CN114594483A

CN114594483A - Electric power light path information monitoring facilities based on data processing and calculation

Info

Publication number: CN114594483A
Application number: CN202210178192.XA
Authority: CN
Inventors: 陆旭; 袁冬冰; 朱继阳; 李嘉伟; 杨磊
Original assignee: Information and Telecommunication Branch of State Grid East Inner Mogolia Electric Power Co Ltd
Current assignee: Information and Telecommunication Branch of State Grid East Inner Mogolia Electric Power Co Ltd
Priority date: 2022-02-25
Filing date: 2022-02-25
Publication date: 2022-06-07

Abstract

The invention discloses an electric power light path information monitoring device based on data processing and calculation, which comprises two mounting brackets respectively mounted on two adjacent cross arms and guide rails arranged on the two mounting brackets, wherein two ends of each guide rail are respectively sleeved on the outer sides of optical cables; the utility model discloses an optical cable height monitoring device, including guide rail, work box bottom, power optical path information monitoring equipment, including monitoring equipment, function actuating mechanism, control terminal, work box both sides, this electric power optical path information monitoring equipment based on data processing and calculation to be different from prior art, make through monitoring equipment to the optical cable when carrying out height to ground monitoring, can move on the optical cable through function actuating mechanism, and under the effect of trigger subassembly, through control terminal to function actuating mechanism sends a signal, and then orders about function actuating mechanism shifts to the guide rail by the operation on the optical cable and moves.

Description

Electric power light path information monitoring facilities based on data processing and calculation

Technical Field

The invention relates to the technical field of electric power optical cable detection equipment, in particular to electric power optical path information monitoring equipment based on data processing and calculation.

Background

The intelligent power grid requires an information technology as a support in a power system, and the informatization, automation and interaction characteristics of the power grid are realized; FTTx and 3G network construction require information communication and solve the power consumption problem of network terminal equipment, therefore apply to all kinds of compound cables and special optical cables that give consideration to power transmission and information communication in the electric power system, namely the power optical cable, the optical cable is used more and more extensively at present, play a very important role in people's daily life, when the technical staff erects the optical cable, need to control the distance of the optical cable and ground not to be less than the safety distance presumed, can guarantee the normal operation of the optical cable in this way, however, in the optical cable daily operation, often cause the drop of the optical cable because of factors such as external force destruction, when the distance of the optical cable and ground is less than the safety distance, will influence the safe and stable operation of the communication system, especially when the optical cable is in the road crossing, if the optical cable drop distance is less than the safety distance stipulated by the country, will cause the potential safety hazard, very easy to cause the injury to the passing vehicle and pedestrian, in severe cases, traffic casualty accidents or communication network interruption can be caused, and the traditional monitoring needs to be carried out manually, but the time is wasted, and certain errors exist.

In order to solve the above problems, the chinese invention patent with the publication number CN109283516B discloses an intelligent monitoring and early warning device for the ground distance of an optical cable based on the internet of things technology, which comprises a sliding block, a clamping device, a limiting device, a spiral device, an infrared distance meter, a traction device and a signal receiving terminal, wherein the top of the sliding block is provided with an arc-shaped groove, the optical cables are positioned in the arc-shaped groove, the clamping device is divided into two groups, the clamping device is symmetrically arranged on the top of the sliding block, one end of the limiting device is fixed on one side of the sliding block, the other end of the limiting device is arranged on the top of the clamping device, the limiting device is divided into four groups, the limiting device is symmetrically arranged around the sliding block, the two sides of the sliding block are respectively fixed with an infrared signal emitting mechanism, one side of the sliding block is fixed with a signal collecting device, so that the intelligent monitoring and early warning functions for the ground distance of the optical cable can be realized, not only can improve monitoring efficiency, the monitoring is intelligent moreover.

However, in actual use, it is found that most existing methods for determining the position of the optical cable with the abnormal height by using the monitoring equipment are positioned by using an infrared technology, specifically, an infrared signal receiver is arranged at a fixed position, an infrared signal transmitter is arranged on the moving monitoring equipment, and the position of the optical cable with the abnormal data can be determined by using the receiving distance between the infrared signal receiver and the moving monitoring equipment, but a certain radian occurs due to the fact that the middle part of the optical cable drops due to the gravity of the optical cable, so that the infrared signal receiver cannot normally receive signals sent by the infrared signal transmitter due to the fact that the infrared signal receiver and the infrared signal transmitter are staggered, and normal use of the monitoring equipment is affected; in addition, when the monitoring equipment is installed, a set of monitoring equipment and a set of traction device need to be arranged between every two adjacent telegraph poles, so that the monitoring cost is undoubtedly increased, and the electric power optical path information monitoring equipment based on data processing and calculation is provided.

Disclosure of Invention

The present invention is directed to a power optical path information monitoring device based on data processing and calculation, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: an electric power light path information monitoring device based on data processing and calculation comprises two mounting brackets which are respectively mounted on two adjacent cross arms and guide rails which are arranged on the two mounting brackets, wherein two ends of each guide rail are respectively sleeved on the outer sides of optical cables; the utility model discloses a high monitoring device for optical cable, including guide rail, work box bottom, monitoring equipment, function actuating mechanism, control terminal, trigger assembly, function actuating mechanism, function drive mechanism and control terminal, the activity is provided with the work box on the guide rail, work box bottom is provided with infrared distance meter, be provided with the function actuating mechanism who contacts with the optical cable in the work box, be provided with control terminal in the work box, work box both sides still are provided with trigger assembly to be different from prior art, make through monitoring facilities to the optical cable when carrying out height to ground monitoring, can move on the optical cable through function actuating mechanism, and under trigger assembly's effect, through control terminal to function actuating mechanism signals, and then orders about function actuating mechanism shifts to the guide rail and moves by moving on the optical cable.

Preferably, the function driving mechanism comprises two supporting plates which are respectively arranged on the inner wall of the working box body, a bidirectional screw rod is rotatably arranged between the two supporting plates, any end of the bidirectional screw rod extends to the outer side of the supporting plate, a fixed seat is further arranged on the inner wall of the working box body, a driving motor is arranged on the fixed seat, the driving motor is connected with one end of the bidirectional screw rod, which extends to the outer side of the supporting plate, and a control switch for controlling the driving motor is further arranged on the outer wall of the working box body;

the bidirectional screw rod is further provided with a transmission assembly, and the monitoring equipment can be moved from the optical cable to the guide rail through adjustment of the transmission assembly.

Preferably, the transmission assembly includes that two set up respectively in the shifting board of two-way lead screw both sides, two shifting board dorsal part all is provided with a plurality of rotation seats that are used for rotating the regulation, it all is provided with the deflection pole on the seat to rotate, the work box inner wall is provided with a plurality of spacing posts that are used for removing, it is provided with the slide bar to slide respectively in the spacing post, just the deflection rod tip rotates respectively to set up on adjacent slide bar, is located one at the top the slide bar tip is provided with the self-driving wheel, all the other the slide bar tip all is provided with the arc seat.

Preferably, one end of the arc-shaped seat, which is far away from the sliding rod, is provided with a plurality of balls for assisting the displacement.

Preferably, the trigger assembly comprises a trigger switch arranged on the inner wall of the working box body, a positioning plate is arranged on the inner wall of the working box body, a first spring is arranged on one side, close to the trigger switch, of the positioning plate, a top plate is arranged at one end of the first spring, a shifting rod is movably arranged in the middle of the positioning plate in a penetrating mode, and one side of the shifting rod is arranged on the top plate;

the locating plate is provided with the elastic component on one side of keeping away from trigger switch, the elastic component can contact with optical cable and guide rail, and then orders about the aversion pole and roof aversion according to the diameter change of optical cable and guide rail.

Preferably, the elastic part comprises a second spring arranged on one side, far away from the trigger switch, of the positioning plate, and two ends of the second spring are provided with bull's eyes universal wheels.

Preferably, the bottom of the working box body is provided with a mounting seat, and a balance assembly is arranged on the mounting seat, can accumulate force when the monitoring equipment passes through the guide rail and release the force when the monitoring equipment leaves the guide rail, so that an upward buoyancy is provided for the monitoring equipment.

Preferably, the balance assembly comprises a main shaft rotatably arranged on the mounting base, and fan blades are arranged at the bottom of the main shaft;

the fan blade mounting structure is characterized in that a half gear ring is arranged on the mounting support, a force accumulation part is further arranged on the main shaft, and the force accumulation part can be in contact with the half gear ring and further accumulates force for rotation of the fan blades.

Preferably, the power accumulating part comprises a gear arranged on the main shaft, the gear is meshed with the semi-gear ring, a clockwork spring is further arranged on the main shaft, and two ends of the clockwork spring are respectively fixed with the main shaft and the mounting base.

Preferably, all be provided with the response electric piece on the arc seat, it is adjacent a plurality of all through electric connection between the response electric piece on the control terminal, the guide rail middle part is provided with the annular electric piece, passes through at monitoring facilities during the guide rail, it is a plurality of the response electric piece can form closed loop with the annular electric piece to carry out the feedback record through control terminal.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, when the ground height of the optical cable is monitored by the monitoring equipment, the optical cable can run on the optical cable through the function driving mechanism, and the control terminal sends a signal to the function driving mechanism under the action of the trigger assembly, so that the function driving mechanism is driven to run from the optical cable to the guide rail.

2. According to the invention, through the arrangement of the balance assembly, the monitoring equipment can accumulate force for the spring when passing through the guide rail, and further release the accumulated force when leaving the guide rail, so that an upward buoyancy is provided for the monitoring equipment.

3. According to the invention, through the cooperation of the induction electric pieces, the annular electric pieces and the control terminal, when the monitoring equipment passes through the guide rail, the induction electric pieces and the annular electric pieces can form a closed loop, and the control terminal carries out feedback recording, so that the running condition of the function driving mechanism can be known in time, and the influence on the normal use of the monitoring equipment due to the fault of the transmission assembly is avoided.

Drawings

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

FIG. 2 is a schematic view of the present invention in partial cross-section of FIG. 1;

FIG. 3 is a schematic view of the present invention in partial cross-section of FIG. 2;

FIG. 4 is a schematic view of the construction of the working chamber of the present invention;

FIG. 5 is a schematic view of the present invention in partial cross-section of FIG. 4;

FIG. 6 is an enlarged view of the area A of the present invention;

FIG. 7 is a schematic structural diagram of a functional driving mechanism according to the present invention;

FIG. 8 is an enlarged view of the region B of the present invention;

FIG. 9 is a schematic structural diagram of a trigger assembly according to the present invention.

In the figure: 1-mounting a bracket; 2-a guide rail; 3-a working box body; 4-a functional drive mechanism; 41-a support plate; 42-bidirectional screw rod; 43-a fixed seat; 44-a drive motor; 45-control switch; 5-a transmission assembly; 51-a shifting plate; 52-a rotating seat; 53-deflection lever; 54-a limiting column; 55-a slide bar; 56-self-propelled wheels; 57-an arc seat; 58-a ball bearing; 6-a trigger component; 61-trigger switch; 62-positioning plate; 63-spring one; 64-a top plate; 65-a displacement rod; 7-an elastic member; 71-spring two; 72-bull's eye universal wheel; 8-a balancing component; 81-main shaft; 82-fan blades; 83-half gear ring; 9-a power storage part; 91-gear; 92-a clockwork spring; 10-an infrared range finder; 11-a control terminal; 12-a mounting seat; 13-induction electric sheet; 14-ring shaped electric sheet.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution:

the utility model provides an electric power light path information monitoring facilities based on data processing and calculation, includes that two install respectively on two adjacent cross arms installing support 1 and set up guide rail 2 on two installing

support

1, and 2 covers at the optical cable outside are established respectively at guide rail both ends, and 2 both ends of guide rail are reducing structure, and the position that guide rail 2 and optical cable contacted all is provided with the rubber layer to avoid producing wearing and tearing to the optical cable crust at the contact position.

The guide rail 2 is movably provided with a working box body 3, the bottom of the working box body 3 is provided with an infrared distance meter 10, the infrared distance meter 10 is electrically connected with a control terminal 11, a function driving mechanism 4 which is in contact with an optical cable is arranged in the working box body 3, and the function driving mechanism 4 is used for driving the working box body 3 to run on the optical cable, so that the information monitoring of the ground height of the optical cable is realized;

the function driving mechanism 4 comprises two supporting plates 41 which are respectively arranged on the inner wall of the work box body 3, a bidirectional screw rod 42 is rotatably arranged between the two supporting plates 41, any one end of the bidirectional screw rod 42 extends to the outer side of the supporting plate 41, the inner wall of the work box body 3 is also provided with a fixed seat 43, a driving motor 44 is arranged on the fixed seat 43, the driving motor 44 is connected with one end of the bidirectional screw rod 42, which extends to the outer side of the supporting plate 41, and the outer wall of the work box body 3 is also provided with a control switch 45 for controlling the driving motor 44;

the bidirectional screw rod 42 is also provided with a transmission assembly 5, and the monitoring equipment can be transferred from the operation on the optical cable to the operation on the guide rail 2 through the adjustment of the transmission assembly 5;

the transmission assembly 5 comprises two shifting plates 51 which are respectively arranged at two sides of a bidirectional screw rod 42, a through line groove is formed in each shifting plate 51, a through line pipe is arranged on the inner wall of the working box body 3 to avoid the winding situation of a line, a plurality of rotating seats 52 for rotation adjustment are respectively arranged at opposite sides of each shifting plate 51, deflection rods 53 are respectively arranged on the rotating seats 52, a plurality of limiting columns 54 for movement limiting are arranged on the inner wall of the working box body 3, sliding rods 55 are respectively arranged in the limiting columns 54 in a sliding mode, the end parts of the deflection rods 53 are respectively arranged on the adjacent sliding rods 55 in a rotating mode, a self-driving wheel 56 is arranged at the end part of one sliding rod 55 positioned at the top, and arc-shaped seats 57 are respectively arranged at the end parts of the rest sliding rods 55;

the end of the arcuate seat 57 remote from the slide rod 55 is provided with a plurality of balls 58 for assisting displacement.

A control terminal 11 is arranged in the working box body 3, trigger assemblies 6 are arranged on two sides of the working box body 3, the function driving mechanism 4 and the trigger assemblies 6 are respectively and electrically connected with the control terminal 11, and when the trigger assemblies 6 are contacted with the guide rail 2, signals can be sent to the function driving mechanism 4 through the control terminal 11, so that the function driving mechanism 4 is driven to move from the optical cable to the guide rail 2;

the trigger assembly 6 comprises a trigger switch 61 arranged on the inner wall of the working box body 3, a positioning plate 62 is arranged on the inner wall of the working box body 3, a first spring 63 is arranged on one side of the positioning plate 62 close to the trigger switch 61, a top plate 64 is arranged at the end part of the first spring 63, a shifting rod 65 is movably arranged in the middle of the positioning plate 62 in a penetrating mode, and one side of the shifting rod 65 is arranged on the top plate 64;

the elastic part 7 is arranged on one side of the positioning plate 62 away from the trigger switch 61, and the elastic part 7 can be in contact with the optical cable and the guide rail 2 so as to drive the displacement rod 65 and the top plate 64 to displace according to the diameter change of the optical cable and the guide rail 2;

the elastic piece 7 comprises a second spring 71 arranged on one side of the positioning plate 62 far away from the trigger switch 61, and a bull-eye universal wheel 72 is arranged at the end part of the second spring 71.

The bottom of the working box body 3 is provided with a mounting seat 12, the mounting seat 12 is provided with a balance assembly 8, and the balance assembly 8 can store force when the monitoring equipment passes through the guide rail 2 and release the force when the monitoring equipment leaves the guide rail 2 so as to provide an upward buoyancy for the monitoring equipment;

the balance assembly 8 comprises a main shaft 81 rotatably arranged on the mounting base 12, and fan blades 82 are arranged at the bottom of the main shaft 81;

the mounting bracket 1 is provided with a half gear ring 83, the main shaft 81 is also provided with a power storage part 9, and the power storage part 9 can be in contact with the half gear ring 83 to store power for the rotation of the fan blades 82;

the power accumulating part 9 comprises a gear 91 arranged on the main shaft 81, the gear 91 is meshed with the semi-gear ring 83, a clockwork spring 92 is further arranged on the main shaft 81, and two ends of the clockwork spring 92 are respectively fixed with the main shaft 81 and the mounting base 12.

All be provided with response electric piece 13 on the arc seat 57, all through electric connection on control terminal 11 between a plurality of adjacent response electric pieces 13, the guide rail 2 middle part is provided with annular electric piece 14, and when monitoring facilities passed through guide rail 2, a plurality of response electric pieces 13 can form closed circuit with annular electric piece 14 to carry out the feedback record through control terminal 11.

When the device is used, an operator climbs to the top of a telegraph pole through the device, the monitoring device is sleeved on the outer side of an optical cable, the control switch 45 is pressed to drive the driving motor 44 to work, the driving motor 44 drives the two-way screw rod 42 connected with the driving motor to rotate, the two-way screw rod 42 drives the shifting plates 51 at two ends to shift back to back, the shifting plates 51 drive the deflection rods 53 to rotate, further drive the sliding rods 55 to slide in the limiting columns 54, so that the self-driving wheels 56 and the arc-shaped seats 57 are respectively attached to the optical cable, the self-driving wheels 56 can be started to run under the friction action of the self-driving wheels 56 and the surface of the optical cable, the monitoring device can be driven to integrally run on the optical cable, and in the running process, the infrared distance measuring instrument 10 at the bottom continuously measures and transmits the measurement result to a remote terminal through the control terminal 11;

when the monitoring equipment runs to the guide rail 2 on the optical cable, the bull's eye universal wheel 72 at one end contacts with the optical cable first and is gradually extruded, in the extrusion process, the bull's eye universal wheel 72 abuts against the shifting rod 65 to enable the shifting rod to approach the position of the trigger switch 61 and gradually extrude the trigger switch 61, at the moment, the trigger switch 61 sends a signal to the driving motor 44 through the control terminal 11, the driving motor 44 drives the bidirectional screw rod 42 connected with the driving motor to rotate, the bidirectional screw rod 42 drives the shifting plates 51 at two ends to shift oppositely, the shifting plates 51 drive the deflection rods 53 to rotate, and further drive the sliding rods 55 to slide in the limiting columns 54, so that the self-driving wheels 56 and the arc-shaped seat 57 are turned into the attached guide rail 2 from the attached optical cable;

when the bicycle runs on the guide rail 2, the gear 91 at the bottom is contacted with the fixed semi-gear ring 83, so that the gear 91 rotates and drives the clockwork spring 92 to accumulate force until the power accumulation is finished when the bicycle leaves the guide rail 2;

after leaving the guide rail 2, the spring 92 works to provide an upward buoyancy to the monitoring device by rotating the fan blade 82 through the main shaft 81.

In the process, a plurality of induction electric sheets 13 can form a closed loop with an annular electric sheet 14, feedback recording is carried out through the control terminal 11, if signals of two closed loops are received, the function driving mechanism 4 is normal in operation, monitoring work can be continued, if signals of two closed loops are not received, the function driving mechanism 4 is abnormal in operation, the operation work is stopped immediately, an operator needs to go to the position of the monitoring equipment for maintenance, the monitoring equipment is numbered, so that the operator can directly position the area where the monitoring equipment is located through the number, and after the area is reached, the position of the monitoring equipment can be found through observation.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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. The electric power optical path information monitoring equipment based on data processing and calculation comprises two mounting brackets (1) which are respectively mounted on two adjacent cross arms and guide rails (2) which are arranged on the two mounting brackets (1), wherein two ends of each guide rail (2) are respectively sleeved on the outer side of an optical cable, and two ends of each guide rail (2) are of a reducing structure;

the method is characterized in that: the guide rail (2) is movably provided with a working box body (3), the bottom of the working box body (3) is provided with an infrared distance meter (10), a functional driving mechanism (4) which is in contact with the optical cable is arranged in the working box body (3), and the functional driving mechanism (4) is used for driving the working box body (3) to run on the optical cable, so that the information monitoring of the height of the optical cable to the ground is realized;

be provided with control terminal (11) in the work box (3), work box (3) both sides still are provided with trigger assembly (6), function actuating mechanism (4) and trigger assembly (6) respectively with control terminal (11) pass through electric connection, work as trigger assembly (6) and guide rail (2) contact the back, can pass through control terminal (11) to function actuating mechanism (4) send a signal, and then order about function actuating mechanism (4) are moved to guide rail (2) and are gone up the operation by the operation on the optical cable.

2. The electric power optical path information monitoring device based on data processing and calculation according to claim 1, wherein: the function driving mechanism (4) comprises two supporting plates (41) which are respectively arranged on the inner wall of the working box body (3), a bidirectional screw rod (42) is rotatably arranged between the two supporting plates (41), any one end of the bidirectional screw rod (42) extends to the outer side of the supporting plate (41), a fixed seat (43) is further arranged on the inner wall of the working box body (3), a driving motor (44) is arranged on the fixed seat (43), the driving motor (44) is connected with one end, extending to the outer side of the supporting plate (41), of the bidirectional screw rod (42), and a control switch (45) for controlling the driving motor (44) is further arranged on the outer wall of the working box body (3);

the bidirectional screw rod (42) is further provided with a transmission assembly (5), and the monitoring equipment can be moved from the optical cable to the guide rail (2) through adjustment of the transmission assembly (5).

3. The electric power optical path information monitoring device based on data processing and calculation according to claim 2, wherein: the transmission assembly (5) comprises two shifting plates (51) which are arranged on two sides of a bidirectional screw rod (42) respectively, the two shifting plates (51) are provided with a plurality of rotating seats (52) for rotating and adjusting on opposite sides, the rotating seats (52) are provided with deflecting rods (53), the inner wall of the working box body (3) is provided with a plurality of limiting columns (54) for moving limiting, sliding rods (55) are arranged in the limiting columns (54) in a sliding mode respectively, the end portions of the deflecting rods (53) are arranged on adjacent sliding rods (55) in a rotating mode respectively, one end portion of each sliding rod (55) at the top is provided with a self-driven wheel (56), and the end portions of the sliding rods (55) are provided with arc-shaped seats (57).

4. The electric power optical path information monitoring device based on data processing and calculation according to claim 3, wherein: and one end of the arc-shaped seat (57) far away from the sliding rod (55) is provided with a plurality of balls (58) for assisting in displacement.

5. The electric power optical path information monitoring device based on data processing and calculation according to claim 4, wherein: the trigger assembly (6) comprises a trigger switch (61) arranged on the inner wall of the working box body (3), a positioning plate (62) is arranged on the inner wall of the working box body (3), a first spring (63) is arranged on one side, close to the trigger switch (61), of the positioning plate (62), a top plate (64) is arranged at the end part of the first spring (63), a shifting rod (65) is movably arranged in the middle of the positioning plate (62) in a penetrating mode, and one side of the shifting rod (65) is arranged on the top plate (64);

an elastic part (7) is arranged on one side, away from the trigger switch (61), of the positioning plate (62), the elastic part (7) can be in contact with the optical cable and the guide rail (2), and the shifting rod (65) and the top plate (64) are driven to shift according to the diameter change of the optical cable and the guide rail (2).

6. The electric power optical path information monitoring device based on data processing and calculation according to claim 5, wherein: the elastic piece (7) comprises a second spring (71) which is arranged on one side, far away from the trigger switch (61), of the positioning plate (62), and a bull's eye universal wheel (72) is arranged at the end part of the second spring (71).

7. The power optical path information monitoring device based on data processing and calculation according to claim 6, wherein: the utility model discloses a monitoring device, including work box (3), mount pad (12) are provided with to work box (3) bottom, be provided with balanced subassembly (8) on mount pad (12), balanced subassembly (8) can hold power when monitoring devices passes through guide rail (2) to release when leaving guide rail (2), provide an ascending buoyancy for monitoring devices.

8. The electric power optical path information monitoring device based on data processing and calculation according to claim 7, wherein: the balance assembly (8) comprises a main shaft (81) rotatably arranged on the mounting base (12), and fan blades (82) are arranged at the bottom of the main shaft (81);

the fan blade mounting structure is characterized in that a half gear ring (83) is arranged on the mounting support (1), a power storage part (9) is further arranged on the main shaft (81), and the power storage part (9) can be in contact with the half gear ring (83) and further stores power for rotation of the fan blades (82).

9. The power optical path information monitoring device based on data processing and calculation according to claim 8, wherein: the power accumulating part (9) comprises a gear (91) arranged on a main shaft (81), the gear (91) is meshed with the semi-gear ring (83), a clockwork spring (92) is further arranged on the main shaft (81), and two ends of the clockwork spring (92) are respectively fixed with the main shaft (81) and the mounting seat (12).

10. The power optical path information monitoring device based on data processing and calculation according to claim 9, wherein: all be provided with response electric piece (13) on arc seat (57), it is adjacent a plurality of all through electric connection between response electric piece (13) on control terminal (11), guide rail (2) middle part is provided with annular electric piece (14), passes through at monitoring facilities during guide rail (2), it is a plurality of response electric piece (13) can form closed loop with annular electric piece (14) to carry out the feedback record through control terminal (11).