CN113542556A

CN113542556A - Building monitoring system and device based on big data

Info

Publication number: CN113542556A
Application number: CN202110723245.7A
Authority: CN
Inventors: 钱强; 冷锴
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2021-10-22

Abstract

The invention relates to the technical field of monitoring, and discloses a building monitoring system based on big data, which comprises a storage system, wherein the storage system comprises: the central management platform is used for receiving the operation information of each branch end and directly acting on each branch end to output commands; and the illumination, water supply and fire fighting monitoring module is used for monitoring information in all aspects of the residential system in real time. This building monitored control system and device based on big data is influenced by the air current through the tectorial membrane and constantly deforms, drives flexible winding rod cutting magnetic induction line and circular telegram to the electromagnetism stopper, and the electromagnetism stopper promotes magnetorheological suspensions then to collect and exert the magnetic field solidification to it to strengthen being connected between quill shaft and the connection frame, cooperation electrostatic ball produces the dust on electrostatic absorption camera lens surface, pulverizes the large granule dust in cooperation close extension spring, thereby the effectual life who prolongs equipment, the effectual quality and the operating stability of filming of having promoted equipment.

Description

Building monitoring system and device based on big data

Technical Field

The invention relates to the technical field of monitoring, in particular to a building monitoring system and a building monitoring device based on big data.

Background

In addition, due to the influence of air flow blowing in the process, a certain amount of dust can be adhered to the video camera lens, if a traditional cleaning mechanism is adopted for removing dust, the video camera lens is shielded to reduce the video camera quality, and the problem that the operation of the corresponding mechanism is not stable enough is caused.

Aiming at the defects of the prior art, the invention provides a building monitoring system and a building monitoring device based on big data, which have the advantages of effectively prolonging the service life of equipment, effectively improving the shooting and recording quality and the running stability of the equipment, and solving the problems that the service life of general building monitoring equipment is easily shortened, and the shooting and recording quality and the stability are poor when the general building monitoring equipment is subjected to high-intensity airflow in the using process.

Disclosure of Invention

In order to effectively prolong the service life of the equipment and effectively improve the shooting and recording quality and the running stability of the equipment, the invention provides the following technical scheme: a big-data based building monitoring system comprising a storage system, the storage system comprising:

the central management platform is used for receiving the operation information of each branch end and directly acting on each branch end to output commands;

the monitoring terminal is used for packing information of each monitored device by a user;

the cloud server is used for uploading and downloading various monitored data;

the monitoring equipment is used for monitoring a final carrier for terminal information acquisition;

the lighting, water supply and fire fighting monitoring module is used for monitoring information of all aspects of the residential system in real time;

the storage module is used for sorting the monitoring information and reserving a short-term file;

the storage module is divided into two operation modes, namely manual operation permanent filing for a user and periodical self-checking of the system for filing.

Further comprising a protection system, the storage system comprising:

monitoring feedback, which is used for detecting the network or natural environment where the monitoring equipment is located;

monitoring feedback is divided into two types of feedback, and when monitoring information is invaded by an external network, the system automatically carries out early warning and virus killing; when the monitoring equipment is naturally damaged, the system automatically performs physical protection.

Preferably, the lower extreme of coupling frame rotates and is connected with the limiting mechanism, and the limiting mechanism includes the quill shaft, the guiding gutter has been seted up to the bottom of quill shaft, the inner chamber upper wall fixedly connected with tectorial membrane of guiding gutter, the fixed grafting in middle part of quill shaft has the magnetic conduction frame that extends to in the coupling frame, the middle part sliding connection of magnetic conduction frame has the flexible wire winding pole that extends to on the tectorial membrane, the equal sliding connection of inner chamber left and right sides of magnetic conduction frame has the electromagnetism to fill in.

Preferably, magnetorheological fluid is filled on the left side and the right side of the inner cavity of the magnetic conduction frame, the magnetorheological fluid is a suspension formed by mixing high-permeability and low-magnetic-hysteresis tiny magnetic particles and non-magnetic-conduction liquid, the suspension has low viscosity under the condition of a zero magnetic field and high viscosity under the condition of a strong magnetic field, a sealing ring extending to the inner wall of the connecting frame is movably connected to the lower end of the magnetic conduction frame, and a tooth groove is formed in the side wall of the bottom of the inner cavity of the connecting frame, so that when the magnetorheological fluid is pushed to the edge of the inner cavity of the connecting frame and is added to the high-strength magnetic field, the magnetorheological fluid can be solidified to effectively block the rotation of the hollow shaft.

Preferably, the telescopic winding rod is electrically connected with the electromagnetic plug, so that the telescopic winding rod can be directly introduced into the electromagnetic plug after acquiring the induced current.

Preferably, after the electromagnetic bungs are electrified, the magnetic poles of the adjacent surfaces between the magnetic field generating regions of the magnetic conduction frame are the same, so that the electromagnetic bungs on the two sides can be displaced back to back under the action of the repulsive force.

Preferably, still include clean mechanism, clean mechanism fixed connection is at the lower extreme of injecing the mechanism, clean mechanism is including shooting the video-corder piece, the electrostatic adsorption groove has all been seted up to the left and right sides wall chamber of shooting the video-corder piece, the inner chamber swing joint in electrostatic adsorption groove has the electrostatic ball, the equal slip grafting in upper and lower both ends in electrostatic adsorption groove has the insulator spindle, the insulator spindle is kept away from the one end fixedly connected with guide post in electrostatic adsorption groove, the dense extension spring of fixedly connected with between the guide post.

Preferably, the surface of one end of the insulating rod, which is close to the electrostatic adsorption groove, is uniformly provided with the caulking groove and the silk block fixedly connected in the caulking groove, so that when the insulating rod is displaced in the electrostatic adsorption groove in a reciprocating manner, the silk block can generate static electricity by friction with the port of the electrostatic adsorption groove without influencing the smoothness of the movement of the insulating rod.

Preferably, the flowing direction of the current in the guide rods is the same based on two directions in the unilateral direction, and the guide rods in the unilateral direction are parallel to each other, so that when the current with the same magnitude is introduced into the two guide rods in the unilateral direction, the two guide rods can attract each other to move according to the right-hand rule.

Advantageous effects

Compared with the prior art, the building monitoring system and the building monitoring device based on the big data have the following beneficial effects that:

1. the building monitoring system and the device based on the big data have the advantages that strong airflow rushes into the diversion trench, so that the covering film is pressed to drive the telescopic winding rod to move downwards, the winding part of the telescopic winding rod moves in the magnetic conduction frame, because the strength of the air current flowing into the diversion trench is changed at any moment, the telescopic winding rod shows reciprocating deformation in a range of larger air current velocity, induced current is introduced into the electromagnetic stoppers on the two corresponding sides to displace in a back-to-back manner, the initially spread magnetorheological fluid is quickly extruded to the edge of the connecting frame to gather and enhance the activity, the liquid level of the corresponding magnetorheological fluid is raised and solidified to block the relative movement of the hollow shaft and the connecting frame, the design enhances the stability of the equipment during braking, avoids the pressure increase of a connecting part or small-range deviation caused by the influence of external high-strength airflow, and effectively prolongs the service life of the equipment.

2. The building monitoring system and the device thereof based on big data, after induced currents with the same direction are automatically introduced into the guide rods at two sides, the adjacent guide rods mutually attract and move according to the right hand rule, the synchronous insulating rod drives the silk block to rub with the electrostatic adsorption tank so as to enable the electrostatic ball to be fully charged with electrostatic charges, dust adhered to the lens at the front end of the shooting block along with external air flow is correspondingly adsorbed onto the electrostatic ball, thereby achieving the purpose of ensuring shooting quality, and the guide rods are continuously changed by magnetic field acting force between the current intensity influences and the compact extension springs are continuously expanded and contracted to crush larger-size dust on a moving path, and the crushed tiny dust falls off and smoothly enters the electrostatic adsorption tank under the vibration of the compact extension springs and the action of the electrostatic field so as to avoid the dust inlet port of the electrostatic adsorption tank, therefore, the shooting quality and the running stability of the equipment are effectively improved.

Drawings

FIG. 1 is a diagram of a storage system for building monitoring according to the present invention.

Fig. 2 is a diagram of a building monitoring protection system according to the invention.

FIG. 3 is a front cross-sectional view of the present invention;

FIG. 4 is a front cross-sectional view of a connecting portion of a camera block or the like according to the present invention;

FIG. 5 is a front sectional view of a hollow shaft and the like connecting portion of the present invention;

fig. 6 is a front sectional view of the connecting portion such as the flux conducting frame of the present invention.

In the figure: 1. a connecting frame; 2. a limiting mechanism; 21. a hollow shaft; 22. a diversion trench; 23. coating a film; 24. a magnetic conduction frame; 25. a telescopic winding rod; 26. electromagnetic resisting; 3. a cleaning mechanism; 31. shooting and recording blocks; 32. an electrostatic adsorption tank; 33. an electrostatic ball; 34. an insulating rod; 35. a guide rod; 36. a compact tension spring.

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.

The first embodiment is as follows:

referring to fig. 3, 5 and 6, a big data based building monitoring system includes a storage system, the storage system including:

the cloud server is used for uploading and downloading various monitored data;

Further comprising a protection system, the storage system comprising:

A building monitoring device based on big data comprises a connecting frame 1, the lower end of the connecting frame 1 is rotatably connected with a limiting mechanism 2, the limiting mechanism 2 comprises a hollow shaft 21, the bottom of the hollow shaft 21 is provided with a diversion trench 22, the upper wall of the inner cavity of the diversion trench 22 is fixedly connected with a coating film 23, the middle part of the hollow shaft 21 is fixedly inserted with a magnetic conduction frame 24 extending into the connecting frame 1, the left side and the right side of the inner cavity of the magnetic conduction frame 24 are both filled with magnetorheological fluid, the magnetorheological fluid is suspension liquid formed by mixing high-permeability and low-magnetic-hysteresis tiny magnetic particles and non-magnetic-conductive liquid, the magnetorheological fluid has low viscosity under the condition of a zero magnetic field and high viscosity under the condition of a high magnetic field, in addition, the lower end of the magnetic conduction frame 24 is movably connected with a sealing ring extending to the inner wall of the connecting frame 1, the side wall of the bottom of the inner cavity of the connecting frame 1 is provided with tooth grooves, thereby the magnetorheological fluid is pushed to the edge of the inner cavity of the connecting frame 1 and is added with a high-strength magnetic field, the hollow shaft 21 can be effectively blocked from rotating by solidification, the middle part of the magnetic conduction frame 24 is connected with a telescopic winding rod 25 extending to the coating film 23 in a sliding mode, the telescopic winding rod 25 is electrically connected with the electromagnetic interference plug 26, so that the telescopic winding rod 25 can be directly led into the electromagnetic interference plug 26 after acquiring induced current, the electromagnetic interference plug 26 is connected to the left side and the right side of the inner cavity of the magnetic conduction frame 24 in a sliding mode, the electromagnetic interference plug 26 is the same as the magnetic pole of the adjacent surface between magnetic field generation areas of the magnetic conduction frame 24 after being electrified, the electromagnetic interference plugs 26 on the two sides can be enabled to move back to back under the action of repulsive force, the coating film 23 is influenced by airflow to deform continuously, the telescopic winding rod 25 is driven to cut the magnetic induction line to electrify the electromagnetic interference plug 26, the electromagnetic interference plug 26 then pushes magnetorheological fluid to collect and apply a magnetic field to the magnetorheological fluid to solidify, and connection between the hollow shaft 21 and the connection frame 1 is strengthened.

Example two:

please refer to fig. 3 and 4, a building monitoring system and device based on big data, further comprising a cleaning mechanism 3, the cleaning mechanism 3 is fixedly connected to the lower end of the limiting mechanism 2, the cleaning mechanism 3 comprises a camera block 31, electrostatic adsorption grooves 32 are formed in the wall cavities of the left and right sides of the camera block 31, an inner cavity of the electrostatic adsorption groove 32 is movably connected with an electrostatic ball 33, insulating rods 34 are inserted into the upper and lower ends of the electrostatic adsorption groove 32 in a sliding manner, caulking grooves are uniformly formed in the surface of one end of the insulating rod 34 close to the electrostatic adsorption groove 32, and silk blocks are fixedly connected in the caulking grooves, so that when the insulating rod 34 is displaced in the electrostatic adsorption groove 32 in a reciprocating manner, the silk blocks can generate static electricity by friction with the port of the electrostatic adsorption groove 32 without affecting the smooth movement of the insulating rod 34, a diversion rod 35 is fixedly connected to one end of the insulating rod 34 far away from the electrostatic adsorption groove 32, the circulation direction of the current in the diversion rod 35 is the same based on two directions in the single-side direction, and the diversion rods 35 in the single-side direction are mutually connected with each other Parallel, thereby when making two water conservancy diversion poles 35 of unilateral let in the electric current of equidimension, according to the right hand rule these two water conservancy diversion poles 35 can attract mutually and remove, the dense extension spring 36 of fixedly connected with between the water conservancy diversion pole 35, it has the induced-current of equidimension and the same direction to lead to through adjacent water conservancy diversion pole 35 inside, and the electric current size is continuous to be changed, insulator spindle 34 is driven promptly and is rubbed with electrostatic absorption groove 32, make electrostatic ball 33 produce static, the dirt on absorption lens surface, cooperate the dense extension spring 36 intermittent type to deform and can pulverize the large granule dirt, avoid the dirt entry port of electrostatic absorption groove 32 to block up.

Example three:

referring to fig. 3-6, a big data based building monitoring system includes a storage system comprising:

the cloud server is used for uploading and downloading various monitored data;

Further comprising a protection system, the storage system comprising:

A building monitoring device based on big data comprises a connecting frame 1, the lower end of the connecting frame 1 is rotatably connected with a limiting mechanism 2, the limiting mechanism 2 comprises a hollow shaft 21, the bottom of the hollow shaft 21 is provided with a diversion trench 22, the upper wall of the inner cavity of the diversion trench 22 is fixedly connected with a coating film 23, the middle part of the hollow shaft 21 is fixedly inserted with a magnetic conduction frame 24 extending into the connecting frame 1, the left side and the right side of the inner cavity of the magnetic conduction frame 24 are both filled with magnetorheological fluid, the magnetorheological fluid is suspension liquid formed by mixing high-permeability and low-magnetic-hysteresis tiny magnetic particles and non-magnetic-conductive liquid, the magnetorheological fluid has low viscosity under the condition of a zero magnetic field and high viscosity under the condition of a high magnetic field, in addition, the lower end of the magnetic conduction frame 24 is movably connected with a sealing ring extending to the inner wall of the connecting frame 1, the side wall of the bottom of the inner cavity of the connecting frame 1 is provided with tooth grooves, thereby the magnetorheological fluid is pushed to the edge of the inner cavity of the connecting frame 1 and is added with a high-strength magnetic field, the hollow shaft 21 can be effectively blocked from rotating by solidification, the middle part of the magnetic conduction frame 24 is connected with a telescopic winding rod 25 extending to the coating film 23 in a sliding manner, the telescopic winding rod 25 is electrically connected with the electromagnetic interference plug 26, so that the telescopic winding rod 25 can be directly led into the electromagnetic interference plug 26 after acquiring induced current, the electromagnetic interference plug 26 is connected with the electromagnetic interference plug 26 in a sliding manner on the left side and the right side of the inner cavity of the magnetic conduction frame 24, the electromagnetic interference plug 26 is the same as the magnetic pole of the adjacent surface between the magnetic field generating areas of the magnetic conduction frame 24 after being electrified, therefore, the electromagnetic interference plugs 26 on the two sides can be displaced in the opposite directions under the action of repulsive force, the coating film 23 is pressed to drive the telescopic winding rod 25 to move downwards, the winding part of the telescopic winding rod 25 moves in the magnetic conduction frame 24, and the airflow intensity rushing into the flow guide groove 22 is changed constantly, therefore, the airflow velocity is still in a large range, the telescopic winding rod 25 shows reciprocating deformation, induced current is introduced into the electromagnetic bungs 26 on the two corresponding sides to displace in a back-to-back mode, initially unfolded magnetorheological fluid is quickly extruded to gather at the edge of the connecting frame 1 and is strengthened in activity, the liquid level of the corresponding magnetorheological fluid rises and solidifies to block the relative movement of the hollow shaft 21 and the connecting frame 1, the design improves the stability of the equipment during braking, the pressure increase or small-range deviation of the connecting part caused by the influence of external high-strength airflow is avoided, and therefore the service life of the equipment is effectively prolonged.

The cleaning mechanism 3 is fixedly connected at the lower end of the limiting mechanism 2, the cleaning mechanism 3 comprises a shooting and recording block 31, the left side wall cavity and the right side wall cavity of the shooting and recording block 31 are both provided with an electrostatic adsorption groove 32, the inner cavity of the electrostatic adsorption groove 32 is movably connected with an electrostatic ball 33, the upper end and the lower end of the electrostatic adsorption groove 32 are both slidably inserted with an insulating rod 34, the surface of one end of the insulating rod 34 close to the electrostatic adsorption groove 32 is uniformly provided with a caulking groove, and a silk block is fixedly connected in the caulking groove, so that when the insulating rod 34 is displaced in the electrostatic adsorption groove 32 in a reciprocating manner, the silk block can generate static electricity by friction with the port of the electrostatic adsorption groove 32 without influencing the smooth movement of the insulating rod 34, one end of the insulating rod 34 far away from the electrostatic adsorption groove 32 is fixedly connected with a flow guide rod 35, the flow direction of the current in the flow guide rod 35 is the same based on two directions in the single side direction, and the flow guide rods 35 in the single side direction are parallel, so that when two currents with the same size are led into the single side flow guide rod 35, the two guide rods 35 can attract each other to move according to the right-hand rule, the dense tension springs 36 are fixedly connected between the guide rods 35, induced currents with the same direction and the same magnitude are introduced into the adjacent guide rods 35, the current magnitude continuously changes, the insulating rods 34 are driven to rub the electrostatic adsorption tank 32, so that the electrostatic balls 33 generate static electricity, dust on the surface of the adsorption lens can be adsorbed, large-particle dust can be crushed by the intermittent deformation of the dense tension springs 36, the dust inlet port of the electrostatic adsorption tank 32 is prevented from being blocked, after the induced currents with the same direction are automatically introduced into the guide rods 35 on the two sides, the adjacent guide rods 35 attract each other to move according to the right-hand rule, the synchronous insulating rods 34 drive the silk block to rub with the electrostatic adsorption tank 32, so that the electrostatic balls 33 are filled with static electricity, and the corresponding dust adhered to the lens at the front end of the shooting block 31 along with the external air flow is adsorbed to the electrostatic balls 33, and further, the purpose of ensuring the shooting quality is achieved, and as the magnetic field acting force between the guide rod 35 and the guide rod is influenced by the current intensity to change constantly, the compact tension spring 36 expands and contracts constantly to crush the dust with larger volume on the moving path, and the crushed tiny dust falls off and smoothly enters the electrostatic adsorption tank 32 under the vibration of the compact tension spring 36 and the action of an electrostatic field, so that the dust inlet port of the electrostatic adsorption tank 32 is prevented from being blocked, and the shooting quality and the operation stability of the equipment are improved effectively.

The working principle is as follows: the building monitoring device based on big data is characterized in that strong external air flow flows into the flow guide groove 22, the coating film 23 is enabled to have a high air flow rate at a contact part with the coating film 23 based on the Bernoulli principle, the air pressure applied to the lower end of the coating film 23 is low, the coating film 23 is influenced by the air pressure, the coating film 23 overcomes the tensile force of the telescopic winding rod 25 and expands downwards, the winding part of the telescopic winding rod 25 moves in the magnetic conduction frame 24, the strength of the air flow flowing into the flow guide groove 22 is not constantly kept unchanged, therefore, the telescopic winding rod 25 shows reciprocating deformation in a range that the flow rate of the air flow flowing into the flow guide groove 22 is still high, induced current is introduced into the electromagnetic abutting plugs 26 on two corresponding sides to displace in a reverse direction, the initially spread magnetorheological fluid is rapidly extruded to gather and have enhanced activity towards the edge of the connection frame 1, the corresponding magnetorheological fluid is influenced and solidified by the magnetic field of the electromagnetic abutting plugs 26, because the liquid level of the magnetorheological fluid rises and the contact area of the magnetorheological fluid and the inner wall of the connecting frame 1 is increased, the hollow shaft 21 is approximately fixedly connected with the connecting frame 1 with higher strength, the design enhances the stability of the equipment during braking, avoids the pressure increase and damage of the connecting part or the direct small-range rigid deviation caused by the influence of external high-strength airflow, thereby effectively prolonging the service life of the equipment, when the equipment restores to the initial state, the magnetorheological fluid can be automatically flattened with larger area, the contact area of the magnetorheological fluid and the side wall of the connecting frame 1 is reduced, further the stagnation degree between the hollow shaft 21 and the connecting frame 1 during rotation is reduced, the influence of the magnetorheological fluid on the hollow shaft 21 driven by the external drive is minimized, in addition, when the telescopic winding rods 25 obtain induction current with different sizes, the induction current can be automatically introduced into the guide rods 35 which are symmetrical on two sides, according to the right hand rule, the adjacent parallel electrified guide rods 35 attract each other to move, the synchronous insulating rod 34 is driven to move into the electrostatic adsorption groove 32, the silk block is utilized to enable the electrostatic balls 33 to obtain electrostatic charges, and dust adhered to the front end lens of the shooting and recording block 31 correspondingly along with the outside air flow is adsorbed to the electrostatic balls 33 within a proper range, so that the aim of cleaning the lens to ensure the shooting and recording quality is achieved, and the current intensity introduced into the guide rods 35 also changes along with the change of the air flow intensity, so that the magnetic field acting force between the guide rods 35 changes constantly, the dense tension springs 36 continuously expand and contract during the period that the electrostatic balls 33 adsorb the dust, the dust with larger volume on the moving path is crushed, and the crushed tiny dust falls off under the vibration of the dense tension springs 36 and the action of the electrostatic field and smoothly enters the electrostatic adsorption groove 32, so as to prevent the dust inlet of the electrostatic adsorption tank 32 from being blocked, thereby effectively improving the recording quality and the running stability of the equipment.

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

Claims

1. A building monitoring system based on big data, includes storage system, its characterized in that: the storage system includes:

the cloud server is used for uploading and downloading various monitored data;

2. The big data based building monitoring system as claimed in claim 1, further comprising a protection system, characterized in that: the storage system includes:

3. A big data based building monitoring device as claimed in claim 1, comprising a connection box (1), characterized in that: the lower extreme of coupling frame (1) is rotated and is connected with and prescribes a limit to mechanism (2), prescribes a limit to mechanism (2) and includes quill shaft (21), guiding gutter (22) have been seted up to the bottom of quill shaft (21), the inner chamber upper wall fixedly connected with tectorial membrane (23) of guiding gutter (22), the fixed grafting in middle part of quill shaft (21) has magnetic conduction frame (24) that extend to in coupling frame (1), the middle part sliding connection of magnetic conduction frame (24) has flexible winding rod (25) that extend to on tectorial membrane (23), the equal sliding connection in inner chamber left and right sides of magnetic conduction frame (24) has electromagnetism to offset plug (26).

4. A big data based building monitoring device as claimed in claim 3, wherein: magnetorheological fluid is filled on the left side and the right side of the inner cavity of the magnetic conduction frame (24).

5. A big data based building monitoring device as claimed in claim 3, wherein: the telescopic winding rod (25) is electrically connected with the electromagnetic abutting plug (26).

6. A big data based building monitoring device as claimed in claim 3, wherein: the electromagnetic interference plug (26) is electrified to be the same as the magnetic poles of the adjacent surfaces between the magnetic field generating areas of the magnetic conduction frame (24).

7. A big data based building monitoring device as claimed in claim 3, wherein: still include clean mechanism (3), clean mechanism (3) fixed connection is at the lower extreme of injecing mechanism (2), clean mechanism (3) are including shooting with video-corder piece (31), the left and right sides wall chamber of shooting with video-corder piece (31) has all seted up electrostatic absorption groove (32), the inner chamber swing joint in electrostatic absorption groove (32) has electrostatic ball (33), the upper and lower both ends in electrostatic absorption groove (32) are all slided and are pegged graft and have insulator spindle (34), the one end fixedly connected with water conservancy diversion pole (35) in electrostatic absorption groove (32) are kept away from in insulator spindle (34), the dense extension spring (36) of fixedly connected with between water conservancy diversion pole (35).

8. The big-data based building monitoring device as claimed in claim 7, wherein: the surface of one end of the insulating rod (34) close to the electrostatic adsorption groove (32) is uniformly provided with a caulking groove, and a silk block is fixedly connected in the caulking groove.

9. The big-data based building monitoring device as claimed in claim 7, wherein: the flowing direction of the current in the guide rods (35) is the same based on two directions in the unilateral direction, and the guide rods (35) in the unilateral direction are parallel to each other.