagram of a partial structure of a protection device for an intelligent building power distribution cabinet.

Fig. 5 is a schematic diagram of a lifting structure of a protection device for an intelligent building power distribution cabinet.

Fig. 6 is a schematic diagram of a vibration monitoring structure of an intelligent building power distribution cabinet protection device according to the present invention.

Fig. 7 is a schematic diagram of a partial structure of a protection device for an intelligent building power distribution cabinet.

Fig. 8 is a schematic structural view of an overhaul structure of the protection device of the intelligent building power distribution cabinet.

Fig. 9 is a schematic diagram of a partial structure of a shielding structure of an intelligent building power distribution cabinet protection device according to the present invention.

Fig. 10 is a schematic diagram of a partial structure of a protection device for an intelligent building power distribution cabinet.

In the figure: 1. a power distribution cabinet; 2. a foundation; 3. a hidden groove; 4. a mounting groove; 5. a shielding plate; 6. a mounting box; 7. a linear module translation stage; 8. a guide rail; 9. a moving member; 10. a connecting body; 11. a frame; 12. a transverse plate; 13. a longitudinal plate; 14. a slide body; 15. an overhaul box; 16. a camera; 17. a mounting frame; 18. a movable seat; 19. a rotating electric machine; 20. a rotating arm; 21. an annular slide rail; 22. a lifting motor; 23. a telescopic frame; 24. a shielding cover; 25. a drive box; 26. a skeleton; 27. a driving motor; 28. a rack; 29. a gear; 30. a lifting sleeve; 31. lifting columns; 32. a shock-absorbing column; 33. an electric push rod; 34. a shock pad; 35. a cover plate; 36. a protective ring; 37. placing a plate; 38. a buckling plate; 39. a connecting rod; 40. reinforcing ribs; 41. a control panel; 42. a signal receiver; 43. a signal transmitter; 44. a liquid trough.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the present invention provides a technical solution: an intelligent building power distribution cabinet protection device.

Example 1

The utility model provides an intelligent building switch board 1 protector, includes switch board 1, ground 2 and hidden groove 3, and mounting groove 4 has been seted up to ground 2 tip, and one side of switch board 1 is provided with elevation structure, and the cabinet body of switch board 1 is arranged in mounting groove 4, and switch board 1 is inside to be provided with electrical installation structure, and hidden groove 3 sets up on ground 2, and hidden groove 3 is inside to be provided with vibrations monitoring structure;

in the above description, the power distribution cabinet 1 is arranged in the installation groove 4 of the foundation 2, the electric installation structure is arranged in the power distribution cabinet 1, when the electric installation structure needs to be operated, the lifting structure is controlled to lift the electric installation structure, and when the equipment works normally, the monitoring on the outside of the foundation 2 is realized through the vibration monitoring structure;

specifically, the end part of the installation groove 4 is provided with a shielding plate 5, the center part of the shielding plate 5 is provided with an opening, and the end part of the power distribution cabinet 1 is provided with a shielding structure;

when the electrical installation structure is not required to be operated, the shielding structure at the end of the power distribution cabinet 1 can shield and prevent dust of electrical components inside the power distribution cabinet 1.

The lifting structure comprises: a pair of mounting boxes 6, a pair of linear module translation stages 7, a pair of guide rails 8, a moving member 9 and a connecting body 10;

the pair of mounting boxes 6 are fixed on the outer wall of the power distribution cabinet 1, sliding grooves are formed in the left side and the right side of the power distribution cabinet 1, a pair of linear module translation tables 7 are respectively mounted in the pair of mounting boxes 6, a pair of guide rails 8 are paved in the pair of mounting boxes 6, a moving piece 9 is paved on the pair of linear module translation tables 7, the left end and the right end of the moving piece 9 are connected with the pair of guide rails 8, and a connecting body 10 is connected with the moving piece 9;

in the above description, when the electrical structure in the power distribution cabinet 1 needs to be lifted, the pair of linear module translation stages 7 in the pair of installation boxes 6 are controlled to move the moving member 9 connected to the driving end, and the moving member 9 is located on the pair of guide rails 8, so that the moving member 9 moves with the connecting body 10, the connecting body 10 is connected with the electrical installation structure, and the electrical installation structure can be lifted;

specifically, the electrical mounting structure includes: a frame 11, a plurality of transverse plates 12, a longitudinal plate 13, a pair of sliding bodies 14, an overhaul box 15 and an overhaul structure;

the frame 11 is arranged in the power distribution cabinet 1, a plurality of transverse plates 12 are equidistantly arranged in the frame 11, longitudinal plates 13 are arranged between the transverse plates 12, a pair of sliding bodies 14 are arranged on the outer wall of the frame 11 and connected with the connecting body 10 after passing through the sliding grooves.

In the electric mounting structure, the frame 11 is used as the main frame 11, and the transverse plate 12 and the vertical plate 13 are placed on the frame 11 to mount and fix the electric components, and the pair of sliding bodies 14 are connected to the outer wall of the frame 11 and the pair of sliding bodies 14 are connected to the movable body, so that the movable body can be lifted up with the frame 11.

Specifically, the vibration monitoring structure includes: the camera comprises a camera 16, a mounting frame 17, a movable seat 18, a rotary motor 19, a rotary arm 20, an annular sliding rail 21, a lifting motor 22 and a telescopic frame 23;

the bottom of the hidden groove 3 is provided with a base plate, the lifting motor 22 is arranged on the base plate, the telescopic frame 23 is provided with a belt base plate, the annular sliding rail 21 is paved on the base plate, the rotating motor 19 is arranged at the central part of the base plate, the movable seat 18 is movably arranged on the annular sliding rail 21, the driving end of the rotating motor 19 is connected with the movable seat 18 through the rotating arm 20, the camera 16 is fixed on the movable seat 18 through the mounting frame 17, the hidden groove 3 is provided with a lifting protection structure, the lower end face of the shielding plate 5 is provided with a vibration sensor, and the vibration sensor is connected with the lifting motor 22 and the rotating motor 19 in the vibration monitoring structure through a controller.

It should be noted that, when the vibration sensor on the lower end surface of the shielding plate 5 receives a vibration signal, it means that the shielding plate 5 is forcibly opened or is impacted by external force, then the lifting motor 22 lifts the substrate, and the telescopic frame 23 assists the substrate, after the substrate lifts, the rotating arm 20 is driven by the rotating motor 19 to rotate the rotating arm 20, the rotating arm 20 moves on the annular sliding rail 21 with the moving seat 18, after the infrared tracker is installed on the moving seat 18, when the rotating arm 20 rotates 360 degrees, the moving seat 18 rotates 360 degrees, and object tracking is achieved through the infrared tracker, the camera 16 captures an image, and the image is transmitted to the overall control terminal, and the terminal comprises: mobile phones, computers, etc., terminals;

specifically, the shielding structure includes: a pair of shielding covers 24, a pair of drive cases 25, a pair of drive motors 27, a pair of racks 28, and a pair of gears 29;

the pair of driving boxes 25 are arranged on the foundation 2 and are positioned at the left side and the right side of the mounting groove 4 and are positioned at the bottom of the shielding plate 5, the inner opposite wall surfaces of the pair of driving boxes 25 are provided with sliding grooves, the pair of shielding covers 24 are assembled in the pair of driving boxes 25, the pair of racks 28 are positioned at the bottoms of the pair of shielding covers 24, the pair of driving motors 27 are arranged in the driving boxes 25, the driving ends of the driving motors 27 are connected with the gears 29, the gears 29 can be meshed with the racks 28, openings are formed in the left side and the right side of the pair of driving boxes 25, the shielding covers 24 can move left and right in the openings, and a framework 26 is additionally arranged on the foundation 2 at one side of the pair of driving boxes 25 and used for preventing the ground surface from collapsing and extruding the shielding covers 24.

In the above description, after the connected gears 29 are driven by the pair of driving motors 27, the gears 29 are meshed with the racks 28, and the racks 28 are fixed on the shielding cover 24, so that the shielding cover 24 can move in the sliding grooves on the pair of driving boxes 25, the shielding cover 24 can move, the inside of the shielding plate 5 is provided with a groove body for sliding the shielding cover 24, the shielding plate 5 slides in the groove body, so that the opening and closing of the shielding plate 5 are used, the opposite wall surfaces of the pair of shielding cover 24 plates are provided with waterproof sealing strips, the bottom of the mounting groove 4 is also provided with a liquid leakage guide groove, the outside of the power distribution cabinet 1 is provided with a liquid trough 44, the liquid leakage guide groove is composed of a plurality of guide pipes, and the guide pipes on one side of which the liquid is collected together are discharged by the plurality of guide pipes, so that the drainage pressure can be enhanced;

meanwhile, the left end and the right end of the shielding cover 24 are guide blocks with gradients, and a groove body structure with gradients matched with the guide blocks is formed on the opposite wall surface of the driving box 25.

Specifically, the lifting type protection structure comprises: a pair of lifting sleeves 30, a pair of lifting columns 31, a pair of shock absorption columns 32, a pair of electric push rods 33, a shock absorption pad 34, a cover plate 35 and a protection ring 36 with circular ring-shaped grooves at the end parts;

the protection ring 36 is embedded in the opening above the hidden groove 3, a pair of lifting sleeves 30 are arranged in the protection ring 36, the bottoms of lifting columns 31 are assembled in the lifting sleeves 30 through damping columns 32, a pair of electric push rods 33 are positioned on one side of the lifting sleeves 30, the end parts of a cover plate 35 are connected with the pair of lifting columns 31, the telescopic ends of the pair of electric push rods 33 are connected with the bottoms of the cover plate 35, and the damping columns 32 are damping springs.

In the above description, the pair of lifting columns 31 are protected by the pair of lifting sleeves 30, and the shock absorption of the pressure caused by the cover plate 35 connected to the lifting columns 31 is realized by the shock absorption columns 32, when the cover plate 35 needs to be lifted, the cover plate 35 is pushed to lift by the pair of electric push rods 33, the lifting columns 31 also follow the lifting sleeves 30 to lift, and after the cover plate 35 descends, the bottom of the cover plate 35 is provided with the annular sealing ring matched with the environment-friendly sheath, and the annular sealing ring can enter the annular groove of the protection ring 36, so that the sealing and the waterproof are realized.

Specifically, the service box 15 is disposed on the transverse plate 12 above the frame 11, and the service structure is located inside the service box 15.

The maintenance structure comprises: a multilayer placing plate 37, a buckling plate 38 and a plurality of connecting rods 39;

every two connecting rods 39 are in a group, the two ends are connected through pin shafts, the other two ends are respectively connected with the placing plates 37, the two layers of placing plates 37 are connected through at least four groups of connecting rods 39, and the buckling plates 38 are also connected with the placing plates 37 on the top layer through at least four groups of connecting rods 39.

It should be noted that, the maintenance structure is that the boards 37 are placed in the multilayer, the boards 37 are placed in the multilayer and are connected with each other through a plurality of connecting rods 39, when tools are needed to be used, the buckling boards 38 are lifted, the buckling boards 38 can lift the boards 37 in the multilayer through the plurality of connecting rods 39, and then the tools on the boards 37 are placed in each layer, so that the figures can be seen.

Specifically, the power distribution cabinet 1 has a plurality of reinforcing ribs 40 therein.

Specifically, the end of the cover plate 35 is provided with an alarm lamp and a reflective sticker.

Specifically, the hidden groove 3 is internally provided with an electric cabinet, the electric cabinet is internally provided with a control panel 41 and a switch, and the electric cabinet is internally provided with a signal receiver 42;

further comprises: a remote control switch and a signal emitter 43, the remote control switch is communicated with the signal emitter 43.

In the foregoing, the signal transmitter 43 is controlled by the remote switch to transmit a signal, the signal receiver 42 in the electric cabinet receives a signal, and then the controller controls the electric component in the lifting structure, so that the lifting of the electric installation structure can be completed, and the shielding structure is controlled to be opened.

Specifically, the bottom of the placement plate 37 has a placement groove inside which a rubber elastic pad for clamping and fixing the tool is provided.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The intelligent building power distribution cabinet protection method is characterized by being executed by utilizing an intelligent building power distribution cabinet protection device, wherein the intelligent building power distribution cabinet protection device comprises a power distribution cabinet, a foundation and a hidden groove, the end part of the foundation is provided with a mounting groove, a cabinet body of the power distribution cabinet is arranged in the mounting groove, an electrical mounting structure is arranged inside the power distribution cabinet, the hidden groove is arranged on the foundation, and a vibration monitoring structure is arranged inside the hidden groove;

the end part of the mounting groove is provided with a shielding plate, the center part of the shielding plate is provided with an opening, and the end part of the power distribution cabinet is provided with a shielding structure;

the lifting structure comprises: a pair of mounting boxes, a pair of linear module translation stages, a pair of guide rails, a moving piece and a connecting body;

the pair of mounting boxes are fixed on the outer wall of the power distribution cabinet, sliding grooves are formed in the left side and the right side of the power distribution cabinet, the pair of linear module translation tables are respectively arranged in the pair of mounting boxes, the pair of guide rails are paved inside the pair of mounting boxes, the moving piece is paved on the pair of linear module translation tables, the left end and the right end of the moving piece are connected with the pair of guide rails, and the connecting body is connected with the moving piece;

the electrical mounting structure includes: the device comprises a frame, a plurality of transverse plates, a longitudinal plate, a pair of sliding bodies, an overhaul box and an overhaul structure;

the frame is arranged in the power distribution cabinet, the transverse plates are equidistantly arranged in the frame, the longitudinal plates are arranged between the transverse plates, the pair of sliding bodies are arranged on the outer wall of the frame and connected with the connecting body after passing through the sliding grooves, the overhaul box is arranged on the transverse plates at the upper end part of the frame, the overhaul structure is arranged in the overhaul box, and the end part of the overhaul box is provided with an opening;

the intelligent building power distribution cabinet protection method comprises the following steps: s1: the power distribution cabinet is arranged in the installation groove of the foundation, the electric installation structure is arranged in the power distribution cabinet, when the electric installation structure needs to be operated, the lifting structure is controlled to lift the electric installation structure, and when the equipment works normally, the monitoring on the outside of the foundation is realized through the vibration monitoring structure;

s2, when the electric structure in the power distribution cabinet needs to be lifted, controlling a pair of linear module translation tables in a pair of installation boxes to move a moving piece connected with the driving end, wherein the moving piece is positioned on a pair of guide rails, so that the moving piece moves with a connecting body, and the connecting body is connected with the electric installation structure, so that the electric installation structure can be lifted;

s3, the electric installation structure takes the frame as a main frame, a transverse plate and a longitudinal plate are placed on the frame to realize the installation and fixation of electric components, a pair of sliding bodies are connected with the outer wall of the frame, and the pair of sliding bodies are connected with the connecting body, so that the connecting body can lift up with the frame;

the vibration monitoring structure comprises: the device comprises a camera, a mounting frame, a movable seat, a rotating motor, a rotating arm, an annular sliding rail, a lifting motor and a telescopic frame;

the bottom of the hidden groove is provided with a base plate, the lifting motor is arranged on the base plate, the telescopic frame is provided with a base plate, the annular sliding rail is paved on the base plate, the rotating motor is arranged at the central part of the base plate, the movable seat is movably arranged on the annular sliding rail, the driving end of the rotating motor is connected with the movable seat through a rotating arm, the camera is fixed on the movable seat through a mounting frame, the hidden groove is provided with a lifting protection structure, and the driving end of the rotating motor and the annular sliding rail are concentric circles; the lower end face of the shielding plate is provided with a vibration sensor which is connected with a lifting motor and a rotating motor in the vibration monitoring structure through a controller;

s4, after a vibration sensor on the lower end surface of the shielding plate receives a vibration signal, the shielding plate is forcibly opened or impacted by external force, then the substrate is lifted by a lifting motor and is assisted by a telescopic frame, after the substrate is lifted, the rotating arm is driven by a rotating motor to rotate a rotating arm, the rotating arm can move on an annular sliding rail with a movable seat, after an infrared tracker is arranged on the movable seat, after the rotating arm rotates, the rotating degree of the movable seat is moved, object tracking is realized through the infrared tracker, the camera is used for shooting, and the image is transmitted to a total control terminal, and the terminal comprises: a mobile phone and a computer;

the shielding structure comprises: a pair of shielding covers, a pair of driving boxes, a pair of driving motors, a pair of racks and a pair of gears;

the driving boxes are arranged on the foundation and positioned at the left side and the right side of the mounting groove and at the bottom of the shielding plate, the opposite wall surfaces in the driving boxes are provided with sliding grooves, the shielding covers are assembled in the driving boxes, the racks are positioned at the bottoms of the shielding covers, the driving motors are arranged in the driving boxes, the driving ends of the driving motors are connected with the gears, the gears can be meshed with the racks, openings are formed in the left side and the right side of the driving boxes, the shielding covers can move left and right in the openings, and a framework is additionally arranged on the foundation at one side of the driving boxes and used for preventing the ground surface from collapsing and extruding the shielding covers;

s5, after the connected gears are respectively driven by a pair of driving motors, the gears are meshed with racks, the shielding cover can move in a chute on a pair of driving boxes because the racks are fixed on the shielding cover, the shielding cover can move, a chute body for sliding the shielding cover is arranged in the shielding plate, the shielding plate slides in the chute body, so that an opening and a closing of the shielding plate are opened, the opposite wall surfaces of the pair of shielding cover plates are respectively provided with waterproof sealing strips, the bottoms of the mounting grooves are also provided with liquid leakage diversion grooves, meanwhile, a liquid running groove is arranged outside the power distribution cabinet, the liquid leakage diversion grooves consist of a plurality of diversion pipes, and the diversion pipes on one side of the plurality of layers of diversion pipes collect liquid together are discharged, so that the drainage pressure can be enhanced;

the lifting type protection structure comprises: the lifting device comprises a pair of lifting sleeves, a pair of lifting columns, a pair of shock absorption columns, a pair of electric push rods, a shock absorption pad, a cover plate and a protection ring with circular ring notch at the end part; the protection ring is embedded on an opening above the hidden groove, the pair of lifting sleeves are arranged in the protection ring, the bottoms of the lifting columns are assembled in the lifting sleeves through the shock absorption columns, the pair of electric push rods are positioned on one side of the lifting sleeves, the end parts of the cover plates are connected with the pair of lifting columns, the telescopic ends of the pair of electric push rods are connected with the bottoms of the cover plates, and the shock absorption pads are positioned between the shock absorption columns and the lifting columns;

s6, protecting a pair of lifting columns through a pair of lifting sleeves, damping the pressure brought by a cover plate connected with the lifting columns through damping columns, pushing the cover plate to rise through a pair of electric push rods when the cover plate needs to rise, and enabling the lifting columns to also rise along the lifting sleeves, wherein after the cover plate descends, the bottom of the cover plate is provided with an annular sealing ring matched with an environment-friendly sheath, and the annular sealing ring can enter an annular groove of the protection ring, so that sealing and water resistance are realized;

the maintenance structure comprises: a multi-layer placing plate, a buckling plate and a plurality of connecting rods;

every two connecting rods are in a group, the two ends of the connecting rods are connected through pin shafts, the other two ends of the connecting rods are respectively connected with the placing plates, the two layers of the placing plates are connected through at least four groups of connecting rods, and the buckling plates are also connected with the placing plates on the top layer through at least four groups of connecting rods;

s7, the overhaul structure is a multi-layer placing plate, the multi-layer placing plates are connected with each other through a plurality of connecting rods, when tools are needed to be used, the buckling plates are lifted, lifting of the multi-layer placing plates can be achieved through the plurality of connecting rods, and then tools on each layer of placing plates are taken out;

the hidden groove is internally provided with an electric cabinet, the electric cabinet is internally provided with a control panel and a switch, and the electric cabinet is internally provided with a signal receiver;

further comprises: the remote control switch is communicated with the signal transmitter;

and S8, controlling the signal transmitter to transmit signals through the remote control switch, receiving the signals through the signal receiver in the electric cabinet, and then controlling the electric parts in the lifting structure through the controller, so that the lifting of the electric installation structure can be completed, and the shielding structure is controlled to be opened.

2. The intelligent building power distribution cabinet protection method according to claim 1, wherein the power distribution cabinet is internally provided with a plurality of reinforcing ribs.

3. The protection method of the intelligent building power distribution cabinet according to claim 1, wherein an alarm lamp and a reflective sticker are arranged at the end part of the cover plate.

4. The protection method for intelligent building power distribution cabinets according to claim 1, wherein the bottom of the placing plate is provided with a placing groove, and a rubber elastic pad is arranged in the placing groove and used for clamping and fixing tools.