CN211424196U - Wisdom lamp pole with supplementary traffic function of cruising - Google Patents

Abstract

The application relates to a smart lamp pole with an auxiliary traffic cruise function, which comprises a pole body, a stop platform and a lamp pole control circuit, wherein the pole body comprises a main pole and a lighting pole, and the lighting pole is arranged at one end, far away from the ground, of the main pole; the shutdown platform is fixedly connected to at least one of the main rod and the lighting rod and used for parking the unmanned aerial vehicle; lamp pole control circuit includes lighting control circuit and unmanned aerial vehicle control circuit, lighting control circuit is used for realizing lighting components's lighting control, unmanned aerial vehicle control circuit includes wireless communication module to carry out communication connection through wireless communication module and unmanned aerial vehicle, and under unmanned aerial vehicle control circuit's control, unmanned aerial vehicle can take off from shutting down the platform, cruises according to the route of crusing oneself with of predetermineeing. Shut down the platform through the setting and supply unmanned aerial vehicle to park to through lamp pole control circuit control unmanned aerial vehicle's automatic cruise, thereby can realize a key cruise control, greatly reduced unmanned aerial vehicle traffic cruise's the control degree of difficulty, be favorable to the popularization of unmanned traffic of cruising.

Description

Wisdom lamp pole with supplementary traffic function of cruising

Technical Field

The application relates to wisdom lamp pole field especially relates to a wisdom lamp pole with supplementary traffic function of cruising.

Background

At present, an unmanned aerial vehicle is applied to the traffic field to assist traffic polices to control road conditions. For example, in spring transportation and other important holidays, a traffic police can take the unmanned aerial vehicle, and after the traffic police reach a highway section of a key area, the traffic police patrol the fixed area so as to deal with traffic emergencies in the first time. However, when the traffic police uses the unmanned aerial vehicle, the ground control station needs to be arranged first, then the unmanned aerial vehicle is controlled to take off, the number of devices to be carried is large, and a plurality of traffic polices are generally needed to be matched to realize the unmanned aerial vehicle. Therefore, the existing method for mastering the traffic road conditions through the unmanned aerial vehicle is complex to operate, and popularization of unmanned cruising traffic is hindered.

SUMMERY OF THE UTILITY MODEL

On the basis, it is necessary to provide a wisdom lamp pole with supplementary traffic function of cruising to the problem that current method operation through unmanned aerial vehicle master traffic road conditions is complicated, has hindered the popularization of unmanned traffic of cruising.

An intelligent lamp post with the function of assisting traffic cruise, which comprises a post body, a shutdown platform and a lamp post control circuit, wherein,

the rod body is arranged on the ground and comprises a main rod and an illuminating rod, the illuminating rod is arranged at one end of the main rod, which is far away from the ground, and an illuminating assembly is arranged on the illuminating rod and used for realizing illumination;

the shutdown platform is fixedly connected to at least one of the main rod and the illuminating rod and used for parking the unmanned aerial vehicle;

lamp pole control circuit includes lighting control circuit and unmanned aerial vehicle control circuit, lighting control circuit is used for realizing lighting components's lighting control, unmanned aerial vehicle control circuit includes wireless communication module, unmanned aerial vehicle control circuit passes through wireless communication module carries out communication connection with unmanned aerial vehicle, just under unmanned aerial vehicle control circuit's control, unmanned aerial vehicle can follow shut down the platform and take off, cruise according to the route of cruising of predetermineeing.

In one embodiment, the unmanned aerial vehicle control circuit is externally provided with an operation interface, and the automatic cruise control of the unmanned aerial vehicle is realized through the operation interface.

In one embodiment, the parking platform comprises a parking plate, wherein a plurality of guide grooves are arranged on the parking plate, and the guide grooves are inverted conical and used for assisting the parking of the unmanned aerial vehicle.

In one embodiment, a clamping groove is arranged on the shutdown plate, and the clamping groove is arranged at the bottom of the guide groove and used for fixing the unmanned aerial vehicle.

In one embodiment, the shutdown platform further comprises a blocking and protecting plate and a cover plate, the blocking and protecting plate is fixedly connected to the shutdown plate, a shutdown space is surrounded by the blocking and protecting plate and the shutdown plate, the shutdown space is used for accommodating and placing an unmanned aerial vehicle, and the cover plate is fixedly connected to the blocking and protecting plate and covers the shutdown space.

In one embodiment, a windward side is defined between the main rod and the illuminating rods, or between a plurality of illuminating rods, the shielding plates on two opposite sides of the windward side are provided with edges, and the shielding plates on two sides of the edges form a preset included angle with the windward side.

In one embodiment, the fender plates on two sides of the windward side form a preset included angle with the parking plate, so that the parking space is in an inverted cone shape.

In one embodiment, the fender boards on both sides of the windward side intersect at the main pole or the lighting pole and are fixedly connected to the main pole or the lighting pole.

In one of them embodiment, still include the unmanned aerial vehicle subassembly that charges, the unmanned aerial vehicle subassembly that charges electricity connect in lamp pole control circuit for when unmanned aerial vehicle parks in the platform that stops, charge for unmanned aerial vehicle.

In one embodiment, the shutdown platform is disposed on the main stem; or the lighting device is arranged between the main rod and the lighting rod, is fixedly connected with the main rod and is fixedly connected with the lighting rod; or, the illumination pole is provided with a plurality ofly, it sets up to shut down the platform in a plurality of between the illumination pole, with a plurality of illumination pole fixed connection.

Above-mentioned wisdom lamp pole with supplementary traffic function of cruising, through the fixed platform of halting on the body of rod, unmanned aerial vehicle parks in the platform of halting, and can carry out automatic cruise under lamp pole control circuit's control, integrate unmanned aerial vehicle's control procedure on the wisdom lamp pole that has supplementary traffic function of cruising, can realize a key operation, and utilize this intensive equipment of lamp pole, can realize unmanned aerial vehicle's distribution as required, the supplementary traffic of realizing that can be better cruises, be convenient for traffic police masters the road conditions. Compare traditional unmanned aerial vehicle that carries, manual operation cruises, greatly reduced unmanned aerial vehicle's the method of controlling, traffic police only need with establishing communication connection between handheld display device and the unmanned aerial vehicle, can accept unmanned aerial vehicle's the picture of taking photo by plane, and operation mode is simple, can realize single controlling, is favorable to the popularization of unmanned traffic of cruising.

Drawings

Fig. 1 is a schematic structural diagram of a smart light pole with an auxiliary traffic cruise function according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a parking platform of a smart light pole with an auxiliary traffic cruise function according to an embodiment of the present disclosure;

fig. 3 is a schematic cross-sectional view illustrating a parking board of a parking platform having a smart light pole with an auxiliary traffic cruise function according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a parking platform of a smart light pole with an auxiliary traffic cruise function according to another embodiment of the present application;

fig. 5 is a schematic diagram of a light pole control circuit of a smart light pole with an auxiliary traffic cruise function according to an embodiment of the present disclosure.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are given in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The wisdom lamp pole that has supplementary traffic function of cruising of each embodiment of this application shuts down the platform through the setting and supplies unmanned aerial vehicle to park to through lamp pole control circuit control unmanned aerial vehicle's automatic cruise, thereby can realize a key cruise control, greatly reduced unmanned aerial vehicle traffic cruise's the control degree of difficulty, be favorable to the popularization of unmanned traffic of cruising.

The following describes in detail the smart lamp pole with the auxiliary traffic cruise function according to the embodiments of the present application with reference to the accompanying drawings.

Referring to fig. 1 and fig. 5, a schematic structural diagram of a smart light pole 10 with an auxiliary traffic cruise function according to an embodiment of the present disclosure is exemplarily shown, the smart light pole 10 with an auxiliary traffic cruise function includes a pole body 110, a shutdown platform 120 and a light pole control circuit 130, the pole body 110 is installed on the ground, the shutdown platform 120 is fixedly connected to the pole body 110 for parking an unmanned aerial vehicle, and the light pole control circuit 130 is used for realizing basic lighting control and functions of charging and cruise control of the unmanned aerial vehicle.

When the intelligent lamp pole is installed in a street or park, the intelligent lamp pole is fixedly connected to the ground through the pole body 110, so that the pole body 110 stands on the ground. Referring to fig. 1, the pole body 110 includes a main pole 111 and a lighting pole 113, the lighting pole 113 is disposed at one end of the main pole 111 far away from the ground, and the lighting pole 113 is provided with a lighting assembly 1131 for implementing a basic lighting function of the smart lamp pole. The parking platform 120 is fixedly coupled to at least one of the main bar 111 and the illumination bar 113. For example, the shutdown platform 120 may be disposed on the main rod 111, or may be disposed between the main rod 111 and the illumination rod 113, and is fixedly connected to the main rod 111 and the illumination rod 113; when the lighting bars 113 are provided in plurality, the stopping platform 120 may also be fixedly connected to the plurality of lighting bars 113 so as to be disposed between the plurality of lighting bars 113.

For example, in some embodiments, the shutdown platform 120 may be disposed on the end of the main mast 111 that is remote from the ground. In the embodiment shown in fig. 1, two illumination bars 113 are provided, and the stopping platform 120 may be disposed between the two illumination bars 113, and both ends of the stopping platform are fixedly connected to the two illumination bars 113, respectively.

Referring to fig. 1 to 3, the stopping platform 120 includes a stopping plate 121, the stopping plate 121 is provided with a plurality of guiding grooves 1211, and the guiding grooves 1211 are in an inverted cone shape and have smooth groove walls for assisting the unmanned aerial vehicle to stop. For example, the parking plate 121 may include a first end surface 121a and a second end surface 121b that are oppositely disposed, and the guide groove 1211 is disposed on the first end surface 121a and is formed by the first end surface 121a being recessed in a direction approaching the second end surface 121 b. The number of the guide grooves 1211 can be set corresponding to the number of the legs of the drone, for example, the drone is generally provided with four legs, the number of the guide grooves 1211 is also correspondingly set to four, the inverted cone-shaped structure of the guide grooves 1211 can play a role in automatically positioning the parking of the drone, only three legs need to fall into the range of the guide grooves 1211 when the drone lands on the parking plate 121, and when the legs contact with the walls of the guide grooves 1211, the legs have a tendency to slide down along the walls of the guide grooves because the walls of the guide grooves are smooth inclined walls, and finally stop at the bottom of the guide grooves 1211, so that the drone is parked at a preset position, and the charging of the drone can be facilitated. It will be appreciated that to enhance the self-locating action of the guide slot 1211, balls or similar structures may be provided on the legs of the drone to enable the legs to roll against the walls of the slot to reduce friction and allow the legs to eventually slide into the bottom of the guide slot 1211.

Referring to fig. 2 and 3, in some embodiments, the parking plate 121 may be provided with a locking groove 1213, and the locking groove 1213 is disposed at the bottom of the guide groove 1211 for fixing the drone. For example, the bottom of the guide groove 1211 is recessed in a direction close to the second end surface 121b to form a locking groove 1213, and when the legs of the drone slide into the bottom of the guide groove 1211 and enter the locking groove 1213, the locking groove 1213 fixes the legs of the drone, thereby fixing the drone to the parking plate 121.

Referring to fig. 2, in some embodiments, the shutdown platform 120 may further include a guard plate 123 and a cover plate (not shown), the guard plate 123 is fixedly connected to the shutdown plate 121, and the guard plate 123 and the shutdown plate 121 surround to form a shutdown space 120a, the shutdown space 120a is used for accommodating and placing the unmanned aerial vehicle, and the cover plate is fixedly connected to the guard plate 123 and covers the shutdown space 120 a. For example, four guard plates 123 may be provided, and the four guard plates 123 are connected end to end and fixed to surround the parking plate 121 to form the parking space 120a, or the parking plate 121 may be an elliptical or circular plate, and the corresponding guard plates 123 are elliptical or cylindrical. Through setting up fender board 123 and apron, can play the guard action to unmanned aerial vehicle, avoid unmanned aerial vehicle to be blown by wind and shift. It will be appreciated that the cover plate may be openable to facilitate take-off of the drone, for example the cover plate may rotate relative to the fender panel 123 to open, or slide open relative to the fender panel 123 to communicate the parking space 120a with the outside.

Referring to fig. 1 and 4, a windward side 140 is defined between the main rod 111 and the lighting rods 113 or between the lighting rods 113, and when the parking platform 120 is provided with the guard plate 123, the guard plate 123 has a certain area, so that the wind resistance is increased. In some embodiments, the guard plates 123 on two opposite sides of the windward side 140 are provided with edges, and the guard plates 123 on two sides of the edges form a predetermined included angle with the windward side 140, so that when wind blows to the windward side 140, the edges can break wind, and the wind is guided to the guard plates 123 on two sides of the edges to reduce wind resistance. For example, two guard plates 123 may be disposed on both sides of the windward side 140, and the two guard plates 123 form an edge at the boundary.

The fender board 123 of windward side 140 both sides also can be with shutting down board 121 and be predetermine the contained angle, so that it is the back taper to shut down space 120a, on the one hand, the parking of unmanned aerial vehicle can be convenient for to the space 120a of shutting down of back taper, on the other hand, the fender board 123 that the slope set up also can reduce the positive windward area of fender board 123, reduce the windage, simultaneously, keep away from ground one end of fender board 123 and also can form the effect of breaking wind, further reduce the windage, in addition, the fender board 123 that sets up is downwards oblique when receiving wind-force, can provide a decurrent component force, when bearing wind-force, the reinforcing has the anti-wind ability of the wisdom lamp pole 10 of supplementary traffic function of cruising.

Referring to fig. 4, in some embodiments, the fender panels 123 on both sides of the windward side 140 intersect at the main pole 111 or the lighting pole 113 and are fixedly connected to the main pole 111 or the lighting pole 113, so that the connection strength of the parking platform 120 can be enhanced.

Referring to fig. 5, the lamp post control circuit 130 includes a lighting control circuit 131, and the lighting control circuit 131 is used for implementing lighting control of the lighting assembly 1131. For example, the lighting control circuit 131 is connected to a pole control center, and executes an instruction of a lighting switch or the like according to an instruction of the pole control center.

Lamp pole control circuit 130 can also include unmanned aerial vehicle control circuit 133, and unmanned aerial vehicle control circuit 133 includes wireless communication module, and unmanned aerial vehicle control circuit 133 carries out communication connection with unmanned aerial vehicle through wireless communication module, and under unmanned aerial vehicle control circuit 133's control, unmanned aerial vehicle can take off from shutting down platform 120, cruises according to the route of cruising of predetermineeing. For example, the drone control circuit 133 may further include a controller and a memory, where the memory stores a plurality of instructions, and after receiving a preset instruction, the controller reads the instruction from the memory and controls the drone to cruise according to a preset path through the wireless communication module. It can be appreciated that the automatic cruise technology of the unmanned aerial vehicle can integrate the existing automatic cruise technology of the unmanned aerial vehicle in the market.

The drone controlling circuit 133 is externally provided with an operation interface 135, through which the drone is automatically cruise-controlled by the operation interface 135, so that an operator (e.g., a traffic police) controls the automatic cruise of the drone through the operation interface 135. For example, the operation interface 135 may be a button by which the drone executes automatic cruise; the operation interface 135 may also be a human-machine interface, for example, a touch screen may be provided, and the drone may be controlled by touching virtual keys on the touch screen. The operation interface 135 should not be easily touched by a pedestrian to avoid a malfunction. For example, a working chamber may be disposed on the rod 110, and the operation interface 135 may be disposed in the working chamber. The working chamber may be disposed at an end of the main rod 111 near the ground as a part of the main rod 111.

It can be understood that the wisdom lamp pole can be provided with the corresponding control assembly of supplementary unmanned aerial vehicle control, and control assembly can set up in the working bin, also can set up on shutting down platform 120. For example, in a specific embodiment, the control component is disposed on the parking platform 120, and when the guard plates 123 are extended and fixed with the main rod 111 or the lighting rod 113, the space enclosed between the extension of the two guard plates 123 on both sides of the windward side 140 and the parking plate 121 can be used for placing the control component, and the space for placing the control component is isolated from the parking space 120a by another guard plate 123. When the control assembly is disposed on the shutdown plate 121, the weight of the shutdown platform 120 may be increased, thereby enhancing the wind resistance of the shutdown platform 120 itself.

Can understand, need not to establish unmanned aerial vehicle at the equipartition on every wisdom lamp pole, only need lay unmanned aerial vehicle on one of them wisdom lamp pole of several specific highway sections on a street can, therefore, electronic components in the working bin can be different along with the different overall arrangement of wisdom lamp pole, for example, when laying unmanned aerial vehicle on the wisdom lamp pole, provide unmanned aerial vehicle operation control's corresponding subassembly, on the wisdom lamp pole that the integration has charging pile, it can lay in the working bin to fill the electric pile subassembly.

By configuring the unmanned aerial vehicle for the smart lamp pole and controlling the automatic cruising of the unmanned aerial vehicle through the smart lamp pole 10 with the traffic cruising assisting function, the traffic police can automatically cruise the unmanned aerial vehicle only by carrying out simple operation in the traffic field without manually operating the unmanned aerial vehicle by the traffic police; only need handheld display device to make display device and unmanned aerial vehicle establish data transmission channel, can receive unmanned aerial vehicle's shooting picture, thereby implement and master the road conditions.

It can be understood that the lamp post control circuit 130 can also receive the instruction of the remote control center, and control the automatic cruise of the unmanned aerial vehicle according to the instruction.

Referring to fig. 5, in one or more embodiments, the smart light pole 10 with the traffic cruise assisting function may further include an unmanned aerial vehicle charging assembly 150, where the unmanned aerial vehicle charging assembly 150 is electrically connected to the light pole control circuit 130, and is configured to charge the unmanned aerial vehicle when the unmanned aerial vehicle is parked on the parking platform 120. For example, the unmanned aerial vehicle charging assembly 150 may include a charging plug electrically connected to the lamp post control circuit 130 to mate with a socket on the unmanned aerial vehicle to complete charging of the unmanned aerial vehicle. Unmanned aerial vehicle is in the accurate positioning of shutting down platform 120, is favorable to charging through charging plug, for example, can set up the socket on unmanned aerial vehicle's stabilizer blade, and charging plug sets up in screens groove 1213 to when the stabilizer blade was embedded into screens groove 1213, make charging plug peg graft in the socket.

The rod body 110 can be provided with various interface devices of smart cities. For example, a monitoring device, such as a camera, may be provided as a monitoring interface; a wifi device or a mobile base station can be arranged to serve as a positioning interface and/or a network interface; ambient weather equipment can be provided to act as a weather interface; a broadcasting device may be provided as a broadcasting interface; one-key distress call equipment can be arranged to serve as a public security interface; a street lamp control device can be arranged to serve as a street lamp control interface; charging pile equipment can be arranged to serve as a charging interface; the traffic flow detection device can be used as a traffic system interface, and the lamp pole inclination detection device can be used for detecting the safety condition of the lamp pole. Of course, the interface devices may be set as one or more kinds, and the kinds and number of the interface devices are not limited to those listed above, and there may be more kinds of interface devices.

It can be understood that the process of collecting smart city information through the interface device can be performed under the control of the light pole control circuit 130.

Above-mentioned wisdom lamp pole 10 with supplementary traffic function of cruising, through fixed platform 120 of halting on the body of rod 110, unmanned aerial vehicle parks in platform 120 of halting, and can carry out automatic cruise under the control of lamp pole control circuit 130, integrate unmanned aerial vehicle's control procedure on wisdom lamp pole 10 with supplementary traffic function of cruising, can realize a key operation, and utilize this intensive equipment of lamp pole, can realize unmanned aerial vehicle's distribution as required, the supplementary traffic of realizing that can be better cruises, the traffic police of being convenient for masters the road conditions. Compare traditional unmanned aerial vehicle that carries, manual operation cruises, greatly reduced unmanned aerial vehicle's the method of controlling, traffic police only need with establishing communication connection between handheld display device and the unmanned aerial vehicle, can accept unmanned aerial vehicle's the picture of taking photo by plane, and operation mode is simple, can realize single controlling, is favorable to the popularization of unmanned traffic of cruising.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An intelligent lamp post with the function of assisting traffic cruise is characterized by comprising a post body, a shutdown platform and a lamp post control circuit, wherein,

the rod body is arranged on the ground and comprises a main rod and an illuminating rod, the illuminating rod is arranged at one end of the main rod, which is far away from the ground, and an illuminating assembly is arranged on the illuminating rod and used for realizing illumination;

the shutdown platform is fixedly connected to at least one of the main rod and the illuminating rod and used for parking the unmanned aerial vehicle;

lamp pole control circuit includes lighting control circuit and unmanned aerial vehicle control circuit, lighting control circuit is used for realizing lighting components's lighting control, unmanned aerial vehicle control circuit includes wireless communication module, unmanned aerial vehicle control circuit passes through wireless communication module carries out communication connection with unmanned aerial vehicle, just under unmanned aerial vehicle control circuit's control, unmanned aerial vehicle can follow shut down the platform and take off, cruise according to the route of cruising of predetermineeing.

2. The smart lamp post with the traffic cruise assisting function according to claim 1, wherein the unmanned aerial vehicle control circuit is provided with an operation interface outwards, and automatic cruise control of the unmanned aerial vehicle is achieved through the operation interface.

3. The smart lamp post with the traffic cruise assisting function according to claim 1, wherein the parking platform comprises a parking plate, a plurality of guide grooves are formed in the parking plate, and the guide grooves are in an inverted cone shape and are used for assisting the parking of the unmanned aerial vehicle.

4. The smart lamp post with the traffic cruise assisting function according to claim 3, wherein a clamping groove is formed in the parking plate and is formed in the bottom of the guide groove, and the clamping groove is used for fixing the unmanned aerial vehicle.

5. The intelligent lamp pole with the traffic cruise assisting function according to claim 3 or 4, wherein the shutdown platform further comprises a blocking guard plate and a cover plate, the blocking guard plate is fixedly connected to the shutdown plate, a shutdown space is formed by the blocking guard plate and the shutdown plate in a surrounding mode, the shutdown space is used for accommodating and placing an unmanned aerial vehicle, and the cover plate is fixedly connected to the blocking guard plate and covers the shutdown space.

6. The intelligent lamp post with the traffic cruise assisting function according to claim 5, wherein a windward side is defined between the main post and the illuminating posts or between a plurality of illuminating posts, the shielding plates on two opposite sides of the windward side are provided with edges, and the shielding plates on two sides of the edges form a preset included angle with the windward side.

7. The intelligent lamp pole with the traffic cruise assisting function according to claim 6, wherein the blocking and protecting plates on two sides of the windward side form a preset included angle with the parking plate, so that the parking space is in an inverted cone shape.

8. The intelligent lamp pole with the traffic cruise assisting function according to claim 6, wherein the fender boards on two sides of the windward side intersect at the main pole or the illuminating pole and are fixedly connected to the main pole or the illuminating pole.

9. The smart light pole with the function of assisting traffic cruise according to claim 1, further comprising an unmanned aerial vehicle charging assembly electrically connected to the light pole control circuit for charging the unmanned aerial vehicle when the unmanned aerial vehicle is parked on the parking platform.

10. The intelligent lamp pole with the function of assisting traffic cruise as claimed in claim 1, wherein the shutdown platform is arranged on the main pole; or the lighting device is arranged between the main rod and the lighting rod, is fixedly connected with the main rod and is fixedly connected with the lighting rod; or, the illumination pole is provided with a plurality ofly, it sets up to shut down the platform in a plurality of between the illumination pole, with a plurality of illumination pole fixed connection.

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