CN210891360U - Install light on unmanned aerial vehicle - Google Patents

Abstract

The utility model discloses a lighting lamp installed on an unmanned aerial vehicle, which comprises a lighting lamp body used for loading the unmanned aerial vehicle, wherein the lighting lamp body is provided with a plurality of connecting buckles and a fixed chute; connecting buckle, fixed spout be used for dismantling with unmanned aerial vehicle and be connected. The utility model discloses load the light on unmanned aerial vehicle, utilize unmanned aerial vehicle to throw light on carrying appointed position with the light, liberation from this steps on the tower or climbs the staff's of pole operation both hands, improves work efficiency.

Description

Install light on unmanned aerial vehicle

Technical Field

The utility model relates to a lamps and lanterns technical field, more specifically relates to an unmanned aerial vehicle light.

Background

With the deep application of unmanned aerial vehicles in various fields, unmanned aerial vehicles are widely applied to daily maintenance of power grids, however, in daily maintenance work, emergencies often happen at night and need to be handled urgently, or the unmanned aerial vehicles climb towers and climb poles for maintenance. At present, repair and rush repair are carried out at night, and workers need to hold a flashlight to illuminate, or wear the flashlight on a helmet to illuminate.

It has the following inconveniences:

1. when the maintenance staff holds the flashlight, redundant hands cannot be vacated, the flashlight is not beneficial to climbing a tower or climbing a pole, the flashlight is easy to fall off in the process of climbing the tower or climbing the pole, or the staff catches the unstable tower or pole, and certain potential safety hazards exist.

2. Even if the flashlight is worn on a helmet, the flashlight is uncomfortable to wear on the head due to the weight of the flashlight and the shaking during work, the attention of workers is easily dispersed, and the work efficiency cannot be improved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve present maintenance personal evening when maintaining and salvageing, adopt the flashlight of taking to throw light on, have the problem of potential safety hazard, provide an install the light on unmanned aerial vehicle, it loads the light on unmanned aerial vehicle, carries out long-range illumination, need not to take, and effectual solution carries the flashlight and steps on the tower or the pole climbing problem that has inconvenience.

In order to realize the above, the utility model discloses the purpose, the technical scheme of adoption as follows: a lighting lamp installed on an unmanned aerial vehicle comprises a lighting lamp body used for loading the unmanned aerial vehicle, wherein the lighting lamp body is provided with a plurality of connecting buckles and a plurality of fixing chutes; connecting buckle, fixed spout be used for dismantling with unmanned aerial vehicle and be connected.

The utility model discloses a can dismantle the connection with the light body through connect buckle, fixed spout and unmanned aerial vehicle, unmanned aerial vehicle on corresponding be equipped with be used for mutually supporting the draw-in groove of being connected with connect buckle, be equipped with the slider of being connected with the cooperation of fixed spout. In practical application, only need load the light on unmanned aerial vehicle, control unmanned aerial vehicle flies to appointed position and throws light on, need not maintenance personal and is used for carrying, liberation staff's both hands are favorable to the staff in the operation of climbing the tower or climbing the pole.

Preferably, the light body on still be equipped with data transmission interface, data transmission interface be used for with unmanned aerial vehicle electric connection.

Furthermore, the connecting buckle and the data transmission interface are arranged on one side of the illuminating lamp body.

Still further, the connection buckle be equipped with 2.

Furthermore, the fixed sliding chute is arranged on the other side of the illuminating lamp body and is adjacent to the side face where the connecting buckle is located; one end of the fixed sliding chute is communicated with the side face where the connecting buckle is located, and the other end of the fixed sliding chute is provided with a blind hole structure.

Still further, the top of fixed spout be equipped with two backing plates, two backing plates are located the both sides of fixed spout respectively.

Still further, the illuminating lamp body comprises a lamp panel, a shell and a battery module; the battery module is arranged in the shell; the lamp panel is arranged on the shell, and the data transmission interface, the connecting buckle, the fixed chute and the base plate are all arranged on the shell; the lamp panel and the connecting buckle are positioned on opposite side surfaces of the shell; the data transmission interface is connected with the battery module.

Furthermore, a plurality of LED lamps are arranged on the lamp panel; the LED lamps are electrically connected with the battery module.

Still further, the battery module comprises a lithium battery and a battery protection plate; the lithium battery is electrically connected with the LED lamp through a battery protection board; the data transmission interface is electrically connected with the battery protection board.

Still further, a condensing lens is arranged above the LED lamp.

The utility model has the advantages as follows:

the utility model discloses load the light on unmanned aerial vehicle, utilize unmanned aerial vehicle to throw light on carrying appointed position with the light, liberation from this steps on the tower or climbs the staff's of pole operation both hands, improves work efficiency.

Drawings

Fig. 1 is a schematic perspective view of an illumination lamp installed on an unmanned aerial vehicle according to the present embodiment.

Fig. 2 is a side view of the structure of fig. 1.

Fig. 3 is a schematic diagram of the lighting lamp of the present embodiment mounted on the unmanned aerial vehicle.

Fig. 4 is a schematic structural diagram of the connection between the unmanned aerial vehicle and the lighting lamp in this embodiment.

In the figure, 1-a lighting lamp body, 2-a connecting buckle, 3-a fixed chute, 4-a data transmission interface, 5-a base plate, 6-a shell, 7-an LED lamp, 8-an antenna, 9-a data interface, 10-a card slot and 11-a sliding block.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Example 1

As shown in fig. 1 and 2, an illumination lamp mounted on an unmanned aerial vehicle comprises an illumination lamp body 1 for mounting on the unmanned aerial vehicle, wherein the illumination lamp body 1 is provided with a plurality of connecting buckles 2 and a fixed chute 3; connect buckle 2, fixed spout 3 be used for dismantling with unmanned aerial vehicle and be connected.

This embodiment can dismantle through with light body 1 through connect buckle 2, fixed spout 3 and unmanned aerial vehicle and be connected, in practical application, only need load the light on unmanned aerial vehicle, control unmanned aerial vehicle flies to appointed position and throws light on, need not maintenance personal and is used for carrying, liberation staff's both hands are favorable to the staff in the operation of climbing the tower or climbing the pole.

As shown in fig. 1, the illuminating lamp body 1 is further provided with a data transmission interface 4, and the data transmission interface 4 is used for being electrically connected with the unmanned aerial vehicle. Unmanned aerial vehicle can be through the break-make of data transmission interface 4 control light, can charge to the light through data transmission interface 4 simultaneously, prevents that light power volume is not enough, and data transmission interface 9 on the light body 1 corresponds with unmanned aerial vehicle's data interface 9 and is connected

The connecting buckle 2 and the data transmission interface 4 are arranged on one side of the illuminating lamp body 1. The connecting buckle 2 can fix the illuminating lamp body 1 to prevent the illuminating lamp from sliding down from the sliding block 11. Set up the same side with data transmission interface 4 and connection buckle 2 on, can realize the data transmission interface 4 and be connected with data interface 9 on the unmanned aerial vehicle when blocking the light, need not to connect through the data line again to simplified connected mode.

The connecting buckle 2 described in this embodiment is provided with 2. The last draw-in groove 10 of corresponding unmanned aerial vehicle also is equipped with 2. Connect buckle 2 can also set to other quantity, the quantity of the last draw-in groove 10 of corresponding unmanned aerial vehicle is unanimous with the quantity of connecting the buckle.

In this embodiment, the fixed chute 3 is arranged at the other side of the illuminating lamp body 1 and is adjacent to the side where the connecting buckle 2 is located; one end of the fixed sliding chute 3 is communicated with the side face where the connecting buckle 2 is located, and the other end of the fixed sliding chute 3 is provided with a blind hole structure. The structure of the last slider 11 of unmanned aerial vehicle corresponds the cooperation each other with the structure of fixed spout 3, slides in the last slider 11 of unmanned aerial vehicle from the one end of fixed spout 3 to end in the other end of fixed spout 3.

In this embodiment, two backing plates 5 are arranged above the fixed chute 3, and the two backing plates 5 are respectively located at two sides of the fixed chute 3. The bearing capacity of the fixed chute 3 can be reinforced by the backing plate 5, so that the fixed chute 3 is not easy to damage.

The illuminating lamp body 1 described in the embodiment includes a lamp panel, a housing 6, and a battery module; the battery module is arranged inside the shell 6; the lamp panel is arranged on the shell 6, and the data transmission interface 4, the connecting buckle 2, the fixed chute 3 and the base plate 5 are all arranged on the shell 6; the lamp panel and the connecting buckle 2 are positioned on the opposite side surfaces of the shell 6; the data transmission interface 4 is connected with the battery module.

The lamp panel is provided with a plurality of LED lamps 7; the LED lamps 7 are electrically connected with the battery module. The LED lamps 7 are arranged at equal intervals.

The battery module comprises a lithium battery and a battery protection plate; the lithium battery is electrically connected with the LED lamp through a battery protection board; the data transmission interface 4 is electrically connected with the battery protection board. The battery protection board adopts the prior art, and the battery protection board mainly protects the charging and discharging of the battery and prevents overcharge or overdischarge.

And a condensing lens is arranged above the LED lamp 7, so that light emitted by the LED lamp 7 can be focused, and the brightness of the light can be enhanced.

In this embodiment, a mechanism which is mutually matched and connected with the illuminating lamp needs to be arranged on the unmanned aerial vehicle, specifically, as shown in fig. 3 and 4, an intermediate connecting piece is arranged below the rotor wing of the unmanned aerial vehicle, and a clamping groove 10 which is mutually matched and connected with the connecting buckle 2 is arranged on the intermediate connecting piece; unmanned aerial vehicle rotor bottom is equipped with antenna 8, is equipped with the slider 11 of being connected with fixed spout 3 mutually supporting on antenna 8's side. When using, wear to establish the fixed spout 3 of light body 1 with slider 11 on the unmanned aerial vehicle, with light body 1 up-sliding, until connect buckle 2 and draw-in groove 10 interconnect.

As shown in fig. 3 and 4, the illumination lamp according to this embodiment is hung on the lower portion of the rotor of the unmanned aerial vehicle, and slides upwards through the fixed chute 3 corresponding to the slider 11 of the lower antenna 8 of the rotor of the unmanned aerial vehicle until reaching the top end of the illumination lamp. When confirming the light and going into unmanned aerial vehicle's draw-in groove 10 through connecting 2 cards of buckle, show that the light has been firm and articulate, ensure that unmanned aerial vehicle flight in-process light can not drop. The light that matches the slider also has corresponding inclination along with antenna 8's slope, utilizes the inclination of light, when light shines downwards for the light of each rotor below of unmanned aerial vehicle gathers for big light beam in ground department, makes light shine more clearly, thereby realizes the place of the required illumination of illumination maintenance work. Unmanned aerial vehicle passes through the data transmission interface and can provides stable electric energy for the light, utilizes external power source to introduce, can lighten equipment weight, reduces the influence of load to unmanned aerial vehicle self weight and load. This embodiment installation unmanned aerial vehicle on illumination when the night work, can assist the illumination of maintenance work personnel, can promote night work efficiency.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. The utility model provides an install light on unmanned aerial vehicle, is including being used for loading the light body on the unmanned aerial vehicle, its characterized in that: the illuminating lamp body is provided with a plurality of connecting buckles and a fixed chute; connecting buckle, fixed spout be used for dismantling with unmanned aerial vehicle and be connected.

2. The lighting lamp installed on the unmanned aerial vehicle according to claim 1, characterized in that: the illuminating lamp body on still be equipped with the data transmission interface, the data transmission interface be used for with unmanned aerial vehicle electric connection.

3. The lighting lamp installed on the unmanned aerial vehicle according to claim 2, characterized in that: the connecting buckle and the data transmission interface are arranged on one side of the illuminating lamp body.

4. The lighting lamp installed on the unmanned aerial vehicle of claim 3, wherein: the connecting buckles are 2.

5. The lighting lamp installed on the unmanned aerial vehicle of claim 4, wherein: the fixed sliding chute is arranged on the other side of the illuminating lamp body and is adjacent to the side face where the connecting buckle is located; one end of the fixed sliding chute is communicated with the side face where the connecting buckle is located, and the other end of the fixed sliding chute is provided with a blind hole structure.

6. An illumination lamp installed on an unmanned aerial vehicle according to any one of claims 2-5, characterized in that: two base plates are arranged above the fixed sliding groove and are respectively positioned on two sides of the fixed sliding groove.

7. The lighting lamp installed on the unmanned aerial vehicle of claim 6, wherein: the illuminating lamp body comprises a lamp panel, a shell and a battery module; the battery module is arranged in the shell; the lamp panel is arranged on the shell, and the data transmission interface, the connecting buckle, the fixed chute and the base plate are all arranged on the shell; the lamp panel and the connecting buckle are positioned on opposite side surfaces of the shell; the data transmission interface is connected with the battery module.

8. The lighting lamp installed on unmanned aerial vehicle of claim 7, wherein: the lamp panel is provided with a plurality of LED lamps; the LED lamps are electrically connected with the battery module.

9. The lighting lamp installed on the unmanned aerial vehicle of claim 8, wherein: the battery module comprises a lithium battery and a battery protection plate; the lithium battery is electrically connected with the LED lamp through a battery protection board; the data transmission interface is electrically connected with the battery protection board.

10. The lighting lamp installed on the unmanned aerial vehicle of claim 9, wherein: and a condensing lens is arranged above the LED lamp.

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