CN216959396U - Green charging device of high-energy-efficiency unmanned aerial vehicle - Google Patents

Abstract

The utility model provides an energy-efficient green charging device for an unmanned aerial vehicle, which comprises: the charging platform is provided with a first telescopic cylinder on the top side, a charging seat is arranged on the top side of the first telescopic cylinder, the charging seat is electrically connected with a charging port at the bottom of the unmanned aerial vehicle in a matched mode, the charging port is electrically connected with a charging battery pack inside the unmanned aerial vehicle, and the charging seat is used for providing electric energy for the unmanned aerial vehicle; the flexible cylinder of second, including four, four flexible cylinders of second evenly set up around first flexible cylinder, and the flexible end in top side is equipped with magnetism admittedly and inhales the portion, and magnetism is inhaled the portion and is inhaled with the recess matching magnetism of unmanned aerial vehicle bottom side and be connected. This application green charging device of high energy efficiency unmanned aerial vehicle stops unmanned aerial vehicle on charging platform, and the magnetism portion of inhaling that the side was put to the flexible cylinder of second matches magnetism with the recess and inhales, starts first flexible cylinder this moment, with the charging seat with mouthful electric connection that charges, charges unmanned aerial vehicle, has avoided unmanned aerial vehicle to charge the reliance to manual operation, and is energy-conserving to save time.

Description

Green charging device of high-energy-efficiency unmanned aerial vehicle

Technical Field

The utility model relates to the technical field of charging devices, in particular to an energy-efficient green charging device for an unmanned aerial vehicle.

Background

The unmanned aerial vehicle is an unmanned aerial vehicle operated by using a radio remote control device and a self-contained program control device, is a general name of unmanned aerial vehicles, and is originally applied to the military field. Along with the development and popularization of unmanned aerial vehicle technology, unmanned aerial vehicles have been widely applied to the fields of aerial photography, agriculture, forestry, surveying and mapping and the like.

Unmanned aerial vehicle need carry out the energy supply after carrying out the flight task, if it uses the electric energy as energy supply, can charge the operation to unmanned aerial vehicle. In the related art, the charging operation of the unmanned aerial vehicle is realized by the charging dock. The specific operation steps are as follows: dismantle the built-in lithium cell of unmanned aerial vehicle and get off, install the lithium cell of dismantling and charge on the charging dock. The lithium battery after charging is required to be reinstalled into the unmanned aerial vehicle, so that preparation is made for the next flight task. This kind of operation steps of charging are various, and the process is loaded down with trivial details, both had limited unmanned aerial vehicle's use scene, also was not favorable to the development of unmanned aerial vehicle trade.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, the present invention is directed to solving the above-described problems. An object of the present invention is to provide an energy-efficient green charging device for unmanned aerial vehicles, which solves the above problems.

The utility model provides a green charging device of energy-efficient unmanned aerial vehicle, can include:

the charging platform is provided with a first telescopic cylinder on the top side, a charging seat is arranged on the top side of the first telescopic cylinder, the charging seat is electrically connected with a charging port at the bottom of the unmanned aerial vehicle in a matched manner, the charging port is electrically connected with a charging battery pack inside the unmanned aerial vehicle, and the charging seat is used for providing electric energy for the unmanned aerial vehicle; the flexible cylinder of second, including four, four flexible cylinders of second evenly set up around first flexible cylinder, and the flexible end in top side is equipped with magnetism admittedly and inhales the portion, and magnetism is inhaled the portion and is inhaled with the recess matching magnetism of unmanned aerial vehicle bottom side and be connected. This application green charging device of high energy efficiency unmanned aerial vehicle stops unmanned aerial vehicle on charging platform, and the magnetism portion of inhaling that the side was put to the flexible cylinder of second matches magnetism with the recess and inhales, starts first flexible cylinder this moment, with the charging seat with mouthful electric connection that charges, charges unmanned aerial vehicle, has avoided unmanned aerial vehicle to charge the reliance to manual operation, and is energy-conserving to save time.

Preferably, the recess sets up the oar bottom side at unmanned aerial vehicle. This application green charging device recess of high energy efficiency unmanned aerial vehicle sets up in unmanned aerial vehicle's machine oar bottom side for when the magnetism portion of inhaling on four second telescopic cylinder top sides matches magnetism with the recess and inhales, firmly fixed unmanned aerial vehicle.

Preferably, the mouth that charges sets up the bottom central point at unmanned aerial vehicle and puts. This application high energy efficiency unmanned aerial vehicle green charging device will charge mouthful setting and put at unmanned aerial vehicle's bottom central point, can guarantee to charge in the time stable.

Preferably, the unmanned aerial vehicle bottom side is provided with the support, and the support bottom side is provided with buffer gear. This application high energy efficiency unmanned aerial vehicle green charging device can improve the stable descending of unmanned aerial vehicle on charging platform through setting up buffer gear.

Preferably, the green charging device of energy-efficient unmanned aerial vehicle still includes: the cavity is arranged on the inner side of the charging platform; the driving motor is arranged on one side of the cavity, the output end of the driving motor is in transmission connection with a bidirectional screw rod, and the bidirectional screw rod extends into the cavity and is in rotary connection with a bearing on the side wall of the cavity; the sliding blocks comprise two blocks which are symmetrically arranged at two sides of the cavity, are penetrated by the bidirectional screw rod and are in threaded connection with the bidirectional screw rod; the type of falling L fixed plate, including two, the symmetry sets up respectively on two sliders, upwards extends the platform that charges, and with the unmanned aerial vehicle connecting plate sliding connection between two recesses on the side of inclining. This application green charging device of high energy efficiency unmanned aerial vehicle descends on charging platform as unmanned aerial vehicle, and it is rotatory to drive two-way lead screw through driving motor, drives slider syntropy or incorgruous removal then for the fixed integrated circuit board of type of falling L goes out connecting plate 8 on unmanned aerial vehicle top side, thereby firmly fixes unmanned aerial vehicle, guarantees the charging seat and can match electric connection with the mouth that charges.

Preferably, the green charging device of energy-efficient unmanned aerial vehicle still includes: and the guide rod is arranged on the top side of the cavity and is penetrated by the sliding block. This application green charging device of high energy efficiency unmanned aerial vehicle passes through the guide bar, can guarantee the gliding stability of slider, and then guarantees that the type of falling L fixed plate firmly fixes unmanned aerial vehicle.

The energy-efficient green charging device for the unmanned aerial vehicle has the following technical effects:

this application green charging device of high energy efficiency unmanned aerial vehicle stops unmanned aerial vehicle on charging platform, the magnetism portion of inhaling that the side was put to the flexible cylinder of second side is inhaled with recess matching magnetism and is inhaled, start driving motor, driving motor drives two-way lead screw rotation, then drive slider syntropy or incorgruous removal, make the type of falling L fixed plate card go out the connecting plate that unmanned aerial vehicle pushed up the side, thereby firmly fix unmanned aerial vehicle, start first flexible cylinder this moment, with charging seat and a electric connection that charges, charge unmanned aerial vehicle, unmanned aerial vehicle charging to the reliance of manual operation has been avoided, energy saving and time saving, be favorable to the popularization and application of unmanned aerial vehicle technique.

Other characteristic features and advantages of the utility model will become apparent from the following description of exemplary embodiments, which is to be read in connection with the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the utility model and together with the description, serve to explain the principles of the utility model. In the drawings, like reference numerals are used to indicate like elements. The drawings in the following description are directed to some, but not all embodiments of the utility model. For a person skilled in the art, other figures can be derived from these figures without inventive effort.

FIG. 1 is a diagram of a green charging device for an energy efficient unmanned aerial vehicle according to the present invention;

fig. 2 is a structural diagram of an unmanned aerial vehicle of the energy-efficient unmanned aerial vehicle green charging device.

In the figure: 10. a charging platform; 11. a first telescopic cylinder; 12. a charging seat; 20. an unmanned aerial vehicle; 21. a charging port; 22. a second telescopic cylinder; 23. a magnetic part; 24. a groove; 25. a mechanical paddle; 26. a support; 27. a buffer mechanism; 30. a cavity; 31. a drive motor; 32. a bidirectional screw rod; 33. a bearing; 34. a slider; 35. an inverted L-shaped fixing plate; 28. a connecting plate; 36. a guide rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

This green charging device of high energy efficiency unmanned aerial vehicle is explained in detail below with the attached drawing and embodiment.

Example 1

As shown in fig. 1-2, an object of the present invention is to provide an energy-efficient green charging device for unmanned aerial vehicles, which may include:

the charging platform 10 is provided with a first telescopic cylinder 11 on the top side, a charging seat 12 is arranged on the top side of the first telescopic cylinder 11, the charging seat 12 is electrically connected with a charging port 21 at the bottom of the unmanned aerial vehicle 20 in a matching manner, the charging port 21 is electrically connected with a charging battery pack inside the unmanned aerial vehicle 20, and the charging seat 12 is used for providing electric energy for the unmanned aerial vehicle 20; the flexible cylinder 22 of second, including four, four flexible cylinders 22 of second evenly set up around first flexible cylinder 11, and the flexible end in top side is equipped with magnetism admittedly and inhales portion 23, and magnetism inhales portion 23 and the recess 24 matching magnetism of unmanned aerial vehicle 20 bottom side and inhales and be connected.

Wherein, this application high energy efficiency unmanned aerial vehicle green charging device stops unmanned aerial vehicle on charging platform 10, and the magnetism of the magnetism portion of inhaling 23 and recess 24 matching magnetism on the side of the flexible cylinder 22 of second is inhaled, starts first flexible cylinder 11 this moment, with charging seat 12 with mouthful 21 electric connection that charges, charges unmanned aerial vehicle, has avoided the unmanned aerial vehicle to charge the reliance to the manual operation, and is energy-conserving to save time.

Example 2

In a preferred embodiment, the recess 24 is provided on the underside of the paddles 25 of the drone 20.

Wherein, this application green charging device recess 24 of energy efficiency unmanned aerial vehicle sets up in unmanned aerial vehicle 20's quick-witted oar 25 bottom sides for when the magnetism portion 23 of inhaling on the side of four second telescopic cylinder 22 tops is inhaled with recess 24 matching magnetism, firmly fixed unmanned aerial vehicle.

Example 3

In a preferred embodiment, the charging port 21 is provided at a bottom center position of the drone 20.

Wherein, this application high energy efficiency unmanned aerial vehicle green charging device will charge mouthful 21 setting and put at unmanned aerial vehicle 20's bottom central point, can guarantee to charge in the time stably.

Example 4

In a preferred embodiment, the bottom side of the drone 20 is provided with a bracket 26, and the bottom side of the bracket 26 is provided with a damping mechanism 27.

Wherein, this application high energy efficiency unmanned aerial vehicle green charging device can improve the stable descending of unmanned aerial vehicle on charging platform 10 through setting up buffer gear 27.

Example 5

In a preferred embodiment, the energy-efficient green charging device for unmanned aerial vehicle further comprises: a cavity 30 disposed inside the charging platform 10; the driving motor 31 is arranged at one side of the cavity 30, the output end of the driving motor is in transmission connection with a bidirectional screw rod 32, and the bidirectional screw rod 32 extends into the cavity 30 and is in rotary connection with a bearing 33 on the side wall of the cavity 30; the sliding blocks 34 comprise two blocks which are symmetrically arranged at two sides of the cavity 30, are penetrated by the bidirectional screw rod 32 and are in threaded connection with the bidirectional screw rod 32; the reverse L-shaped fixing plates 35, including two, are respectively symmetrically disposed on the two sliding blocks 34, extend upward to extend through the charging platform 10, and are slidably connected to the connecting plate 28 between the two grooves 24 on the top side of the unmanned aerial vehicle 20.

Wherein, this application green charging device of high energy efficiency unmanned aerial vehicle descends on charging platform 10 as unmanned aerial vehicle, drives two-way lead screw 32 rotation through driving motor 31, drives slider 34 syntropy or heterodromous removal then for the connecting plate 28 on unmanned aerial vehicle 20 top side is blocked out to the type of falling L fixed plate 35, thereby firmly fixes unmanned aerial vehicle, guarantees charging seat 12 and the mouth 21 that charges can match electric connection.

Example 6

Particularly, the green charging device of energy-efficient unmanned aerial vehicle still includes: a guide bar 36, disposed on the top side of the cavity 30, is penetrated by the slider 34.

Wherein, the green charging device of this application high energy efficiency unmanned aerial vehicle passes through guide bar 36, can guarantee the gliding stability of slider 34, and then guarantees that inverted L type fixed plate 35 firmly fixes unmanned aerial vehicle.

This application high energy efficiency unmanned aerial vehicle green charging device theory of operation:

the during operation, this application high energy efficiency unmanned aerial vehicle green charging device stops unmanned aerial vehicle on charging platform 10, the magnetism portion of inhaling 23 and recess 24 matching magnetism of the side of second telescopic cylinder 22 top is inhaled, start driving motor 31, driving motor 31 drives two-way lead screw 32 rotation, drive slider 34 syntropy or incorgruous removal then, make the connecting plate 28 of the 20 top sides of type of falling L fixed plate card out unmanned aerial vehicle, thereby firmly fixed to unmanned aerial vehicle, start first telescopic cylinder 11 this moment, with charging seat 12 and the 21 electric connection that charges, charge to unmanned aerial vehicle, the reliance of unmanned aerial vehicle charging to manual operation has been avoided, and is energy-saving and time-saving.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such article or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of additional like elements in the article or device comprising the element.

The above embodiments are merely to illustrate the technical solutions of the present invention and not to limit the present invention, and the present invention has been described in detail with reference to the preferred embodiments. It will be understood by those skilled in the art that various modifications and equivalent arrangements may be made without departing from the spirit and scope of the present invention and it should be understood that the present invention is to be covered by the appended claims.

Claims (6)

1. The utility model provides an energy-efficient unmanned aerial vehicle green charging device which characterized in that includes:

the charging system comprises a charging platform (10), wherein a first telescopic cylinder (11) is arranged on the top side of the charging platform, a charging seat (12) is arranged on the top side of the first telescopic cylinder (11), the charging seat (12) is electrically connected with a charging port (21) at the bottom of an unmanned aerial vehicle (20) in a matching manner, the charging port (21) is electrically connected with a charging battery pack inside the unmanned aerial vehicle (20), and the charging seat (12) is used for providing electric energy for the unmanned aerial vehicle (20);

second telescopic cylinder (22), including four, four second telescopic cylinder (22) evenly set up around first telescopic cylinder (11), the flexible end in top side is equipped with magnetism admittedly and inhales portion (23), magnetism inhale portion (23) with recess (24) the matching magnetism of unmanned aerial vehicle (20) bottom side is inhaled and is connected.

2. The energy-efficient unmanned aerial vehicle green charging device of claim 1,

the groove (24) is arranged on the bottom side of a propeller (25) of the unmanned aerial vehicle (20).

3. The energy-efficient unmanned aerial vehicle green charging device of claim 1,

the charging port (21) is arranged at the bottom center of the unmanned aerial vehicle (20).

4. The energy-efficient unmanned aerial vehicle green charging device of claim 1,

the unmanned aerial vehicle (20) bottom side is provided with support (26), support (26) bottom side is provided with buffer gear (27).

5. The energy-efficient green unmanned aerial vehicle charging device of claim 1, further comprising:

a cavity (30) disposed inside the charging platform (10);

the driving motor (31) is arranged on one side of the cavity (30), the output end of the driving motor is in transmission connection with a bidirectional screw rod (32), and the bidirectional screw rod (32) extends into the cavity (30) and is in rotary connection with a bearing (33) on the side wall of the cavity (30);

the sliding blocks (34) comprise two blocks which are symmetrically arranged at two sides of the cavity (30), are penetrated by the bidirectional screw rod (32) and are in threaded connection with the bidirectional screw rod (32);

type of falling L fixed plate (35), including two, the symmetry sets up respectively two on slider (34), upwards extend and pass charging platform (10), and with two of unmanned aerial vehicle (20) top side

The connecting plates (28) between the grooves (24) are connected in a sliding way.

6. The energy-efficient unmanned aerial vehicle green charging device of claim 5, wherein the energy-efficient unmanned aerial vehicle green charging device further comprises:

a guide rod (36) disposed on a top side of the cavity (30) and penetrated by the slider (34).

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