CN210717424U

CN210717424U - Emergency all-terrain lighting platform

Info

Publication number: CN210717424U
Application number: CN201922129527.5U
Authority: CN
Inventors: 黄浦; 李宏军; 杜志华; 蔺庚立; 王勇; 于波; 李伟健; 刘子瑞; 白晓斌
Original assignee: Baoji Power Supply Co Of State Grid Shaanxi Electric Power Co; State Grid Corp of China SGCC
Current assignee: National Network Xi'an Environmental Protection Technology Center Co ltd; State Grid Shaanxi Electric Power Co Ltd Baoji Power Supply Co; State Grid Corp of China SGCC
Priority date: 2019-12-02
Filing date: 2019-12-02
Publication date: 2020-06-09
Anticipated expiration: 2029-12-02

Abstract

The utility model discloses an emergency all-terrain lighting platform, which comprises a generator, a direct-current high-voltage power supply, a mooring winch, a lift-off platform and a mooring cable; the output of generator is connected to DC high voltage power supply through the cable, and the mooring cable is connected to DC high voltage power supply's output, and the mooring cable is connected to the airborne power supply who rises to the air the platform through the mooring winch, and the mooring winch is connected with the controller that is used for controlling the mooring winch to receive and release the mooring cable, rises to the air the platform lower part and all is equipped with a plurality of angularly adjustable illumination belly lamps, is provided with a plurality of illumination wall lamps in the frame that rises to the air the platform, illumination belly lamp and illumination wall lamp all supply power through airborne power supply. The utility model provides a long problem during the illumination in the air, unmanned aerial vehicle's stability problem, also reached the requirement that the dead angle illumination is not had to the large tracts of land.

Description

Emergency all-terrain lighting platform

Technical Field

The utility model relates to an emergency lighting technology field, concretely relates to emergent all-terrain lighting platform.

Background

Generally, the occurrence areas of frequent natural disasters, secondary disasters and human accidents are mostly concentrated in mountainous areas and remote areas, the power emergency repair work provides key power supply support for the overall rescue of the disasters, and has an extremely important function, and in the power emergency repair, emergency lighting is an indispensable important link. The mountainous area and remote areas have complex geographic environment and unsmooth traffic, whether stable and reliable on-site large-area illumination can be provided at the first time after a disaster occurs or not, the emotion of people in the disaster area is stabilized, on-site first-aid repair and rescue is stably carried out, the social responsibility of a power grid enterprise is shown, and higher requirements are provided for on-site illumination technical guarantee.

The traditional mobile lighting lighthouse is a mainstream large rescue lighting device in recent years. The angle and the liftable height of the movable lighting lighthouse are limited, so that the lighting area is limited, lighting dead angles are easily generated, the movable lighting lighthouse is flexible and poor in flexibility, is difficult to adapt to severe geographical environments, cannot play an effective lighting role in fields, mountainous areas and water areas emergency rescue sites, and brings certain influence on power supply enterprises in emergency rescue.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an emergent all-terrain lighting platform to overcome the not enough of current lighting apparatus, the utility model provides a long problem during the air lighting, unmanned aerial vehicle's stability problem, also reached the requirement that the dead angle illumination is not had to the large tracts of land.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an emergency all-terrain lighting platform comprises a generator, a direct-current high-voltage power supply, a mooring winch, a lifting platform and a mooring cable; the output of generator is connected to DC high voltage power supply through the cable, and the mooring cable is connected to DC high voltage power supply's output, and the mooring cable is connected to the airborne power supply who rises to the air the platform through the mooring winch, and the mooring winch is connected with the controller that is used for controlling the mooring winch to receive and release the mooring cable, rises to the air the platform lower part and all is equipped with a plurality of angularly adjustable illumination belly lamps, is provided with a plurality of illumination wall lamps in the frame that rises to the air the platform, illumination belly lamp and illumination wall lamp all supply power through airborne power supply.

Further, the angle adjusting range of the lighting belly light is 0-45 degrees.

Furthermore, the switch of the lighting belly light, the switch of the lighting wall lamp and the angle adjustment of the lighting belly light are all controlled through remote control of remote equipment.

Furthermore, a standby power supply is also arranged on the lift-off platform.

Further, the lift-off platform adopts a Xinjiang longitude and latitude MATRICE 600PRO unmanned aerial vehicle.

Furthermore, a high-definition wireless image transmission system is integrated on the lift-off platform.

Compared with the prior art, the utility model discloses following profitable technological effect has:

the utility model carries mobile lighting equipment on the re-lift platform, reasonably integrates lighting lamps and lanterns with all parts of the unmanned aerial vehicle, so as to maintain the stability of the lift platform; meanwhile, the power supply of the lighting lamp is removed, the mode of sharing the power supply with the lift-off platform is realized, the integral load of the lift-off platform is reduced, and the potential safety hazard caused by the load limitation of the lift-off platform is solved; meanwhile, a ground power supply mode is adopted, single-phase or three-phase alternating current of the generator is converted into direct-current high voltage through a direct-current high-voltage power supply and converted into direct-current voltage for the lift-off platform to use, power can be continuously supplied to the lift-off platform, the problems of long time in air illumination and stability of the lift-off platform are solved, the requirement of large-area dead-angle-free illumination is met, in addition, the mooring cable can be rapidly unfolded and recovered through the mooring winch and the controller, the overlong take-up and pay-off time process caused by overlong mooring cable is prevented, and meanwhile, the probability of collision and bending of optical fibers in the mooring cable is reduced.

Furthermore, the lighting belly lamp can be remotely controlled to rotate by 0-45 degrees, so that the remote lighting angle adjustment is realized, and the application field and the function of the platform are enriched.

Furthermore, the lighting belly lamp and the lighting wall lamp are controlled to be turned on and turned off in a remote mode through remote equipment, lighting according to needs is achieved, and electric quantity is saved.

Furthermore, the integrated high-definition wireless image transmission system is provided with a 30-time high-definition camera, and the camera shooting and lighting are combined, so that the on-site image can be transmitted back clearly in time, and the night searching, the disaster site investigation and the like are facilitated.

Drawings

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

FIG. 2 is a schematic diagram of AC-DC conversion according to the present invention;

fig. 3 is a schematic view of an operation interface of the mooring rope controller of the present invention;

fig. 4 is a schematic layout of an illuminating belly light and an illuminating wall light.

Wherein, 1, a generator; 2. a direct current high voltage power supply; 3. a mooring winch; 4. lifting the platform; 5. mooring the cable; 6. illuminating the belly light; 7. and (5) illuminating the wall lamp.

Detailed Description

The invention is further described with reference to the accompanying drawings:

referring to fig. 1 and 4, an emergency all-terrain lighting platform comprises a generator 1, a direct-current high-voltage power supply 2, a mooring winch 3, a lifting platform 4 and a mooring cable 5; the output end of the generator 1 is connected to a direct-current high-voltage power supply 2 through a cable, the output end of the direct-current high-voltage power supply 2 is connected with a mooring cable 5, the mooring cable 5 is connected to an airborne power supply of the lift-off platform 4 through a mooring winch 3, the mooring winch 3 is connected with a controller for controlling the mooring winch 3 to receive and release the mooring cable 5, the lift-off platform 4 adopts a Dajiang longitude and latitude MATRICE 600PRO unmanned aerial vehicle, the lower part of the lift-off platform 4 is provided with a plurality of lighting belly lamps 6 with adjustable angles, the angle adjusting range of the lighting belly lamps 6 is 0-45 degrees, a plurality of lighting wall lamps 7 are arranged on a rack of the lift-off platform 4, the switches of the lighting belly lamps 6, the switches of the lighting wall lamps 7 and the angle adjusting of the lighting belly lamps 6 are all controlled by remote equipment, the lighting belly lamps 6 and the lighting wall lamps 7 are all powered by the airborne power supply, a standby power supply for, and a high-definition wireless image transmission system is integrated on the lift-off platform 4.

Lift-off platform 4 reforms transform on aerial photography unmanned aerial vehicle's basis, reforms transform into and carries on the mobile lighting equipment with the cloud platform that originally carries on the camera. With the additional installation and application of the mobile lighting lamp, the unmanned aerial vehicle is exposed, the load is limited, and the lamp with overlarge power cannot be hoisted; the heat dissipation problem of the high-power lamp is difficult to solve; the stability is poor after the lamp is hoisted, and the lamp is easily disturbed by wind; unmanned aerial vehicle self battery power is limited, and after the lamps and lanterns were hoisted, flight time shortened a great deal of problems such as greatly. Therefore, the lighting lamp is reasonably integrated with all parts of the unmanned aerial vehicle so as to maintain the stability of the unmanned aerial vehicle platform; the power supply of the lamp is removed, the mode of sharing the airborne power supply with the unmanned aerial vehicle is realized, the integral load of the unmanned aerial vehicle is reduced, and the potential safety hazard caused by load limitation of the unmanned aerial vehicle is solved; meanwhile, a ground power supply mode is adopted, the problems of long time in air illumination and stability of the unmanned aerial vehicle are solved, and the requirement of large-area dead-angle-free illumination is met.

1. And (4) unmanned aerial vehicle platform model selection. In platform research, the load test of unmanned aerial vehicle platform is the key. Based on the consideration of the technical maturity and the product stability of the unmanned aerial vehicle platform, three types of Xinjiang longitude and latitude MATRICE 600PRO, Xinjiang longitude and latitude MATRICE 200 and Xinjiang INSPIRE 2 are selected for carrying out load test. When the weight reaches the maximum value born by the airplane, various data of the airplane during flying are recorded. The pulling force of the mooring cable to the unmanned aerial vehicle platform is influenced by factors such as wind power, wind direction and humidity, the pulling force test is repeatedly carried out in different places and under different weather conditions, and finally the Xinjiang longitude and latitude MATRICE 600PRO type is selected to serve as the unmanned aerial vehicle platform through data analysis of the load test of the three types and the pulling force test of the mooring cable.

2. Referring to fig. 2, single-phase or three-phase alternating current through with the generator converts the direct current high voltage into, finally transmits unmanned aerial vehicle machine-mounted power through high performance nickel alloy power supply line, converts into the used direct current 12S voltage of unmanned aerial vehicle, can continuously be for the power supply of unmanned aerial vehicle, cooperates the stand-by power supply, accomplishes the continuous several hours work of overlength when navigating on safe basis. Meanwhile, an automatic take-up and pay-off system (consisting of a mooring winch and a controller) is designed to mainly complete the automatic take-up and pay-off functions of the 0-100 meter cable. The device can guarantee that the mooring cable can be unfolded and recovered rapidly, prevents that the optical fiber in the protection cable reduces the probability of receiving the striking and bending when the cable is too long to cause the overlong time process of taking up and paying off, and is an effective device for protecting the cable.

3. The running interface of the controller of the automatic take-up and pay-off system is shown in fig. 3, under the running interface of the system, the D key is pressed for a long time (2 seconds) to start automatic take-up, and a screen can give a prompt; the long press of the D button (2 seconds) stops the automatic wire take-up, and the screen has a prompt. Under a system operation interface, a power supply is started by pressing an E key for a long time (2 seconds), and a screen can give a prompt; pressing the E button for a long time (2 seconds) stops the power supply, and the screen has a prompt. And simultaneously entering a parameter adjusting interface according to A + C. A key is used for selecting a needed adjusting item, and B and C are used for adjusting two parameters of ground voltage and loop intensity. The ground voltage is 300-500V adjustable. The loop strength of 0-100% corresponds to 0-15kg tensile force, and a setting value of 20-30% is recommended.

When the unmanned aerial vehicle is used, corresponding lighting supply can be automatically carried out according to the flight state of the unmanned aerial vehicle, when the unmanned aerial vehicle is started, the belly lighting lamp 6 with the power of 200W is turned on, and after the unmanned aerial vehicle is monitored to take off, the high-power lighting wall lamp 7 with the power of 600W is turned on, so that the lighting intelligence of the unmanned aerial vehicle is realized, and the failure rate of the lighting lamp is greatly reduced; the remote equipment remote control device is used for remotely controlling the on and off of the illumination, so that the illumination according to the requirement is realized, and the electric quantity is saved; the lighting belly lamp 6 at the bottom of the belly can be remotely controlled to rotate by 0-45 degrees, so that the remote lighting angle adjustment is realized, and the application field and the function of the platform are enriched. Meanwhile, the platform integrates a high-definition wireless image transmission system, carries a 30-time high-definition camera, combines camera shooting and illumination, and transmits back the on-site image in time and clearly, so that night searching, disaster site investigation and the like are facilitated.

Claims

1. An emergency all-terrain lighting platform is characterized by comprising a generator (1), a direct-current high-voltage power supply (2), a mooring winch (3), a lifting platform (4) and a mooring cable (5); the output of generator (1) is connected to direct current high voltage power supply (2) through the cable, mooring cable (5) is connected to the output of direct current high voltage power supply (2), and mooring cable (5) is connected to the airborne power supply of lift-off platform (4) through mooring winch (3), mooring winch (3) are connected with and are used for controlling mooring winch (3) to carry out the controller that receive and releases mooring cable (5), lift-off platform (4) lower part all is equipped with a plurality of angularly adjustable illumination belly lamps (6), be provided with a plurality of illumination wall lamps (7) in the frame of lift-off platform (4), illumination belly lamp (6) and illumination wall lamp (7) all supply power through airborne power supply.

2. An emergency all-terrain lighting platform according to claim 1, characterized in that the angular adjustment range of the lighting belly light (6) is 0-45 °.

3. An emergency all-terrain lighting platform as claimed in claim 1, characterized in that the switches of the lighting belly light (6), the switches of the lighting wall light (7) and the angle adjustment of the lighting belly light (6) are all controlled remotely by remote devices.

4. An emergency all-terrain lighting platform as claimed in claim 1, wherein the lift-off platform (4) is further provided with a backup power supply.

5. An emergency all-terrain lighting platform according to claim 1, characterized in that the lift-off platform (4) is a Xinjiang longitude and latitude MATRICE 600PRO unmanned aerial vehicle.

6. An emergency all-terrain lighting platform according to claim 1, characterized in that a high-definition wireless picture transmission system is integrated on the lift-off platform (4).