CN219623949U - Integrated lamp post - Google Patents

Abstract

The utility model relates to an integrated lamp post, which is integrated into an information network of a smart city through arranging a router AP. The strong current bin and the weak current bin are separated, so that the weak current bin is beneficial to isolating an alternating magnetic field in the strong current bin and preventing communication signals in the weak current bin from being interfered. The first functional column and the second functional column are hollow as the object setting points of the functional blocks, and the hollow functional column accommodates the electric energy transmission line and the communication transmission line of the functional blocks, so that the attractive degree of the whole integrated lamp post is improved. The service function of the integrated lamp post is expanded by the first functional module, and the service convenience of the smart city is improved. The service function of the integrated lamp post is also expanded by the plurality of chute fixing pieces, and the functional fittings fixed on the chute fixing pieces are more striking because the height of the first functional column is smaller than that of the second functional column. The lighting monitoring lamp cap is a basic functional module of the lamp post. The arrangement of the miniature weather station can provide finer data support for the weather data acquisition of the smart city.

Description

Integrated lamp post

Technical Field

The utility model relates to the technical field of road equipment engineering, in particular to an integrated lamp post.

Background

The smart city is a city system applied to the fields of city planning, design, construction, management, operation and the like through intelligent computing technologies such as Internet of things, cloud computing, big data, space geographic information integration and the like. Road designs such as road traffic guidance, road lighting, etc. in smart cities still require physical support of infrastructure equipment. In the face of the smart city requirement of high information integration, although the traditional lamp post has a certain modularized design thought and technical scheme, the traditional lamp post still has the defects in the aspects of function integration, installation maintenance and smart city adaptability. More briefly, the conventional lamp post cannot meet the requirement of multifunctional layout of a smart city with high information integration, for example, lacks a network communication function, and lacks a meteorological data acquisition function and a display function. In order to solve the defect, the utility model provides an integrated lamp post.

Disclosure of Invention

In order to solve the defect that the traditional lamp post cannot meet the multifunctional layout requirement of the smart city with high information integration, the utility model provides an integrated lamp post.

An integrated light pole comprising:

the base comprises a strong current bin, a weak current bin and a shell, wherein the strong current bin and the weak current bin are both arranged in the inner cavity of the shell, the strong current bin is electrically connected with the weak current bin, and the strong current bin is externally connected with a 220V alternating current cable;

the upright post comprises a first functional post and a second functional post, the height of the first functional post is smaller than that of the second functional post, the first functional post is fixedly connected with the second functional post, the first functional post is perpendicular to the shell and is fixedly connected with the shell, and the first functional post and the second functional post are communicated;

the first functional module comprises an access door, a wireless charging station, a charging pile and a rescue button, wherein the access door, the wireless charging station, the charging pile and the rescue button are all arranged on the first functional column, the wireless charging station is electrically connected with the weak current bin, and the charging pile is electrically connected with the strong current bin;

the sliding groove fixing pieces are arranged on the second functional column and are used for fixing functional accessories;

the router AP is in communication connection with the weak current cabin and is fixedly connected with one of the chute fixing pieces;

the illumination monitoring lamp cap is electrically connected with the weak current cabin and is fixedly connected to the top of the second functional column;

the second functional module comprises a miniature weather station, wherein the miniature weather station is in communication connection with the weak current cabin, and the miniature weather station is arranged at the top end of the second functional column.

Further, the integrated lamp post comprises an unmanned aerial vehicle apron;

the unmanned aerial vehicle comprises four support columns and a parking platform;

the structures and the sizes of the four support columns are the same;

one end of each supporting column is fixedly connected with the shutdown platform, and the other end of each supporting column is fixedly connected with the top end of the second functional column;

the shutdown platform is perpendicular to the extending line direction of the plumb line.

Further, the shutdown platform comprises a wire-free charging plate;

the wireless charging plate is arranged at the center of the shutdown platform and is attached to the shutdown platform;

the wireless charging plate is electrically connected with the weak current bin.

Further, the miniature weather station comprises a weather detection module;

the weather detection module comprises a heat-sensitive sensor, a humidity sensor, an air pressure sensor, a wind speed sensor and a wind direction sensor;

the heat-sensitive sensor, the humidity sensor, the air pressure sensor, the wind speed sensor and the wind direction sensor are all electrically connected with the weak current bin.

Further, the miniature weather station also comprises an air detection module;

the air detection module comprises a laser scattering sensor and an electrochemical sensor;

and the laser scattering sensor and the electrochemical sensor are electrically connected with the weak current bin.

Further, the distance between the two ends of each support column in the direction of the extension line of the plumb line is larger than the height of the miniature weather station;

the miniature weather station is arranged at the physical centers of the four supporting columns.

Further, the lighting monitoring lamp holder comprises a receiving rod, an LED light source and a monitoring probe;

the LED light source and the monitoring probe are arranged on the bearing rod;

the bearing rod is fixedly connected to the top of the second functional column;

the LED light source is electrically connected with the weak current bin;

the monitoring probe is in communication connection with the weak current cabin.

Further, the first end of the receiving rod is parallel to the second end of the receiving rod, and the distance between the first end of the receiving rod and the shell is larger than the distance between the second end of the receiving rod and the shell;

the first end of the receiving rod is smoothly connected with the second end of the receiving rod;

the LED light source is arranged at the first end of the receiving rod;

the monitoring probe is arranged at the second end of the receiving rod.

Further, the integrated lamp post further comprises a display screen and a signal lamp;

the display screen is fixedly connected with one chute fixing piece of the chute fixing pieces;

the signal lamp is fixedly connected with one chute fixing piece in the chute fixing pieces;

the display screen and the signal lamp are both in communication connection with the weak current cabin.

Further, the integrated lamp post also comprises a road name plate;

the road name plate is fixedly connected with one of the chute fixing pieces.

The utility model relates to an integrated lamp post, which is integrated into an information network of a smart city through arranging a router AP. The strong current bin and the weak current bin are separated, so that the weak current bin is beneficial to isolating an alternating magnetic field in the strong current bin and preventing communication signals in the weak current bin from being interfered. The first functional column and the second functional column are hollow as the object setting points of the functional blocks, and the hollow functional column accommodates the electric energy transmission line and the communication transmission line of the functional blocks, so that the attractive degree of the whole integrated lamp post is improved. The service function of the integrated lamp post is expanded by the first functional module, and the service convenience of the smart city is improved. The service function of the integrated lamp post is also expanded by the plurality of chute fixing pieces, and the functional fittings fixed on the chute fixing pieces are more striking because the height of the first functional column is smaller than that of the second functional column. The lighting monitoring lamp cap is a basic functional module of the lamp post. The arrangement of the miniature weather station can provide finer data support for the weather data acquisition of the smart city.

Drawings

Fig. 1 is a schematic structural diagram of an integrated lamp post according to an embodiment of the utility model.

FIG. 2 is a block diagram of a mini-weather station according to an embodiment of the present utility model.

Fig. 3 is a schematic structural diagram of an integrated lamp post according to another embodiment of the present utility model.

Reference numerals:

100-base; 110-a strong electric bin; 120-weak current bin; 130-a housing; 200-upright posts;

210-a first functional column; 220-a second functional column; 300-a first functional module; 310-access door;

320-a wireless charging station; 330-charging pile; 340-a rescue button; 350-a chute mount;

360-router AP; 400-lighting monitoring lamp cap; 410-receiving a rod; 411-receiving a first end of the rod;

412-receiving a second end of the rod; 420-LED light source; 430-monitoring the probe; 500-a second functional module;

510-a mini weather station; 520-weather detection module; 522-a heat sensitive sensor; 523-humidity sensor;

524-barometric pressure sensor; 525—wind speed sensor; 526-wind direction sensor; 530-an air detection module;

531-a laser light scattering sensor; 532-electrochemical sensor; 600-unmanned aerial vehicle; 610-support columns;

620-shutdown platform; 630-wireless charging pad; 710—a display screen; 720-signal lamp; 730-road name card.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The utility model provides an integrated lamp post.

As shown in fig. 1, in one embodiment of the present utility model, an integrated lamp post includes a base 100, a post 200, a first functional module 300, a chute mount 350, a router AP360, a lighting monitor head 400, and a second functional module 500.

The base 100 comprises a strong current bin 110, a weak current bin 120 and a shell 130, wherein the strong current bin 110 and the weak current bin 120 are both arranged in an inner cavity of the shell 130, the strong current bin 110 is electrically connected with the weak current bin 120, and the strong current bin 110 is externally connected with a 220V alternating current cable.

The upright post 200 includes a first functional post 210 and a second functional post 220, the height of the first functional post 210 is smaller than that of the second functional post 220, the first functional post 210 is fixedly connected with the second functional post 220, the first functional post 210 is perpendicular to the housing 130 and is fixedly connected with the housing 130, and the first functional post 210 and the second functional post 220 are internally conducted.

The first functional module 300 includes an access door 310, a wireless charging station 320, a charging pile 330 and a rescue button 340, wherein the access door 310, the wireless charging station 320, the charging pile 330 and the rescue button 340 are all arranged on the first functional column 210, the wireless charging station 320 is electrically connected with the weak current cabin 120, and the charging pile 330 is electrically connected with the strong current cabin 110.

The plurality of chute fixtures 350 are disposed on the second functional post 220, and the plurality of chute fixtures 350 are used for fixing functional accessories.

The router AP360 is communicatively connected to the weak current compartment 120, and the router AP360 is fixedly connected to one of the chute fixtures 350 of the plurality of chute fixtures 350.

The lighting monitoring lamp cap 400 is electrically connected with the weak current cabin 120, and the lighting monitoring lamp cap 400 is fixedly connected to the top of the second functional column 220.

The second functional module 500 includes a mini-weather station 510, where the mini-weather station 510 is communicatively connected to the weak current cabin 120, and the mini-weather station 510 is disposed at the top end of the second functional post 220.

Specifically, the second functional post 220 is preferably a square metal tube, and sliding grooves are formed on four outer sidewalls of the second functional post 220, and the sliding grooves are used for sliding and sleeving the sliding groove fixing member 350. It should be noted that, the height of the second functional post 220 is 1.5 m to 2.5 m, and the four outer side walls of the second functional post 220 are all provided with sliding grooves, so that the second functional post 220 can expand a plurality of sliding groove fixing members 350, and the process of installing the functional fittings and the sliding groove fixing members 350 in the sliding grooves is convenient, when the functional fittings are electrical equipment, the electrical wiring harness required by the electrical equipment is hidden in the inner cavity of the second functional post 220, and the whole second functional post 220 has a neat and attractive appearance.

The utility model relates to an integrated lamp post, which is integrated into an information network of a smart city through a router AP 360. The strong current bin 110 is separated from the weak current bin 120, which is beneficial to the weak current bin 120 to isolate the alternating magnetic field in the strong current bin 110 and prevent the communication signal in the weak current bin 120 from being interfered. The first functional column 210 and the second functional column 220 are hollow as the object mounting points of the functional blocks, and the hollow functional columns accommodate the power transmission lines and the communication transmission lines of the functional blocks, so that the attractiveness of the whole integrated lamp post is improved. The first functional module 300 expands the service function of the integrated lamp post, and improves the service convenience of the smart city. The plurality of chute fixtures 350 also expands the service functions of the integrated light pole, and the functional accessories secured to the chute fixtures 350 are more striking because the height of the first functional column 210 is smaller than the second functional column 220. The lighting monitor head 400 is the basic functional module of the light pole. The arrangement of the mini-weather station 510 can provide finer data support for the acquisition of the weather data in the smart city.

As shown in fig. 1 to 3, in an embodiment of the present utility model, the integrated lamp post includes an unmanned aerial vehicle apron 600. The unmanned aerial vehicle apron 600 includes four support posts 610 and a parking platform 620. The four support columns 610 are identical in structure and size. One end of each supporting column 610 is fixedly connected to the shutdown platform 620, and the other end of each supporting column 610 is fixedly connected to the top end of the second functional column 220. The stop platform 620 is perpendicular to the direction of elongation of the plumb line.

The present utility model relates to an unmanned aerial vehicle apron 600. The integrated lamp pole sets up in the road side more, although, integrated lamp pole is provided with illumination monitoring lamp holder 400, and illumination monitoring lamp holder 400 can the fixed point control road vehicle condition, unmanned aerial vehicle terminal has the advantage that the free flexibility, dynamic management and control area is big. Along with the construction of smart city facilities, especially the application of unmanned aerial vehicle system in city traffic management, the integrated lamp pole is required to satisfy the work demand of unmanned aerial vehicle terminal.

As shown in fig. 1-3, in one embodiment of the present utility model, the shutdown platform 620 includes a wireless charging pad 630. The wireless charging pad 630 is disposed at the center of the shutdown platform 620 and the wireless charging pad 630 is attached to the shutdown platform 620. The wireless charging pad 630 is electrically connected with the weak current cabin 120.

The present utility model relates to a wireless charging pad 630. The shutdown platform 620 provides the service of the unmanned aerial vehicle terminal for storing, duty transfer function, and also provides the charging service for the unmanned aerial vehicle terminal adaptively. The continuous standby duty of the unmanned aerial vehicle terminal is guaranteed, and temporary charging and supplying service is provided for the unmanned aerial vehicle terminal in the duty process. In fact, the unmanned aerial vehicle terminal can access the router AP360 data information flow, so that the information storage pressure of the unmanned aerial vehicle terminal is slowed down, and the communication command scheme of the unmanned aerial vehicle terminal is increased.

As shown in FIGS. 1-3, in one embodiment of the present utility model, the mini-weather station 510 includes a weather detection module 520. The weather detection module 520 includes a thermal sensor 522, a humidity sensor 523, an air pressure sensor 524, a wind speed sensor 525, and a wind direction sensor 526. The heat-sensitive sensor 522, the humidity sensor 523, the air pressure sensor 524, the wind speed sensor 525 and the wind direction sensor 526 are all electrically connected to the weak electric bin 120.

The present utility model relates to a weather detection module 520. The data model of the smart city is not limited to the management of road traffic, but the smart city also relates to the monitoring service of the urban environment. As the integrated lamp pole scattered in the city frame, the integrated lamp pole has the advantage of strong representativeness in the aspect of the collection of environmental data, and the meteorological data collected by the meteorological detection module 520 installed on the integrated lamp pole has the characteristics of strong regionality, high accuracy and high instantaneity.

As shown in fig. 1-3, in an embodiment of the present utility model, the mini-weather station 510 further includes an air detection module 530. The air detection module 530 includes a laser light scattering sensor 531 and an electrochemical sensor 532. The laser light scattering sensor 531 and the electrochemical sensor 532 are electrically connected to the weak current compartment 120.

The present utility model relates to an air detection module 530. The data model of the smart city is not limited to the management of road traffic, but the smart city also relates to the monitoring service of the urban environment. Air quality is also an important indicator in urban environments. The meteorological data collected by the air detection module 530 installed on the integrated lamp post has the characteristics of strong regionality, high precision and high real-time performance.

In one embodiment of the present utility model, as shown in fig. 1-3, the distance between the two ends of each support column 610 in the direction of the plumb line extension is greater than the height of the mini weather station 510. The mini weather station 510 is disposed in the physical center of four of the support columns 610.

The present utility model relates to a mini weather station 510. Since the mini weather station 510 needs to collect a large amount of atmospheric data in real time, the mini weather station 510 needs to be connected to the atmosphere, and ensure that the atmosphere has a good circulation channel. The distance between the two ends of the support column 610 of the unmanned aerial vehicle apron 600 in the direction of the extension line of the plumb line is larger than the height of the miniature weather station 510, so that the miniature weather station 510 is positioned at the top end of the unmanned aerial vehicle apron 600, and the atmospheric circulation is smooth. The mini weather station 510 is disposed at the physical center of the four support columns 610, and the air flow path of the side wall of the mini weather station 510 is not blocked.

As shown in fig. 1 to 3, in an embodiment of the present utility model, the lighting monitor head 400 includes a receiving rod 410, an LED light source 420, and a monitor probe 430. The LED light source 420 and the monitor probe 430 are both provided on the receiving rod 410. The receiving rod 410 is fixedly connected to the top of the second functional post 220. The LED light source 420 is electrically connected to the weak current cabin 120. The monitoring probe 430 is communicatively coupled to the weak current cartridge 120.

The present utility model relates to an illumination monitoring lighthead 400. Since the LED light source 420 and the monitoring probe 430 need to be disposed at a certain height to achieve an optimal irradiation range and monitoring range, the illumination monitoring head 400 is disposed on top of the second functional post 220. It should be noted that the length of the receiving rod 410 is approximately equal to the side length of the housing 130, the housing 130 is rectangular with a square cross section, and in particular, when the integrated lamp pole is installed, the moment provided by the housing 130 is ensured to satisfy the moment required by the receiving rod 410.

As shown in fig. 1 to 3, in an embodiment of the present utility model, the first end 411 of the receiving rod 410 and the second end 412 of the receiving rod 410 are parallel to each other, and the distance between the first end 411 of the receiving rod 410 and the housing 130 is greater than the distance between the second end 412 of the receiving rod 410 and the housing 130. The first end 411 of the receiving rod 410 is smoothly connected to the second end 412 of the receiving rod 410. The LED light source 420 is disposed at the first end 411 of the receiving rod 410. The monitor probe 430 is disposed at the second end 412 of the receiving rod 410.

The present utility model relates to an illumination monitoring lighthead 400. To ensure that the LED light source 420 and the monitor probe 430 are mounted horizontally, the first end 411 of the receiving rod 410 and the second end 412 of the receiving rod 410 are parallel to each other, and the first end 411 of the receiving rod 410 and the second end 412 of the receiving rod 410 are perpendicular to the direction of elongation of the plumb line. Meanwhile, the distance between the first end 411 of the receiving rod 410 and the housing 130 is greater than the distance between the second end 412 of the receiving rod 410 and the housing 130, and the first end 411 of the receiving rod 410 and the second end 412 of the receiving rod 410 are smoothly connected to ensure the beautiful appearance of the lighting monitor lamp cap 400. It should be noted that in the development of the present embodiment, the first end 411 and the second end of the receiving rod 410 may be provided with different types or the same type of monitoring probes 430.

As shown in fig. 1 to 3, in an embodiment of the present utility model, the integrated lamp post further includes a display 710 and a signal lamp 720. The display screen 710 is fixedly coupled to one of the chute fixtures 350 of the plurality of chute fixtures 350. The signal lamp 720 is fixedly connected to one of the chute fixtures 350 among the plurality of chute fixtures 350. The display screen 710 and the signal lamp 720 are both in communication connection with the weak current cabin 120.

The present utility model relates to a display screen 710 and a signal lamp 720. The signal lamp 720 can be used as a physical object of traffic guidance, and the signal lamp 720 expands the functions of the integrated lamp post. The display screen 710 can be used as an information output terminal of a smart city to provide real-time information prompts for pedestrian vehicles on roads. Meanwhile, the display screen 710 can serve as an advertising platform, so that the commercial operation value of the integrated lamp post is improved.

As shown in fig. 1 to 3, in an embodiment of the present utility model, the integrated lamp post further includes a road name board 730. The road name plate 730 is fixedly connected to one of the chute fixtures 350 among the plurality of chute fixtures 350.

The present utility model relates to a road name card 730. The road name plate 730 provides information cues for pedestrian vehicles on the road. The functions of the integrated lamp post are expanded.

The technical features of the above embodiments may be combined arbitrarily, and the steps of the method are not limited to the execution sequence, so that all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description of the present specification.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of the utility model should be assessed as that of the appended claims.

Claims (10)

1. An integrated light pole, comprising:

the base comprises a strong current bin, a weak current bin and a shell, wherein the strong current bin and the weak current bin are both arranged in the inner cavity of the shell, the strong current bin is electrically connected with the weak current bin, and the strong current bin is externally connected with a 220V alternating current cable;

the upright post comprises a first functional post and a second functional post, the height of the first functional post is smaller than that of the second functional post, the first functional post is fixedly connected with the second functional post, the first functional post is perpendicular to the shell and is fixedly connected with the shell, and the first functional post and the second functional post are communicated;

the first functional module comprises an access door, a wireless charging station, a charging pile and a rescue button, wherein the access door, the wireless charging station, the charging pile and the rescue button are all arranged on the first functional column, the wireless charging station is electrically connected with the weak current bin, and the charging pile is electrically connected with the strong current bin;

the sliding groove fixing pieces are arranged on the second functional column and are used for fixing functional accessories;

the router AP is in communication connection with the weak current cabin and is fixedly connected with one of the chute fixing pieces;

the illumination monitoring lamp cap is electrically connected with the weak current cabin and is fixedly connected to the top of the second functional column;

the second functional module comprises a miniature weather station, wherein the miniature weather station is in communication connection with the weak current cabin, and the miniature weather station is arranged at the top end of the second functional column.

2. The integrated light pole of claim 1, wherein the integrated light pole comprises an unmanned apron;

the unmanned aerial vehicle comprises four support columns and a parking platform;

the structures and the sizes of the four support columns are the same;

one end of each supporting column is fixedly connected with the shutdown platform, and the other end of each supporting column is fixedly connected with the top end of the second functional column;

the shutdown platform is perpendicular to the extending line direction of the plumb line.

3. The integrated light pole of claim 2, wherein the shutdown platform comprises a wireless charging pad;

the wireless charging plate is arranged at the center of the shutdown platform and is attached to the shutdown platform;

the wireless charging plate is electrically connected with the weak current bin.

4. An integrated light pole according to claim 3, wherein the miniature weather station comprises a weather detection module;

the weather detection module comprises a heat-sensitive sensor, a humidity sensor, an air pressure sensor, a wind speed sensor and a wind direction sensor;

the heat-sensitive sensor, the humidity sensor, the air pressure sensor, the wind speed sensor and the wind direction sensor are all electrically connected with the weak current bin.

5. The integrated light pole of claim 4, wherein the mini-weather station further comprises an air detection module;

the air detection module comprises a laser scattering sensor and an electrochemical sensor;

and the laser scattering sensor and the electrochemical sensor are electrically connected with the weak current bin.

6. The integrated light pole of claim 5, wherein in an installed state, the distance between the two ends of each support column in the direction of the extension of the plumb line is greater than the height of the mini weather station;

the miniature weather station is arranged at the physical centers of the four supporting columns.

7. The integrated light pole of claim 1, wherein the lighting monitor light head comprises a receiving rod, an LED light source, and a monitor probe;

the LED light source and the monitoring probe are arranged on the bearing rod;

the bearing rod is fixedly connected to the top of the second functional column;

the LED light source is electrically connected with the weak current bin;

the monitoring probe is in communication connection with the weak current cabin.

8. The integrated light pole of claim 7, wherein the first end of the receiving rod and the second end of the receiving rod are parallel to each other and the first end of the receiving rod is spaced from the housing a greater distance than the second end of the receiving rod is spaced from the housing;

the first end of the receiving rod is smoothly connected with the second end of the receiving rod;

the LED light source is arranged at the first end of the receiving rod;

the monitoring probe is arranged at the second end of the receiving rod.

9. The integrated light pole of claim 1, further comprising a display screen and a signal light;

the display screen is fixedly connected with one chute fixing piece of the chute fixing pieces;

the signal lamp is fixedly connected with one chute fixing piece in the chute fixing pieces;

the display screen and the signal lamp are both in communication connection with the weak current cabin.

10. The integrated light pole of claim 9, wherein the integrated light pole further comprises a road name board;

the road name plate is fixedly connected with one of the chute fixing pieces.