CN220083007U - Barrier lamp utilizing base station communication - Google Patents

Abstract

The utility model discloses a barrier lamp utilizing base station communication, belongs to the technical field of aviation barrier lamps, and particularly relates to a barrier lamp utilizing base station communication. The utility model comprises a barrier lamp body and a barrier lamp management system, wherein the barrier lamp body comprises a lampshade, a reflector, a lamp cap plate, a control board and a base. The obstruction light management system comprises a data acquisition unit, an MCU and a communication unit. The utility model utilizes the base station communication technology, carries out uplink and downlink data transmission on the barrier lamp by utilizing the mobile phone or the data card, realizes the control and monitoring of the barrier lamp, has the advantages and characteristics of remote monitoring and management, multiple communication modes, multi-level brightness adjustment, self-adaptive warning signals, high reliability and stability, flexible installation mode, convenience of field maintenance and repair and the like, and further improves the management efficiency and the operation and maintenance convenience of the barrier lamp.

Description

Barrier lamp utilizing base station communication

Technical Field

The utility model discloses a barrier lamp utilizing base station communication, belongs to the technical field of aviation barrier lamps, and particularly relates to a technology for controlling and monitoring the barrier lamp by utilizing a mobile phone or a data card to carry out transmission communication and carrying out uplink and downlink data transmission on the barrier lamp.

Background

In the field of aviation, barrier lights are widely used on high-rise buildings, power line towers and other barriers to identify the position and height of the barrier so as to ensure that the aircraft can fly safely at night or under low visibility conditions. The existing obstruction lights are connected to a control center in a wired mode for control and supervision, but the conventional obstruction lights have the problems of complex wiring, high cost, difficult maintenance, inconvenient management and low efficiency.

Meanwhile, with the development of communication technology, the mobile communication base station is widely applied to the traffic field, provides wide communication coverage and stable communication connection, but is just started in the field of wireless communication development of the navigation obstacle lamp. The Chinese patent No. 217235462U discloses a medium-intensity aviation obstruction light with a wireless communication function, as shown in FIG. 1, the medium-intensity aviation obstruction light comprises an obstruction light body, a mounting base, a control terminal connected with the obstruction light body through Ethernet communication and a radar terminal connected with the control terminal through wireless communication, wherein the control terminal comprises a data receiving module, a data processing transmission module and a data storage module, an energy storage battery is further arranged in the obstruction light body, the bottom of the mounting base is detachably connected with the working mounting position of the obstruction light body, a protective fence is arranged on the surface of the mounting base, the protective fence is detachably connected with the obstruction light body, through grooves for heat dissipation of the obstruction light body are formed in the side faces of the protective fence, and transparent protective covers for protecting the obstruction light body are further arranged at the tops of the protective fences, and the problem that the conventional aviation obstruction light is easily influenced by environmental factors such as rainwater and wind during working, so that the structure of the obstruction light is damaged, and normal use of the aviation obstruction light is influenced is solved. However, the radar communication mode has a narrower application range than the base station communication mode, and the real-time communication is difficult to realize in partial areas, so that the environment change of the obstacle lamp cannot be monitored in real time, and the obstacle lamp can be timely responded and maintained.

For this purpose, an obstruction light using base station communication is proposed to solve the above problems.

Disclosure of Invention

The utility model aims to provide an obstacle lamp utilizing base station communication, and aims to solve the problems that the application range of a radar communication mode in the background technology is narrower than that of a base station communication mode, real-time communication is difficult to realize in part of areas, and real-time monitoring of environmental changes of the obstacle lamp cannot be realized, and response and maintenance of the obstacle lamp can not be realized in time. In order to achieve the purpose, the utility model adopts the following technical scheme: a barrier lamp using base station communication comprises a barrier lamp body and a barrier lamp management system, wherein the barrier lamp body comprises a lampshade, a reflector, a lamp cap plate, a power supply, a control panel and a base. The lampshade comprises the bird-avoiding needle which is arranged on the base by adopting transparent materials, so that birds are prevented from gathering on the lampshade to pull feces to pollute the transparent lampshade. The horn mouth shape that the whole journey of reflector was taken radian is installed on the lamp holder board, and the lamp holder board sets up a plurality of LED lamps and encloses into the round with the osculum end of reflector, installs on the base and forms the cavity with the base, and the control panel sets up in the intracavity, and the base side is provided with the hexagon mechanism of taking the through-hole, and the bottom surface sets up a plurality of "waist circular" through-holes. The obstacle lamp management system comprises a power supply unit, an LED driving unit, a data acquisition unit, an MCU and a communication unit, wherein the data acquisition unit and the communication unit are integrated on a control board, the LED unit drives the LED lamp, the power supply, the LED lamp and the control board are electrically connected, the communication unit comprises a communication chip and an antenna, and the antenna is used for being in communication connection with a mobile phone or a data card. The obstacle lamp management system in the technical scheme is installed in the server, and is matched with a mobile phone or a data card to install an obstacle lamp management program for real-time data transmission, so that the purposes of real-time monitoring and timely maintenance of the obstacle lamp are easily achieved.

Further, the obstacle lamp body can communicate with the communication module in various modes, so that the communication module hardware is convenient to maintain, and the obstacle lamp is more flexible to communicate with the communication module.

Further, the communication unit is in communication connection with the base station through a wireless sensor network or the internet, wherein the wireless sensor and the base station are in communication mode including Wi-Fi, loRaWAN, NB-IoT, and the internet and the base station are in communication mode including ethernet, 4G/5G communication and cloud platform.

Further, the data acquisition unit comprises a sensor module and a positioning module. The sensor module is used for monitoring information such as wind speed, ambient brightness, battery electric quantity, temperature, smoke concentration and the like around the obstacle lamp, monitoring data are transmitted to the obstacle lamp management system of the server through the base station to save and analyze the data, and meanwhile the positioning module provides position information in real time.

Preferably, the positioning module adopts one of a GPS positioning system and a Beidou satellite navigation system, so that the rapid positioning of the obstacle lamp is ensured, and the maintenance is convenient.

More preferably, the communication module comprises a mobile phone or a data card, a data processing unit and a communication unit, wherein an obstacle light management program is installed on the mobile phone or the data card, and the mobile phone or the data card is used for receiving an obstacle light management system instruction, outputting a control signal and displaying the current state of an obstacle light. The data processing unit is used for processing the received user instruction or control signal and generating a control command, and the wireless communication module is used for carrying out uplink transmission on the generated control command through the base station and receiving monitoring data downlink from the base station. In the utility model, the mobile phone or the data card is used as a control terminal of the communication module, and uplink and downlink data transmission is carried out through the base station, so that the control and the monitoring of the obstruction lights are realized. The user can send instructions through the mobile phone or the data card to control parameters such as the on-off frequency and the flicker frequency of the obstacle lamp, and can receive monitoring data descending from the base station, including information such as the state and the working condition of the obstacle lamp, so that real-time remote monitoring and management of the obstacle lamp are realized.

Compared with the prior art, the utility model has the following beneficial effects:

1. flexibility and convenience: the mobile phone or the data card is utilized for transmission and communication, complicated wired wiring is not needed, and flexibility and convenience are higher. The obstruction lights can be controlled and monitored remotely without manual intervention, so that the labor cost and the time cost are reduced;

2. high efficiency and real-time performance: uplink and downlink data transmission is carried out through the base station, so that the high efficiency and the real-time performance of communication are ensured. The user can send the control command in real time, and receive the monitoring data of the obstacle lamp in real time, so as to monitor and manage the obstacle lamp in real time, thereby improving the safety of the aviation field;

3. extensibility and compatibility: the mobile phone or the data card is used as a communication module, can be compatible with the existing wireless communication network, and has stronger expandability. Meanwhile, different mobile phones or data cards can be flexibly selected for communication according to different obstruction light types and requirements, so that the communication system has stronger compatibility;

4. cost effectiveness: compared with the traditional wired communication mode, the method reduces complex wiring and maintenance cost, improves communication efficiency and convenience, and has better cost benefit.

Drawings

FIG. 1 is a schematic diagram provided by Chinese patent CN 217235462U;

FIG. 2 is a schematic view of an obstruction light according to an embodiment of the utility model;

fig. 3 is an explosion diagram of an obstruction light according to an embodiment of the present utility model.

Fig. 4 is a schematic diagram of a mobile phone or a data card transmission communication according to an embodiment of the present utility model.

Wherein, each reference sign in the figure:

1. a barrier lamp body; 11. a lamp shade; 111. a bird-avoiding needle; 12. a reflective mirror; 13. a lamp head plate; 14. a control board; 15. a seal ring; 16. a base; 2. a server; 3. and controlling the terminal.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the utility model. This utility model 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.

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

Referring to fig. 2, 3 and 4, the present utility model provides a barrier lamp using a base station for communication, which includes a barrier lamp body 1 and a barrier lamp management system, wherein the barrier lamp body 1 includes a lamp housing 11, a reflector 12, a lamp base plate 13, a power supply, a control board 14 and a base 16. The lamp shade 11 is made of transparent materials and is arranged on the base 16. The bell mouth shape of reflector 12 whole journey area radian is installed on lamp holder board 13, and lamp holder board 13 sets up a plurality of LED lamps and encloses the tip of reflector 12 into one circle, installs on base 16 and base 16 formation cavity, and control panel 14 sets up in the intracavity, and base 16 side is provided with the hexagon mechanism of taking the through-hole, and the bottom surface sets up a plurality of "waist circular" through-holes for fixed obstacle lamp base 16. The obstacle lamp management system comprises a power supply unit, an LED driving unit, a data acquisition unit, an MCU and a communication unit, wherein the data acquisition unit and the communication unit are integrated on a control board 14, the LED unit drives the LED lamp, a power supply, the LED lamp and the control board 14 are electrically connected with the obstacle lamp to form the control board 14, the obstacle lamp management system comprises the communication unit and the data acquisition unit, the communication unit is mainly a communication chip and an antenna, the communication chip can select a communication module for supporting a mobile communication network, and the antenna is used for being in communication connection with the obstacle lamp management system of a server 2. The obstruction light body 1 can communicate with the communication module in various modes, so that the maintenance and the repair of the communication module hardware are convenient, and the communication is flexible. The communication unit can be selectively connected with the base station through a wireless sensing network or the Internet in a communication way, and the communication unit comprises Wi-Fi, loRaWAN, BN-IoT, ethernet, 4G/5G communication and a cloud platform. The data acquisition unit comprises a sensor module and a positioning module. The sensor module is mainly used for monitoring information such as wind speed, ambient brightness, battery electric quantity, temperature, smoke concentration and the like around the obstacle lamp, transmitting monitoring data to the obstacle lamp management system of the server through the base station for storing and analyzing the data, and simultaneously providing position information in real time by the positioning module. The positioning module adopts one of a GPS positioning system and a Beidou satellite navigation system, so that the rapid positioning of the obstacle lamp is ensured, and the maintenance is convenient. And installing an obstacle lighting application program on the mobile phone or the data card, wherein the application program can be downloaded and installed through a mobile application store. The obstacle lighting tube management application program comprises a control instruction generation module and a state information display module. The operation and maintenance personnel open the obstacle lamp management application program through the mobile phone or the data card to be in communication connection with the obstacle lamp, and generate control instructions including the switch, the brightness and the flicker frequency lamp parameters of the obstacle lamp through the application program, and send the control instructions to the obstacle lamp. After receiving the control command, the obstruction light analyzes the control command through the module, and executes corresponding control operations, such as turning on or off the light, adjusting brightness, flicker frequency and the like.

In the working process of the obstacle lamp, the communication module uploads state information of the obstacle lamp to the mobile phone or the data card, wherein the state information comprises the current state, electric quantity, working time and the like. The mobile phone or the data card receives and analyzes the state information uploaded by the obstacle lamp, and displays the state information of the obstacle lamp, such as the state, brightness and electric quantity of the lamp, through the obstacle lamp management application program, so that the operation and maintenance personnel can monitor and manage the obstacle lamp in real time.

In the actual use process, the server 2 is used as a background management platform, processing and discharging parallel forwarding is carried out on data collected by the plurality of obstacle lamp bodies 1, the mobile phone and the data card are used as the control terminal 3, the application program is operated to generate instructions, the instructions are transmitted to the server 2 by using the base station, and the server 2 analyzes the instructions and forwards the instructions to the obstacle lamp bodies 1, so that the purpose of controlling the obstacle lamp bodies 1 is realized. The specific implementation steps comprise:

the sensor on the obstacle lamp body 1 collects surrounding environment data, the communication unit transmits the data to the server 2 by using the base station, the server 2 analyzes the data and then forwards the data to the mobile phone control terminal 3, and state information of the obstacle lamp body 1 is displayed, so that the purpose of monitoring the obstacle lamp 1 in real time is realized. The management program in the mobile phone control terminal 3 displays information, and after analysis, a maintainer uses the obstruction light management program to connect with the base station through the communication module to send instructions to the server 2, and the server 2 forwards the instructions to the communication unit of the control panel 14 to execute corresponding instructions, such as brightness adjustment of obstruction lights, flicker frequency and the like.

In summary, the utility model utilizes the base station communication technology to realize remote control and real-time monitoring of the obstruction lights, and improves the management efficiency and operation convenience of the obstruction lights. The mobile phone or the data card is used for communication connection, so that additional special equipment or network access is not needed, and the equipment cost and the installation complexity are reduced.

It will be understood that when an element is referred to as being "fixed 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. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiments, and the terms "upper," "lower," "left," "right," "front," "back," and the like are used herein with reference to the positional relationship of the drawings.

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 utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The above embodiments are only for illustrating the present utility model, not for limiting the present utility model, and various changes and modifications may be made by one of ordinary skill in the relevant art without departing from the spirit and scope of the present utility model, and therefore, all equivalent technical solutions are also within the scope of the present utility model, and the scope of the present utility model is defined by the claims.

Claims (6)

1. The utility model provides an utilize barrier lamp of basic station communication, includes barrier lamp body (1) and barrier lamp management system, barrier lamp body (1) include lamp shade (11), reflector (12), lamp holder board (13), control panel (14) and base (16), its characterized in that: the lampshade (11) comprises a bird-repellent needle (111) which is arranged on a base (16) by adopting a transparent material, the whole range of the reflector (12) is in a bell mouth shape with radian and is arranged on a lamp cap plate (13), the lamp cap plate (13) is provided with a plurality of LED lamps to enclose the small mouth end of the reflector (12) into a circle, the lamp cap plate is arranged on the base (16) and forms a cavity with the base (16), the lamp cap plate (13) is arranged in the cavity, the side surface of the base (16) is provided with a hexagonal mechanism with a through hole, and the bottom surface of the lamp cap plate is provided with a plurality of waist-round through holes;

the obstacle lamp management system comprises a power supply unit, an LED driving unit, a data acquisition unit, an MCU and a communication unit, wherein the data acquisition unit and the communication unit are integrated on a control board (14), the LED driving unit drives the LED lamp, the power supply unit, the LED lamp and the control board (14) are electrically connected, and the communication unit comprises a communication chip and an antenna.

2. An obstruction light communicating by a base station according to claim 1, wherein: the obstacle lamp body is communicated with the communication module in various modes, including wireless communication, bluetooth communication, wi-Fi communication and 4G/5G communication.

3. An obstruction light communicating by a base station according to claim 1, wherein: the communication unit is in communication connection with the base station through a wireless sensor network or the Internet.

4. A barrier lamp for communication by a base station according to claim 3, wherein: the wireless sensor network and the base station are communicated in a Wi-Fi, loRaWAN, NB-IoT mode, and the internet and the base station are communicated in an Ethernet mode, a 4G/5G communication mode and a cloud platform mode.

5. The obstruction light using base station communication according to claim 1, wherein said data acquisition unit comprises a sensor module and a positioning module.

6. An obstruction light communicating by a base station according to claim 5, wherein: the positioning module is one of a GPS positioning system and a Beidou satellite navigation system.