CN219976314U - Tunnel induction lamp integrated automatic lifting device and control system - Google Patents

Abstract

The utility model provides an integrated automatic lifting device of a tunnel guiding lamp and a control system, which comprise a plurality of guiding lamps, a guide rail, a transmission mechanism, a power distribution cabinet and a connecting piece, wherein the guide rail is arranged at a tunnel port and extends along the outline shape of the tunnel port, the guiding lamps are arranged in the guide rail along the extending direction of the guide rail, the lower end of the guide rail is provided with a maintenance part for disassembling the guiding lamps, the transmission mechanism is arranged in the guide rail and is respectively connected with the guiding lamps through the connecting piece, and the transmission mechanism can enable the guiding lamps on the guide rail to move to the maintenance part at the lower end of the guide rail. According to the utility model, when the fault induction lamp is replaced, the normal operation of a tunnel road is not affected, the fault induction lamp is not required to be replaced by sealing the tunnel, so that maintenance personnel can complete the replacement of the induction lamp on the premise of not ascending a height and sealing the tunnel, the maintenance difficulty is reduced, the working efficiency is improved, and the good quality improvement and synergy effects on tunnel management can be achieved.

Description

Tunnel induction lamp integrated automatic lifting device and control system

Technical Field

The utility model relates to the technical field of tunnel engineering, in particular to an integrated automatic lifting device of a tunnel induction lamp and a control system.

Background

The high-speed entry contour induction lamp is undoubtedly important for guiding the vehicle to run, the fatigue of a driver can be effectively reduced by the striking tunnel contour induction at night, and accidents are reduced.

At present, chinese patent publication No. CN107559777B discloses a device for cleaning and replacing tunnel light, which comprises a tunnel main body, a mechanism for cleaning and replacing illumination is installed in the tunnel main body, and is characterized in that: the clean mechanism of changing of illumination includes the support, one side of support is equipped with installation arm and the movable arm of locking on tunnel main part, motor control box is installed to the opposite side of support, and motor control box's both sides extend there is the bearing, and spring mechanism bayonet lock is connected at the end of bearing, and the rear side of tunnel lamp is equipped with the push rod and inserts in the spring mechanism bayonet lock, the one end of push rod is equipped with spring clamp card in spring mechanism bayonet lock, and the telescopic link urceolus is installed to the other end, be equipped with the spring in the telescopic link urceolus and support the push rod.

Although this kind of tunnel light washs change device can change the lamps and lanterns in the tunnel, but because tunnel entry induced lamp sets up in the tunnel along tunnel entry profile, induced lamp arranges more densely moreover, when one of them induced lamp trouble, the device can not fix a position the induced lamp that breaks down and change it, so only can carry out manual replacement through sealing the way and ascending a height the car when inducing lamp trouble, can't realize quick replacement and the maintenance to the induced lamp, influence road safety.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, an object of the present utility model is to provide an integrated automatic lifting device and control system for a tunnel guiding lamp, which are used for solving the problem that the guiding lamp at the entrance of the tunnel cannot be replaced quickly in the prior art.

To achieve the above and other related objects, the present utility model provides an integrated automatic lifting device for a tunnel guiding lamp, which comprises a plurality of guiding lamps, a guiding rail, a transmission mechanism, a power distribution cabinet and a connecting piece, wherein the guiding rail is installed at a tunnel port and extends along the outline shape of the tunnel port, the guiding lamps are arranged in the guiding rail along the extending direction of the guiding rail, the lower end of the guiding rail is provided with a maintenance part for disassembling the guiding lamps, the transmission mechanism is arranged in the guiding rail and is respectively connected with the guiding lamps through the connecting piece, and the transmission mechanism can enable the guiding lamps on the guiding rail to move to the maintenance part at the lower end of the guiding rail.

Through adopting above-mentioned technical scheme, can evenly arrange a plurality of induction lamps in the guide rail, utilize the guide rail to follow the setting of tunnel port outline shape, make a plurality of induction lamps of arranging in the guide rail make up into the outline shape of tunnel port, thereby play the warning effect, reuse the drive mechanism who sets up in the guide rail, can carry the maintenance department to the guide rail lower extreme through the fault induction lamp that drive mechanism will be located the tunnel top originally after the induction lamp breaks down, carry the lower place of position with the fault induction lamp that high position is higher originally, can make the staff need not just can realize dismantling and changing the fault induction lamp through ascending car or heightening equipment, maintenance department is located the lower extreme of guide rail simultaneously, can make maintenance position one side in the tunnel, can not influence the normal operating of tunnel road when changing the fault induction lamp, do not need to carry out the change of fault induction lamp through sealing the way, let the maintenance staff can accomplish the change of induction lamp under the prerequisite that does not ascend a car and seal the way, with the maintenance degree of difficulty, improve work efficiency, can play fine effect to the improvement of quality.

In an embodiment of the utility model, the transmission mechanism comprises a first sprocket wheel arranged at the lower side of one end of the guide rail, a second sprocket wheel arranged at the lower side of the other end of the guide rail, a chain connecting the first sprocket wheel with the second sprocket wheel, and a power assembly driving the first sprocket wheel and the second sprocket wheel to rotate, wherein the chain is embedded in the guide rail, and the chain is connected with the guide rail in a sliding manner along the extending direction of the guide rail.

Through adopting above-mentioned technical scheme, drive mechanism adopts sprocket chain's transmission mode, can make the induction lamp more be convenient for install on the chain, can make the even arrangement of induction lamp on the chain moreover, can be more convenient for the installation of induction lamp, make the tunnel profile effect that a plurality of induction lamps are constituteed better moreover, adopt chain drive's mode simultaneously, the reliable condition that can not skid appears, can be in the change induction lamp, effectively drive the induction lamp displacement on the chain, can be applicable to the moist, dusty environment in tunnel simultaneously, the maintenance and the change to the induction lamp of being convenient for more.

In an embodiment of the utility model, the connecting piece comprises a first connecting plate mounted on the chain and a second connecting plate arranged on the first connecting plate and used for mounting the induction lamp, wherein the second connecting plate is provided with a mounting hole used for mounting the induction lamp, and the induction lamp can be mounted on the second connecting plate through a fastener.

Through adopting above-mentioned technical scheme, can make the induction lamp pass through the fastener and install on the second connecting plate, only need pull down the fastener on the second connecting plate when changing the induction lamp, just can realize the dismantlement of induction lamp, make the not direct installation of induction lamp on the chain, the dismantlement and the change of the induction lamp of being more convenient for.

In an embodiment of the utility model, rollers are arranged in the chain, the first connecting plates are respectively sleeved on two adjacent rollers, the second connecting plates are perpendicular to the first connecting plates and are positioned on the inner side of the chain, and the induction lamp is arranged on the second connecting plates and positioned on the inner side of the chain.

Through adopting above-mentioned technical scheme, through the cooperation of roller in first connecting plate and the chain, can guarantee that the chain can drive first connecting plate motion in the motion process, can not cause the interference to connecting piece and the induction lamp on the connecting piece when the chain is on first sprocket or second sprocket moreover, guarantee the reliability when the installation of induction lamp and transportation.

In one embodiment of the utility model, the guide rail is fixed on the inner side hole wall of the tunnel entrance through the expansion screw, a semi-arc shape is formed along the inner side of the tunnel, the two sides of the roller of the chain are rotationally connected with the roller, the guide rail is provided with the guide groove matched with the roller, and the chain can be connected in the guide rail through the sliding of the roller.

Through adopting above-mentioned technical scheme, the gyro wheel that can chain roller both sides makes the chain remove along the guide way in the guide rail to can make the profile lamp that sets up on the chain lay along the extending direction of guide rail, thereby the profile shape of the tunnel port of display department that can be clear also is more convenient for the removal of chain in the guide rail through the gyro wheel in addition, makes the transmission more reliable and stable.

In an embodiment of the present utility model, the power assembly includes a first driving motor that is used as a power source to drive the first sprocket to rotate and a second driving motor that is used to drive the second sprocket to rotate, wherein the first driving motor and the second driving motor are respectively connected with the first sprocket and the second sprocket through a speed reducing member, and output frequencies and speeds of the first driving motor and the second driving motor are consistent.

Through adopting above-mentioned technical scheme, adopt the dual motor driven mode, the reliability of power when guaranteeing the chain motion guarantees that arbitrary guiding lamp on the chain can all be displaced to the maintenance portion under power component's drive.

In an embodiment of the utility model, the distribution box is mounted on the lower side of the guide rail, and the guide rail is further provided with a power supply cable connected with the induction lamp, and the power supply cable is fixedly connected with the induction lamp and the chain through the connecting piece and can move along with the induction lamp.

Through adopting above-mentioned technical scheme, can last the power supply to the induction lamp through power supply cable to control through the switch board, power supply cable can follow the induction lamp moreover and remove, can not cause the influence to the change of induction lamp.

A control system for an integrated automatic lifting device for a tunnel-inducing lamp, comprising: the induction lamp monitoring module comprises a first communication module and a first light source detection module for judging the intensity of a light source on the guide rail, wherein a plurality of first light source detection modules are arranged, and each first light source detection module can radiate a plurality of adjacent induction lamp areas and judge the illumination intensity in the areas; the induction lamp screening module is used for screening induction lamps with faults in radiation of the sub-light source modules and comprises a second light source detection module and a second communication module, wherein the second light source detection module and the second communication module are used for screening the induction lamps in the radiation areas of the sub-light source modules one by one; the driving module is used for controlling the power assembly to run and conveying the fault induction lamp to the maintenance part; the emergency braking module is used for emergently closing the transmission mechanism and the power supply when the fault induction lamp is operated to the maintenance part; and the processor is used for collecting the running condition data of the induction lamp and judging the position of the fault induction lamp, and is in communication connection with the induction lamp monitoring module, the induction lamp screening module and the driving module.

Through adopting above-mentioned technical scheme, detect the running condition of induction lamp and in transmitting data to the treater through monitoring module real time, every first light source detection module can judge regional internal fault lamp running state through the light intensity in the radiation region, a plurality of first light sources detect the cover so induction lamp, when there is the induction lamp to break down in the region, regional holistic illumination intensity can weaken, monitoring module transmits the trouble signal to the treater, start driving module by the treater, make the regional screening module that carries that breaks down, carry out screening one by one to regional induction lamp, after screening out the trouble induction lamp, with signal transmission to the treater, control driving module makes the trouble induction lamp carry maintenance department and trigger emergency braking module, and then can realize the automatic identification and the transportation to the trouble induction lamp, make the device more automatic, further improve the change efficiency of induction lamp.

In an embodiment of the utility model, the system further comprises an alarm module in communication connection with the monitoring module, and the alarm module is used for transmitting the alarm signal to the processor after receiving the fault signal of the induction lamp.

Through adopting above-mentioned technical scheme, can be after monitoring the module monitoring fault signal, take place the fault signal to the treater, make the staff can learn the induced lamp and break down in the very first time, can further increase the maintenance speed to the induced lamp, reduce the potential safety hazard in tunnel.

As described above, the tunnel induction lamp integrated automatic lifting device of the utility model has the following beneficial effects: the guide rail is used for uniformly arranging a plurality of induction lamps in the guide rail, the guide rail is used for setting the outline shape of the tunnel port, the plurality of induction lamps arranged in the guide rail are combined into the outline shape of the tunnel port, thereby playing a role in warning, the transmission mechanism arranged in the guide rail is reused, after the induction lamps are failed, the fault induction lamps originally positioned at the top of the tunnel are conveyed to the maintenance part of the lower end of the guide rail through the transmission mechanism, the fault induction lamps originally positioned at the higher positions are conveyed to the place with lower positions, the staff can detach and replace the fault induction lamps without climbing vehicles or heightening equipment, meanwhile, the maintenance part is positioned at the lower end of the guide rail, one side of the tunnel can be enabled to be positioned at one side of the tunnel, the normal operation of a tunnel road is not affected, the maintenance of the fault induction lamps is not required to be carried out through sealing, the maintenance staff can complete the replacement of the fault induction lamps on the premise of not having climbing vehicles and sealing the tunnel, the maintenance difficulty is reduced, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic view showing the overall structure of a first embodiment of the present utility model;

FIG. 2 is a schematic diagram of a transmission mechanism according to a first embodiment of the present utility model;

FIG. 3 is a schematic view showing a structure of a chain according to a first embodiment of the present utility model;

FIG. 4 is a schematic view showing the structure of a connector disclosed in the first embodiment of the present utility model;

fig. 5 is a schematic diagram of a system disclosed in a second embodiment of the utility model.

Description of element reference numerals

1. A guide rail; 2. an induction lamp; 3. a transmission mechanism; 4. a maintenance part; 5. a first sprocket; 6. a chain; 7. a power assembly; 8. a chain link; 9. a roller; 10. a connecting piece; 11. a first connection plate; 12. a second connecting plate; 13. a mounting hole; 14. a first driving motor; 15. a speed reducing member; 16. and a roller.

Detailed Description

Further advantages and effects of the present utility model will become apparent to those skilled in the art from the disclosure of the present utility model, which is described by the following specific examples.

Please refer to fig. 1 to 5. It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the utility model to the extent that it can be practiced, since modifications, changes in the proportions, or otherwise, used in the practice of the utility model, are not intended to be critical to the essential characteristics of the utility model, but are intended to fall within the spirit and scope of the utility model. Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the utility model, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the utility model may be practiced.

Embodiment one:

as shown in fig. 1 and 2, this embodiment provides an integrated automatic lifting device for a tunnel guiding lamp, including a guide rail 1 installed on the inner wall of a tunnel port, a plurality of guiding lamps 2 arranged in the guide rail 1, and a transmission mechanism 3 arranged in the guide rail 1 and driving the plurality of guiding lamps 2 to displace along the guide rail 1, the guide rail 1 extends along the outline shape of the tunnel port, the guide rail 1 is fixedly installed on the inner side wall of the tunnel port through expansion bolts and forms a semi-arc shape along the inner side of the tunnel, the lower end of one side of the guide rail 1 is provided with a maintenance part 4, the height from the maintenance part 4 to the ground is close to the average height of a person, and the transmission mechanism 3 can convey the guiding lamps 2 on the guide rail 1 to the maintenance part 4 at the lower side of the guide rail 1.

The plurality of guiding lamps 2 are distributed in the guide rail 1, the irradiation direction faces the tunnel opening direction, and the plurality of guiding lamps 2 are all installed on the transmission mechanism 3 through the connecting piece 10.

The drive mechanism 3 is including setting up in the first sprocket 5 of guide rail 1 one end downside, set up in the second sprocket of guide rail 1 other end downside, connect the chain 6 of first sprocket 5 and second sprocket and drive the rotatory power pack 7 of first sprocket 5 and second sprocket, maintenance portion 4 is located between first sprocket 5 and guide rail 1, first sprocket 5 and second sprocket all rotate around the horizontal direction and connect on the base mutually parallel, chain 6 meshes with first sprocket 5 and second sprocket respectively, and set up in guide rail 1 along guide rail 1 extending direction, make chain 6 be the arc, and all induced light 2 all set up in one side of chain 6 through connecting piece 10.

As shown in fig. 3, the chain 6 comprises a plurality of chain links 8 and rollers 9 connected with adjacent chain links 8, adjacent induction lamps 2 are arranged on the plurality of chain links 8 at intervals, rollers 16 connected with the guide rail 1 in a sliding manner are also rotationally connected to two sides of the rollers 9, and the rollers 16 are symmetrically arranged on the left side and the right side of the rollers 9 and rotationally connected with the rollers 9 around the axis of the rollers 9.

As shown in fig. 4, the connector 10 includes a first connecting plate 11 mounted on the chain 6 and a second connecting plate 12 disposed on the first connecting plate 11 for mounting the pilot lamp 2, the second connecting plate 12 has a mounting hole 13 for mounting the pilot lamp 2, the pilot lamp 2 can be mounted on the second connecting plate 12 by a fastener, and the fastener can be fixed by using nuts and bolts commonly known in the art.

The first connecting plates 11 are respectively sleeved on the two adjacent rollers 9, the second connecting plates 12 are perpendicular to the first connecting plates 11 and are positioned on the inner sides of the chains 6, and the induction lamps 2 are arranged on the second connecting plates 12 and positioned on the inner sides of the chains 6.

The power assembly 7 comprises a first driving motor 14 which is used as a power source to drive the first chain wheel 5 to rotate and a second driving motor which is used to drive the second chain wheel to rotate, wherein the first driving motor 14 and the second driving motor are respectively connected with the first chain wheel 5 and the second chain wheel through a speed reducing piece 15, the output frequency and the output speed of the first driving motor 14 and the output speed of the second driving motor are consistent, and the speed reducing piece 15 can adopt gear transmission speed reduction or chain transmission speed reduction which are common in the prior art.

The guide rail 1 downside still is provided with the block terminal, is provided with the power supply cable that corresponds to be connected with every induction lamp 2 in the block terminal, and power supply cable passes connecting piece 10 and induction lamp 2 and 6 fixed connection of chain, can follow induction lamp 2 and remove.

The induction lamp 2 and the power supply cable are fixed together with the transmission chain 6, the induction lamp 2 can move along the guide rail 1 along with the chain 6, the chain 6 is arranged on the guide rail 1 to form a closed internal circulation, after the induction lamp 2 breaks down, the fault induction lamp 2 originally positioned at the top of the tunnel can be conveyed to the maintenance part 4 at the lower end of the guide rail 1 through the transmission mechanism 3, and the fault induction lamp 2 is detached and replaced by a worker at the maintenance part 4.

Embodiment two:

as shown in fig. 5, the present embodiment provides a control system of an integrated automatic lifting device for a tunnel induction lamp according to the first embodiment, including: the system comprises an induction lamp monitoring module, an induction lamp screening module, a driving module, an emergency braking module, an alarm module and a processor.

The induction lamp monitoring module is used for monitoring the running conditions of all induction lamps on the guide rail, and comprises a first communication module and a first light source detection module for judging the light source intensity on the guide rail, wherein the first light source detection module is provided with a plurality of induction lamp areas, each first light source detection module can radiate a plurality of adjacent induction lamp areas and judge the illumination intensity in the areas, the guide rail is sequentially arranged into a plurality of areas through the plurality of first light source detection modules according to the arrangement mode of the induction lamps on the guide rail, each area corresponds to the plurality of induction lamps, each first light source detection module comprises an ambient light sensor capable of radiating the plurality of induction lamps in the corresponding area, the light intensity in the areas is judged through the ambient light sensor, if the integral light intensity in the areas is weakened, the condition of the induction lamps in the areas is stated, the information is converted into an electric signal to be transmitted to the alarm module through the first communication module, and meanwhile, the monitoring module can upload the running conditions of the induction lamps to the processor through the first communication module.

The alarm module can receive the signal transmitted by the first communication module and then convert the signal into an alarm signal to be transmitted into the processor, the alarm signal prompts a worker that the induction lamp at the tunnel port fails or is not illuminated, the alarm signal comprises the area number of the first light source detection module, the worker can judge the failure area according to the alarm signal and process the failure in time, and the worker starts the driving module through the processor after receiving the alarm signal and reaching the site.

The driving module is used for controlling the power assembly to run, and after receiving the driving signal of the processor, the driving module can start the first driving motor and the second driving motor to enable the chain to run, and the induction lamp in the fault area is conveyed to the maintenance part through the chain.

The guiding lamp screening module is located the maintenance portion of guide rail for the guiding lamp of the interior trouble of screening first light source module radiation, including second light source detection module and the second communication module that is used for screening first light source module radiation region internal guiding lamp one by one, including the light sensor that radiation region is less only to carry out light intensity detection to an guiding lamp in the second light source module, cooperation chain is carried and can be in the trouble region enter into the maintenance portion after carry out the screening one by one through the guiding lamp in the second light source detection module to the region, screens out the trouble guiding lamp that light intensity is not enough, and rotates the screening result into the signal of telecommunication and pass through second communication module transmission to treater and emergency braking module.

And the emergency braking module is matched with the induction lamp screening module, and controls the driving module to emergently close the transmission mechanism and the power supply after the fault induction lamp is identified.

And the processor is used for collecting the running condition data of the induction lamp and judging the position of the fault induction lamp, and is in communication connection with the induction lamp monitoring module, the induction lamp screening module, the driving module and the alarm module.

The operation condition of the induction lamps is detected in real time through the monitoring module and data are transmitted to the processor, each first light source detection module can judge the operation condition of the fault lamps in the area through the light intensity in the radiation area, a plurality of first light sources detect and cover the induction lamps, when the fault occurs in the area, the integral illumination intensity in the area can be weakened, the monitoring module transmits fault signals to the processor, the working personnel controls the processor to start the driving module, the fault areas are transmitted to the screening module, the induction lamps in the area are screened one by one, after the fault induction lamps are screened, the signals are transmitted to the processor, the driving module is controlled to enable the fault induction lamps to be transmitted to the maintenance part and trigger the emergency braking module, and then automatic identification and transmission of the fault induction lamps can be achieved.

Embodiment III:

the method for installing the integrated automatic lifting device of the tunnel-induced lamp based on the embodiment comprises the following steps of:

s1, installing guide rails; fixing the guide rail on the inner wall of the tunnel along the arc by using expansion screws, wherein the guide rail is fixed by using expansion screws which are not lower than M12, the interval between the expansion screws is not more than 30cm, and the firm and reliable connection between the guide rail and the tunnel wall is ensured;

s2, installing a power distribution cabinet; the distribution box is arranged in a tunnel at the maintenance side at ordinary times, is fixed on a special base by using an expansion screw, is required to be clung to the tunnel wall, and is fixed on the base by using the expansion screw;

s3, installing a power assembly; correspondingly mounting the first driving motor and the second driving motor at the lower end of the guide rail, keeping the mounting position consistent with the mounting position of the guide rail, and fixing the first driving motor and the second driving motor on a foundation;

s4, installing a chain; firstly fixing chain segments on a guide rail, then linking each segment together through screws, forming a circulated closed loop on two sides of the guide rail, requiring moderate tightness, and coating lubricating oil;

s5, installing the lamp and the cable; after the chain is installed and tested to be qualified, installing a lamp and a power supply cable along the chain, and fixing the lamp and the chain together for arrangement;

s6, installing the system, after the system is installed, performing each test according to the performance requirement, and continuously adjusting to achieve the ideal effect.

In summary, the present utility model effectively overcomes the disadvantages of the prior art and has high industrial utility value.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (9)

1. The utility model provides a tunnel induction lamp integration automatic lifting device, its characterized in that, includes a plurality of induction lamps, guide rail, drive mechanism, switch board, connecting piece, the guide rail is installed in tunnel port department just the guide rail extends along tunnel port outline shape, a plurality of induction lamps are arranged in the guide rail along guide rail extending direction, the guide rail lower extreme has the maintenance portion that is used for dismantling the induction lamp, drive mechanism sets up in the guide rail and is connected with a plurality of induction lamps respectively through the connecting piece, drive mechanism can make the induction lamp displacement on the guide rail to the maintenance portion of guide rail lower extreme.

2. The tunnel-guiding light integrated automatic lifting device according to claim 1, wherein: the transmission mechanism comprises a first sprocket arranged at the lower side of one end of the guide rail, a second sprocket arranged at the lower side of the other end of the guide rail, a chain connecting the first sprocket with the second sprocket and a power assembly driving the first sprocket to rotate with the second sprocket, wherein the chain is embedded in the guide rail and is connected with the guide rail in a sliding manner along the extending direction of the guide rail.

3. The tunnel induction lamp integrated automatic lifting device according to claim 2, wherein: the connecting piece is including installing the first connecting plate on the chain and setting up the second connecting plate that is used for installing the pilot lamp on first connecting plate, have the mounting hole that is used for installing the pilot lamp on the second connecting plate, the pilot lamp can be installed on the second connecting plate through the fastener.

4. A tunnel guidance light integrated automatic lifting device according to claim 3, wherein: the chain is internally provided with rollers, the first connecting plates are respectively sleeved on two adjacent rollers, the second connecting plates are perpendicular to the first connecting plates and are positioned on the inner side of the chain, and the induction lamp is arranged on the second connecting plates and positioned on the inner side of the chain.

5. The tunnel induction lamp integrated automatic lifting device according to claim 2, wherein: the guide rail is fixed on the inner side hole wall of the tunnel port through an expansion screw, a semi-arc shape is formed along the inner side of the tunnel, rollers are rotatably connected to two sides of a roller of the chain, guide grooves matched with the rollers are formed in the guide rail, and the chain can be connected in the guide rail through sliding of the rollers.

6. The tunnel induction lamp integrated automatic lifting device according to claim 2, wherein: the power assembly comprises a first driving motor and a second driving motor, wherein the first driving motor is used as a power source to drive the first sprocket to rotate, the second driving motor is used for driving the second sprocket to rotate, the first driving motor and the second driving motor are respectively connected with the first sprocket and the second sprocket through speed reducing pieces, and the output frequency and the output speed of the first driving motor and the output frequency and the output speed of the second driving motor are consistent.

7. The tunnel induction lamp integrated automatic lifting device according to claim 2, wherein: the block terminal is installed in the guide rail downside, still be provided with the power supply cable of being connected with the induction lamp on the guide rail, power supply cable passes connecting piece and induction lamp and chain fixed connection, can follow the induction lamp and remove.

8. A control system for an integrated automatic lifting device for a tunnel-inducing lamp as claimed in any one of claims 1 to 7, comprising:

the induction lamp monitoring module comprises a first communication module and a first light source detection module for judging the intensity of a light source on the guide rail, wherein a plurality of first light source detection modules are arranged, and each first light source detection module can radiate a plurality of adjacent induction lamp areas and judge the illumination intensity in the areas;

the induction lamp screening module is used for screening induction lamps of faults in the radiation area of the first light source module and comprises a second light source detection module and a second communication module, wherein the second light source detection module and the second communication module are used for screening the induction lamps in the radiation area of the first light source module one by one;

the driving module is used for controlling the power assembly to run and conveying the fault induction lamp to the maintenance part;

the emergency braking module is used for emergently closing the transmission mechanism and the power supply when the fault induction lamp is operated to the maintenance part;

and the processor is used for collecting the running condition data of the induction lamp and judging the position of the fault induction lamp, and is in communication connection with the induction lamp monitoring module, the induction lamp screening module and the driving module.

9. The control system of the integrated automatic lifting device for the tunnel-inducing lamp of claim 8, wherein: the system also comprises an alarm module which is in communication connection with the monitoring module and is used for transmitting the alarm signal to the processor after receiving the fault signal of the induction lamp.