CN111900685A

CN111900685A - Bus duct device with intelligent temperature and humidity monitoring function and using method thereof

Info

Publication number: CN111900685A
Application number: CN202010679690.3A
Authority: CN
Inventors: 许珠; 周延龙
Original assignee: Yangzhou Huayu Electrical Equipment Co ltd
Current assignee: Yangzhou Huayu Electrical Equipment Co ltd
Priority date: 2020-07-15
Filing date: 2020-07-15
Publication date: 2020-11-06
Anticipated expiration: 2040-07-15
Also published as: CN111900685B

Abstract

The invention belongs to the technical field of bus duct devices, and particularly relates to a bus duct device capable of intelligently monitoring temperature and humidity and a using method thereof. The invention is provided with two groups of fuses which are respectively communicated with two groups of circuits on the bus duct, when the circuit capacity needs to be changed, the insulation block is rotated, the butt joint notches in the insulation block are respectively separated from the current corresponding conductive flat cables, and the insulation block is butted with the other circuit after being rotated, so that the two groups of fuses in the insulation block are switched, and the current circuit capacity is changed.

Description

Bus duct device with intelligent temperature and humidity monitoring function and using method thereof

Technical Field

The invention relates to the technical field of bus duct devices, in particular to a bus duct device capable of intelligently monitoring temperature and humidity and a using method thereof.

Background

The bus duct, it is a kind of enclosed metal apparatus formed by copper, aluminium bus post, used for distributing the greater power for every component of the disperse system, has replaced the wire cable more and more in the electric power transmission main line project of indoor low pressure, it regards copper or aluminium as the conductor, use non-olefinic insulating support, then load into the new conductor that the metal trough forms after installing, compared with traditional cable, fully embody its superiority while carrying the heavy current, because of adopting new technology, new process, contact resistance and temperature rise of the joint of bus duct and junction of branch line mouth greatly reduced at both ends, and used the high-quality insulating material in the bus duct, thus has improved the safe reliability of the bus duct, make the whole system more perfect; it can be made into plug-in type closed bus with plug-in junction boxes at intervals, or made into feed type closed bus without junction box in the middle. In the power supply system of a high-rise building, power and lighting lines are often arranged separately, and a bus duct is vertically installed along a wall for one time or more times as a power supply main line in an electric shaft.

The current bus duct device has the following problems:

1. the current bus duct device cannot switch currents with different capacities among different lines.

2. The current bus duct device can not realize circuit switching control according to the change of temperature and humidity in the conductor.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a bus duct device capable of intelligently monitoring temperature and humidity and a using method thereof, and solves the problems that the current bus duct device cannot switch currents with different capacities among different lines and cannot realize circuit switching control according to the change of temperature and humidity in a conductor.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a bus duct device capable of intelligently monitoring temperature and humidity comprises a bus duct bottom plate, wherein the bus duct bottom plate is of a cross structure, a first sliding block and a second sliding block are movably embedded at two ends of the top surface of the bus duct bottom plate through guide rails, transverse conductive bars are symmetrically embedded and fixed on the first sliding block and the second sliding block, a third sliding block and a fourth sliding block are movably embedded and fixed at two sides of the bus duct bottom plate through guide rails, longitudinal conductive bars are symmetrically embedded and fixed on the third sliding block and the fourth sliding block, strip-shaped grooves are formed in two ends and two sides of the bus duct bottom plate, the bottom ends of the first sliding block, the second sliding block, the third sliding block and the fourth sliding block penetrate through the strip-shaped grooves and protrude out of the bottom surface of the bus duct bottom plate, a bevel gear transmission box is fixedly connected to the middle part of the bottom surface of the bus duct bottom plate, and, four threaded rods extend out of the side of the bevel gear transmission box, the four threaded rods are respectively screwed with the bottom ends of the first slider, the second slider, the third slider and the fourth slider, four electric push rods are fixedly connected to the side of the bus duct bottom plate, a lifting plate is supported and connected to the top ends of the four electric push rods, a vertical shaft penetrates through the middle of the lifting plate in a rotating mode, an insulating block is fixedly connected to the bottom end of the vertical shaft, a first butt joint notch and a second butt joint notch are fixedly connected to the two ends of the insulating block, a first fuse is connected in series between the first butt joint notch and the second butt joint notch, a third butt joint notch and a fourth butt joint notch are fixedly connected to the two sides of the insulating block, a second fuse is connected in series between the third butt joint notch and the fourth butt joint notch, and a transposition motor is fixedly installed on one side, the output shaft of the transposition motor is fixedly connected with a worm shaft, the top end of the vertical shaft is fixedly connected with a worm wheel disc, the worm shaft is meshed with the worm wheel disc, an intelligent control device is fixedly mounted on the edge side of the top surface of the lifting plate, three motor drivers are fixedly mounted on the intelligent control device, and the three motor drivers are respectively and electrically connected with a clutch motor, a transposition motor and four electric push rods.

As a preferred technical scheme of the present invention, temperature and humidity sensors are uniformly distributed and fixed on the insulating blocks, and the temperature and humidity sensors are electrically connected to a signal input end of the intelligent control device.

As a preferred technical scheme of the invention, the side of the bus duct bottom plate is fixedly connected with a connecting rod, and the connecting rod is provided with a connecting through hole.

As a preferred technical scheme of the invention, an insulating shield is buckled on the outer wall of the bus duct bottom plate, and an observation window is arranged on the top surface of the insulating shield.

A method for using a bus duct device capable of intelligently monitoring temperature and humidity comprises the following steps,

s1: fix in the wall or on the unsettled ceiling of being fixed in the bus duct bottom plate through the connecting rod, make initial condition be: the first butt joint notch and the second butt joint notch are connected between the two transverse conducting bars; the third butt joint notch and the fourth butt joint notch are connected between the two longitudinal conductive bars;

s2: the clutch motor is electrified in the positive direction, and is respectively screwed with the four threaded rods through the bevel gear transmission case to drive the first sliding block, the second sliding block, the third sliding block and the fourth sliding block to be away from each other, so that the two groups of transverse conductive bars and the two groups of longitudinal conductive bars are driven to be away from each other;

s3: the four electric push rods are electrified in the forward direction, and the electric push rods push the insulating square blocks, the first butt joint notch, the second butt joint notch, the third butt joint notch and the fourth butt joint notch to ascend through the lifting plate;

s4: starting a transposition motor, wherein the transposition motor drives a worm shaft-meshed worm wheel to rotate for ninety degrees through the worm shaft-meshed worm wheel disc;

s5: the four electric push rods are reversely electrified, and the electric push rods pull the insulation square blocks, the first butt joint notch, the second butt joint notch, the third butt joint notch and the fourth butt joint notch to descend to the initial surface;

s6: the clutch motor is reversely electrified, the clutch motor is respectively screwed with the four threaded rods through the bevel gear transmission case to drive the first sliding block, the second sliding block, the third sliding block and the fourth sliding block to mutually approach, so as to drive the two groups of transverse conductive bars and the two groups of longitudinal conductive bars to mutually approach, and at the moment, the first butt joint groove opening and the second butt joint groove opening are connected between the two groups of longitudinal conductive bars; the third butt joint notch and the fourth butt joint notch are connected between the two groups of transverse conducting bars;

s7: the intelligent control device inputs a set working program, and when the temperature and humidity sensor detects that the temperature is abnormal, the intelligent control device controls the output of the three motor drivers according to the set program to execute the actions.

(III) advantageous effects

Compared with the prior art, the invention provides a bus duct device capable of intelligently monitoring temperature and humidity and a using method thereof, and the bus duct device has the following beneficial effects:

1. according to the bus duct device with the intelligent temperature and humidity monitoring function and the using method thereof, two groups of fuses are arranged to be respectively communicated with two groups of circuits on a bus duct, when the circuit capacity needs to be changed, the insulating square block is rotated, the butt joint notches in the insulating square block are respectively separated from the current corresponding conductive flat cables, and the insulating square block is then butted with another circuit after being rotated, so that the two groups of fuses in the insulating square block are switched, and the current circuit capacity is changed.

2. According to the bus duct device capable of intelligently monitoring the temperature and the humidity and the using method thereof, temperature and humidity sensors are uniformly distributed and fixed on an insulating square block, the temperature and the humidity in the insulating square block are monitored in real time, monitoring data are sent to an intelligent control device, and the intelligent control device determines whether to give an alarm or carry out connection and disconnection of a circuit or carry out circuit switching according to a program set in the intelligent control device.

Drawings

FIG. 1 is a schematic top view of a subjective structure of the present invention;

FIG. 2 is a schematic bottom view of the subjective structure of the present invention;

FIG. 3 is a schematic side sectional view of the present invention;

FIG. 4 is a schematic view of the top-down structure of the present invention.

In the figure: 1. a bus duct bottom plate; 2. a first slider; 3. a second slider; 4. a transverse conducting bar; 5. a third slider; 6. a fourth slider; 7. a longitudinal conductive bar; 8. a bevel gear box; 9. a clutch motor; 10. a threaded rod; 11. an electric push rod; 12. a lifting plate; 13. a vertical axis; 14. an insulating square block; 15. a first docking slot; 16. a second docking slot; 17. a first fuse; 18. a third docking slot; 19. a fourth docking slot; 20. a second fuse; 21. a transposition motor; 22. a worm shaft; 23. a worm gear disc; 24. an intelligent control device; 25. a motor driver; 26. a temperature and humidity sensor; 27. a connecting rod; 28. an insulating shield; 29. and (4) an observation window.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1-4, the present invention provides the following technical solutions: a bus duct device with intelligent temperature and humidity monitoring function comprises a bus duct bottom plate 1, wherein the bus duct bottom plate 1 is of a cross structure, a first sliding block 2 and a second sliding block 3 are movably embedded at two ends of the top surface of the bus duct bottom plate 1 through guide rails, transverse conductive bars 4 are symmetrically embedded and fixed on the first sliding block 2 and the second sliding block 3, a third sliding block 5 and a fourth sliding block 6 are movably embedded and fixed at two sides of the bus duct bottom plate 1 through guide rails, longitudinal conductive bars 7 are symmetrically embedded and fixed on the third sliding block 5 and the fourth sliding block 6, strip-shaped grooves are formed at two ends and two sides of the bus duct bottom plate 1, the bottom ends of the first sliding block 2, the second sliding block 3, the third sliding block 5 and the fourth sliding block 6 penetrate through the strip-shaped grooves and protrude out of the bottom surface of the bus duct bottom plate 1, a bevel gear transmission box 8 is fixedly connected to the middle part of the bottom surface of, four threaded rods 10 extend out of the side of the bevel gear transmission box 8, the four threaded rods 10 are respectively screwed with the bottom ends of a first sliding block 2, a second sliding block 3, a third sliding block 5 and a fourth sliding block 6, four electric push rods 11 are fixedly connected with the side of the bus duct bottom plate 1, a lifting plate 12 is connected with the top ends of the four electric push rods 11 in a supporting manner, a vertical shaft 13 penetrates through the middle of the lifting plate 12 in a rotating manner, an insulating block 14 is fixedly connected with the bottom end of the vertical shaft 13, a first butt joint notch 15 and a second butt joint notch 16 are fixedly connected with the two ends of the insulating block 14, a first fuse 17 is connected in series between the first butt joint notch 15 and the second butt joint notch 16, a third butt joint notch 18 and a fourth butt joint notch 19 are fixedly connected with the two sides of the insulating block 14, a second fuse 20 is connected in series between the third butt joint notch 18 and the fourth butt joint notch 19, a worm shaft 22 is fixedly connected to an output shaft of the transposition motor 21, a worm wheel disc 23 is fixedly connected to the top end of the vertical shaft 13, the worm shaft 22 is meshed with the worm wheel disc 23, an intelligent control device 24 is fixedly installed on the edge side of the top surface of the lifting plate 12, three motor drivers 25 are fixedly installed on the intelligent control device 24, and the three motor drivers 25 are respectively and electrically connected with the clutch motor 9, the transposition motor 21 and the four electric push rods 11.

In this embodiment, the current limiting parameters of the first fuse 17 and the second fuse 20 may be the same or different, when the first fuse 17 connects two sets of transverse conductive bars 4 through the first butt notch 15 and the second butt notch 16, it limits the current of the two sets of transverse conductive bars 4, similarly, when the second fuse 20 connects two sets of longitudinal conductive bars 7 through the third butt notch 18 and the fourth butt notch 19, it limits the current of the two sets of longitudinal conductive bars 7, when the current limiting specification of the first fuse 17 does not conform to the two sets of transverse conductive bars 4, and the second fuse 20 conforms to the specification, it needs to switch the two, at this time, the clutch motor 9 is started forward by the first motor driver 25, the clutch motor 9 drives four threaded rods 10 to rotate forward through the bevel gear box 8, the four threaded rods 10 are screwed to drive the first slider 2, the second slider 3, the third slider 5 and the fourth slider 6 to move away from each other, until two groups of transverse conductive rows 4 are separated from a first butt joint notch 15 and a second butt joint notch 16, two groups of longitudinal conductive rows 7 are separated from a third butt joint notch 18 and a fourth butt joint notch 19, at the moment, a second motor driver 25 is used for positively electrifying four electric push rods 11, the four electric push rods 11 are used for pushing a lifting plate 12 to push an insulating square 14, the first butt joint notch 15, the second butt joint notch 16, the third butt joint notch 18 and the fourth butt joint notch 19 to rise to a set height, then a transposition motor 21 is started through the third motor driver 25, the transposition motor 21 is used for driving a worm wheel disc 23 to drive a worm shaft 22 to mesh with a worm wheel disc 23 to rotate ninety degrees through the worm shaft 22, then the four electric push rods 11 are reversely electrified, the electric push rods 11 are used for pulling the insulating square 14, the first butt joint notch 15, the second butt joint notch 16, the third butt joint notch 18 and the fourth butt joint notch 19 to fall to an initial surface, then, the clutch motor 9 is electrified reversely, the clutch motor 9 drives the first slide block 2, the second slide block 3, the third slide block 5 and the fourth slide block 6 to mutually approach through the screw threads of the bevel gear transmission case 8 and the four threaded rods 10 respectively, so as to drive the two groups of transverse conductive bars 4 and the two groups of longitudinal conductive bars 7 to mutually approach, and at the moment, the first butt joint notch 15 and the second butt joint notch 16 are connected between the two groups of longitudinal conductive bars 7; the third butt joint notch 18 and the fourth butt joint notch 19 are connected between the two groups of transverse conductive bars 4 to realize the switching of the first fuse 17 and the second fuse 20, so that the fusing current values between the two groups of transverse conductive bars 4 and between the two groups of longitudinal conductive bars 7 are changed, and the safety parameters are adjusted according to the specification of an electrical appliance;

the intelligent control device 24 adopts an SMT32F03 type MCU chip, corresponding programs are input into the intelligent control device 24, the intelligent control device has signal analysis and operation functions, input information is calculated, calculation results are compared with data stored in the intelligent control device, and then corresponding instructions and data are output from transportation results through an output port of the intelligent control device, so that in the using process of the intelligent control device, the intelligent control device 24 can receive external signals in real time, calculate the external signals according to the programs of the intelligent control device and then pertinently output corresponding adjusting instructions;

the motor driver 25 is an ASD-B02 type servo driver or a DM860H type step driver, and can control the rotational speed and the rotational direction of the motor precisely according to a set pulse current.

Specifically, temperature and humidity sensors 26 are uniformly fixed on the insulating block 14, and the temperature and humidity sensors 26 are electrically connected to the signal input end of the intelligent control device 24.

In this embodiment, the temperature and humidity sensors 26 are uniformly fixed on the insulating block 14, the temperature and humidity sensors 26 adopt SM7820B type temperature and humidity sensor probes, the temperature working range is-30 ℃ to 80 ℃, and the humidity detection interval is 0% to 100% RH, so that the temperature and the humidity in the insulating block 14 can be monitored in real time, monitoring data is sent to the intelligent control device 24, and the intelligent control device 24 determines whether to alarm or perform on-off of a circuit or perform circuit switching according to a program set in the intelligent control device 24.

Specifically, the side of the bus duct bottom plate 1 is fixedly connected with a connecting rod 27, and the connecting rod 27 is provided with a connecting through hole.

In this embodiment, the side of the busway bottom plate 1 is fixedly connected with a connecting rod 27, the connecting rod 27 is provided with a connecting through hole, the connecting rod 27 is used for fixing the busway bottom plate 1 on a wall or a ceiling in a suspension manner, and the connecting through hole is used for a screw for through connection.

Specifically, the outer wall of the bus duct bottom plate 1 is buckled with an insulating shield 28, and the top surface of the insulating shield 28 is provided with an observation window 29.

In this embodiment, an insulating shield 28 is fastened to an outer wall of the bus duct bottom plate 1 to isolate the butt joint portion of the wire of the present invention from the outside, and an observation window 29 is arranged on the top surface of the insulating shield 28 to be used for the butt joint state of the through line when the worker inspects the bus duct.

s1: fix bus duct bottom plate 1 in the wall or on unsettled being fixed in the ceiling through connecting rod 27, make initial condition be: the first butt joint notch 15 and the second butt joint notch 16 are connected between the two transverse conductive bars 4; the third butt joint notch 18 and the fourth butt joint notch 19 are connected between the two longitudinal conductive bars 7;

s2: the clutch motor 9 is electrified in the positive direction, the clutch motor 9 drives the first slide block 2, the second slide block 3, the third slide block 5 and the fourth slide block 6 to be away from each other through the screw joint of the bevel gear transmission case 8 and the four threaded rods 10 respectively, and further drives the two groups of transverse conductive bars 4 and the two groups of longitudinal conductive bars 7 to be away from each other;

s3: the four electric push rods 11 are electrified in the forward direction, and the electric push rods 11 push the insulating square blocks 14, the first butt joint notch 15, the second butt joint notch 16, the third butt joint notch 18 and the fourth butt joint notch 19 to ascend through the lifting plate 12;

s4: starting the transposition motor 21, wherein the transposition motor 21 drives the worm shaft 22 to engage the worm wheel disc 23 to rotate for ninety degrees through the worm shaft 22 engaging the worm wheel disc 23;

s5: the four electric push rods 11 are electrified reversely, and the electric push rods 11 pull the insulation square blocks 14, the first butt joint notch 15, the second butt joint notch 16, the third butt joint notch 18 and the fourth butt joint notch 19 to descend to the initial surface;

s6: the clutch motor 9 is electrified reversely, the clutch motor 9 drives the first slide block 2, the second slide block 3, the third slide block 5 and the fourth slide block 6 to mutually approach through the screw threads of the bevel gear transmission case 8 and the four threaded rods 10 respectively, so as to drive the two groups of transverse conductive bars 4 and the two groups of longitudinal conductive bars 7 to mutually approach, and at the moment, the first butt joint notch 15 and the second butt joint notch 16 are connected between the two groups of longitudinal conductive bars 7; the third butt joint notch 18 and the fourth butt joint notch 19 are connected between the two groups of transverse conductive bars 4;

s7: the intelligent control device 24 inputs a set operation program, and when the temperature/humidity sensor 26 detects a temperature abnormality, the intelligent control device 24 controls the three motor drivers 25 to output according to the set operation program, thereby executing the above-described operation.

The intelligent control device 24 and the temperature and humidity sensor 26 in this embodiment are known technologies that have been disclosed to be widely used in industrial production and daily life.

The working principle and the using process of the invention are as follows: when the fuse is switched, a clutch motor 9 is started in a forward direction through a first motor driver 25, the clutch motor 9 drives four threaded rods 10 to rotate in the forward direction through a bevel gear transmission case 8, the four threaded rods 10 are screwed to drive a first sliding block 2, a second sliding block 3, a third sliding block 5 and a fourth sliding block 6 to be away from each other until two groups of transverse conductive bars 4 are separated from a first butt joint notch 15 and a second butt joint notch 16, two groups of longitudinal conductive bars 7 are separated from a third butt joint notch 18 and a fourth butt joint notch 19, at the moment, the four electric push rods 11 are electrified in the forward direction through a second motor driver 25, the four electric push rods 11 push a lifting plate 12 to push an insulating block 14, the first butt joint notch 15, the second butt joint notch 16, the third butt joint notch 18 and the fourth butt joint notch 19 to rise to a set height, then a transposition motor 21 is started through a third motor driver 25, the transposition motor 21 drives the worm shaft 22 to engage the worm wheel disc 23 through the worm shaft 22 to rotate for ninety degrees, then the four electric push rods 11 are reversely electrified, the electric push rods 11 pull the insulating square block 14, the first butt joint notch 15, the second butt joint notch 16, the third butt joint notch 18 and the fourth butt joint notch 19 to descend to an initial surface, then the clutch motor 9 is reversely electrified, the clutch motor 9 drives the first sliding block 2, the second sliding block 3, the third sliding block 5 and the fourth sliding block 6 to mutually approach through the screw threads of the bevel gear transmission case 8 and the four threaded rods 10 respectively, and further drives the two groups of transverse conductive bars 4 and the two groups of longitudinal conductive bars 7 to mutually approach, and at the moment, the first butt joint notch 15 and the second butt joint notch 16 are connected between the two groups of longitudinal conductive bars 7; the third and fourth docking notches 18 and 19 are connected between the two sets of transverse conductive bars 4 to enable switching of the first and second fuses 17 and 20, thereby changing the fusing current values between the two sets of transverse conductive bars 4 and between the two sets of longitudinal conductive bars 7.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a bus duct device with intelligent monitoring humiture, includes bus duct bottom plate (1), its characterized in that: the bus duct bottom plate (1) is of a cross structure, a first sliding block (2) and a second sliding block (3) are movably embedded at two ends of the top surface of the bus duct bottom plate (1) through guide rails, a transverse conductive bar (4) is symmetrically embedded and fixed on the first sliding block (2) and the second sliding block (3), a third sliding block (5) and a fourth sliding block (6) are movably embedded at two sides of the bus duct bottom plate (1) through guide rails, a longitudinal conductive bar (7) is symmetrically embedded and fixed on the third sliding block (5) and the fourth sliding block (6), strip-shaped grooves are formed at two ends and two sides of the bus duct bottom plate (1), the bottom ends of the first sliding block (2), the second sliding block (3), the third sliding block (5) and the fourth sliding block (6) penetrate through the strip-shaped grooves and protrude out of the bottom surface of the bus duct bottom plate (1), a bevel gear box (8) is fixedly connected at the middle part of the bottom surface of the bus duct, an input shaft of the bevel gear transmission box (8) is fixedly connected with a clutch motor (9), four threaded rods (10) extend out of the side of the bevel gear transmission box (8), the four threaded rods (10) are respectively screwed with the bottom ends of a first slider (2), a second slider (3), a third slider (5) and a fourth slider (6), the side of the bus duct bottom plate (1) is fixedly connected with four electric push rods (11), the top ends of the four electric push rods (11) are in supporting connection with a lifting plate (12), a vertical shaft (13) penetrates through the middle of the lifting plate (12) in a rotating mode, the bottom end of the vertical shaft (13) is fixedly connected with an insulating block (14), two ends of the insulating block (14) are fixedly connected with a first butt joint notch (15) and a second butt joint notch (16), and a first fuse (17) is connected in series between the first butt joint notch (15) and the second butt joint notch (16), a third butt joint notch (18) and a fourth butt joint notch (19) are fixedly connected with the two sides of the insulation block (14), a second fuse (20) is connected in series between the third butt joint notch (18) and the fourth butt joint notch (19), a transposition motor (21) is fixedly arranged on one side of the top end of the lifting plate (12), a worm shaft (22) is fixedly connected with an output shaft of the transposition motor (21), the top end of the vertical shaft (13) is fixedly connected with a worm wheel disc (23), the worm shaft (22) is meshed with the worm wheel disc (23), an intelligent control device (24) is fixedly arranged on the edge side of the top surface of the lifting plate (12), three motor drivers (25) are fixedly mounted on the intelligent control device (24), and the three motor drivers (25) are respectively and electrically connected with the clutch motor (9), the transposition motor (21) and the four electric push rods (11).

2. The bus duct device with intelligent temperature and humidity monitoring function according to claim 1, characterized in that: temperature and humidity sensors (26) are uniformly distributed and fixed on the insulating square blocks (14), and the temperature and humidity sensors (26) are electrically connected with the signal input end of the intelligent control device (24).

3. The bus duct device with intelligent temperature and humidity monitoring function according to claim 1, characterized in that: the avris fixedly connected with connecting rod (27) of bus duct bottom plate (1), be equipped with on connecting rod (27) and connect the perforation.

4. The bus duct device with intelligent temperature and humidity monitoring function according to claim 1, characterized in that: the outer wall of the bus duct bottom plate (1) is buckled with an insulating shield (28), and the top surface of the insulating shield (28) is provided with an observation window (29).

5. The use method of the bus duct device with the intelligent temperature and humidity monitoring function according to any one of claims 1 to 4, is characterized in that: comprises the following steps of (a) carrying out,

s1: fix in the wall or on unsettled being fixed in the ceiling through connecting rod (27) bus duct bottom plate (1), make initial condition be: the first butt joint notch (15) and the second butt joint notch (16) are connected between the two transverse conductive bars (4); the third butt joint notch (18) and the fourth butt joint notch (19) are connected between the two longitudinal conductive bars (7);

s2: the clutch motor (9) is electrified in the forward direction, the clutch motor (9) is respectively screwed with four threaded rods (10) through a bevel gear transmission case (8) to drive a first sliding block (2), a second sliding block (3), a third sliding block (5) and a fourth sliding block (6) to be away from each other, and then two groups of transverse conductive bars (4) and two groups of longitudinal conductive bars (7) are driven to be away from each other;

s3: the four electric push rods (11) are electrified in the forward direction, and the electric push rods (11) push the insulating square blocks (14), the first butt joint notches (15), the second butt joint notches (16), the third butt joint notches (18) and the fourth butt joint notches (19) to ascend through the lifting plate (12);

s4: starting the transposition motor (21), wherein the transposition motor (21) drives the worm shaft (22) to be meshed with the worm wheel disc (23) to rotate for ninety degrees through the worm shaft (22) being meshed with the worm wheel disc (23);

s5: the four electric push rods (11) are electrified reversely, and the electric push rods (11) pull the insulating square blocks (14), the first butt joint notches (15), the second butt joint notches (16), the third butt joint notches (18) and the fourth butt joint notches (19) to descend to the initial surface;

s6: the clutch motor (9) is electrified reversely, the clutch motor (9) is respectively screwed with four threaded rods (10) through a bevel gear transmission case (8) to drive a first sliding block (2), a second sliding block (3), a third sliding block (5) and a fourth sliding block (6) to mutually approach, so that two groups of transverse conductive bars (4) and two groups of longitudinal conductive bars (7) are driven to mutually approach, and at the moment, a first butt joint notch (15) and a second butt joint notch (16) are connected between the two groups of longitudinal conductive bars (7); the third butt joint notch (18) and the fourth butt joint notch (19) are connected between the two groups of transverse conductive bars (4);

s7: the intelligent control device (24) inputs a set working program, when the temperature and humidity sensor (26) detects temperature abnormity, the intelligent control device (24) controls the output of the three motor drivers (25) according to the set program to execute the action.