CN220172276U - Unmanned aerial vehicle battery knapsack - Google Patents

Abstract

The utility model discloses a battery backpack for an unmanned aerial vehicle, which comprises a main bag and a supporting framework arranged in the main bag, wherein a plurality of battery storage bags are detachably arranged on the supporting framework and are used for storing the batteries of the unmanned aerial vehicle; the unmanned aerial vehicle battery knapsack provided by the utility model is suitable for various complex terrains, the carrying quantity of the unmanned aerial vehicle batteries can be increased, and a user can avoid collision among the unmanned aerial vehicle batteries in the use process, and meanwhile, each battery is stored independently, so that the electric quantity of each battery can be found quickly, and the user can take the unmanned aerial vehicle battery knapsack conveniently.

Description

Unmanned aerial vehicle battery knapsack

Technical Field

The utility model relates to the technical field of backpacks, in particular to an unmanned aerial vehicle battery backpack.

Background

With the improvement of unmanned aerial vehicle technology, the application of unmanned aerial vehicle in work and life is also becoming more and more, especially in the inspection work of transmission line, utilize unmanned aerial vehicle to replace dangerous tower climbing inspection, can more convenient, safe discovery transmission line exist in various defects simultaneously to in time feed back and handle.

However, due to the geographic environment of certain areas, a plurality of mountain jungles exist, and particularly, most of power transmission lines are established at peak positions of mountain, so that patrol personnel have to carry unmanned aerial vehicles and unmanned aerial vehicle motors with them when using unmanned aerial vehicles for patrol. Although the unmanned aerial vehicle is generally provided with a special suitcase, the number of batteries which can be carried in the suitcase is limited, and due to the work specificity of a power transmission line, 10-20 batteries can be used for a single inspection task, and if a common battery pack or a common battery box is used, the number of batteries required by the task can not be met; meanwhile, a patrol person usually uses a plastic pocket or a conventional knapsack to carry the unmanned aerial vehicle battery in the patrol process, but the rugged road section can be avoided due to the influence of the terrain, and the unmanned aerial vehicle battery in the knapsack can move to collide with each other, so that the battery is damaged to influence the normal use of the unmanned aerial vehicle.

In order to solve the above problems, a portable backpack for specially storing unmanned aerial vehicle batteries is needed, the backpack can be suitable for carrying unmanned aerial vehicle batteries in complex terrains, and can avoid the collision of the unmanned aerial vehicle batteries in the carrying process, and avoid the damage of the batteries, thereby leading to the failure of the unmanned aerial vehicle.

Disclosure of Invention

In view of the above, the utility model provides a battery pack for an unmanned aerial vehicle, which is suitable for carrying the battery pack for the unmanned aerial vehicle in complex terrains, and can avoid collision of the battery packs during carrying, and avoid damage to the battery packs, thereby causing faults of the unmanned aerial vehicle.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides an unmanned aerial vehicle battery knapsack, includes main bag and the braced skeleton of setting in main bag, detachably is provided with a plurality of batteries on the braced skeleton and deposits the bag, the battery is deposited the bag and is used for depositing unmanned aerial vehicle battery.

Further, the battery storage bag comprises a bag body for accommodating the unmanned aerial vehicle battery and a connecting belt arranged at the opening of the bag body, and the battery storage bag is connected with the supporting framework through the connecting belt.

Further, one end of the connecting belt is fixedly connected with the bag body, and the other end of the connecting belt is provided with a fastener.

Further, the bag body is provided with a buckling part matched with the buckle on the connecting belt at the connecting side of the bag body and the supporting framework, and the connecting belt is connected with the bag body and the supporting framework after being buckled with the buckling part through the buckle.

Further, the battery storage bag further comprises an adhesive piece arranged at the opening of the bag body, and a connecting rope is arranged between the adhesive piece and the bag body and is fixedly connected with the bag body through the connecting rope.

Further, the bag body is provided with the pasting part on the opposite side of the connection side with the supporting framework, and after the pasting part is pasted and fixed with the pasting part, the unmanned aerial vehicle battery is limited in the bag body through the connecting rope.

Further, the support skeleton includes the base, sets up the support column on the base and sets up the supporting beam between the adjacent support column, the supporting beam is used for hanging battery storage bag.

The beneficial effects of the utility model are as follows: the unmanned aerial vehicle battery knapsack provided by the utility model is suitable for unmanned aerial vehicle batteries in various complex terrains, can improve the carrying quantity of the unmanned aerial vehicle batteries, and can prevent collision between the unmanned aerial vehicle batteries during the use process of users; meanwhile, each battery is stored independently, so that the electric quantity of each battery can be found quickly and is convenient for people to take.

Drawings

FIG. 1 is a schematic view of the internal structure of a backpack for a unmanned aerial vehicle according to the present utility model;

FIG. 2 is a top view of the unmanned backpack of the present utility model;

FIG. 3 is a schematic view of the structure of the supporting framework in the present utility model;

FIG. 4 is a front view of the battery storage pouch of the present utility model;

FIG. 5 is a rear view of the battery storage pouch of the present utility model;

wherein the reference numerals are as follows: 1-a supporting framework; 2-a main bag; 3-a battery storage bag; 101-a base; 102-supporting columns; 103-supporting the beam; 301-a bag body; 302-connecting the belt; 303-an adhesive member; 304-a pasting part; 305-connecting ropes; 306-a fastener; 307-fastening portion.

Detailed Description

As shown in the figure, the unmanned aerial vehicle battery backpack provided by the utility model comprises a main bag 2 and a supporting framework 1 arranged in the main bag 2, wherein a plurality of battery storage bags 3 are detachably arranged on the supporting framework 1, and the battery storage bags 3 are used for storing unmanned aerial vehicle batteries; the support framework 1 is a framework structure made of aluminum alloy materials, the main bag 2 is a knapsack suitable for people to carry in mountain climbing in the conventional technology, the knapsack can be conveniently carried by patrols, and the knapsack material can be made of flexible materials and waterproof materials in a combined mode so as to carry out waterproof protection and jolt prevention on equipment in the knapsack; the supporting framework 1 is placed inside the main bag 2, and the supporting framework is fixed in the knapsack by utilizing the space size inside the main bag 2, so that the unmanned aerial vehicle battery or the unmanned aerial vehicle can be stored conveniently; the battery storage bag 3 is a bag for storing unmanned aerial vehicle batteries, the material is optional canvas, the battery storage bag 3 is provided with a plurality of and hangs on supporting framework in a detachable mode in the knapsack to make a plurality of unmanned aerial vehicle batteries become independent unit, in order to avoid walking in-process, bump between the adjacent unmanned aerial vehicle battery, and then cause unmanned aerial vehicle battery to damage and influence unmanned aerial vehicle's use.

In this embodiment, the battery storage bag 3 includes a bag body 301 for accommodating a battery of the unmanned aerial vehicle and a connecting belt 302 disposed at an opening of the bag body, and the battery storage bag 3 is connected with the support frame 1 through the connecting belt 302; referring to fig. 4, the size of the bag 301 is larger than that of the unmanned aerial vehicle battery, so that the unmanned aerial vehicle battery can be arranged in the bag 301, and the bag 301 is made of canvas, so that the unmanned aerial vehicle battery is economical and durable; a connecting belt 302 is arranged at the opening of the bag body 301 and is contacted with the supporting framework 1 through the connecting belt 302, so that the battery storage bag 3 is hung on the supporting framework 1.

In this embodiment, one end of the connecting belt 302 is fixedly connected with the bag 301, and the other end is provided with a fastener 306; the bag 301 is provided with a fastening part 307 which is matched with the fastener 306 on the connecting belt on the connecting side of the bag 301 with the supporting framework 1, and the bag 301 is connected with the supporting framework 1 after the connecting belt 302 is fastened with the fastening part 307 through the fastener 306; as shown in fig. 1 and 2, the connecting belt 302 is also sewn and fixed with the bag 301 by adopting one end made of canvas, the other end is provided with a fastener 301, and the fastener 301 is a fixable button in the conventional technology and is not described in detail herein; the other end of the connecting belt is fixedly connected with the bag body 301 by arranging the buckling part 307 matched with the buckle 306 on the connecting side of the bag body 301 and the supporting framework 1 so as to realize the connection and fixation between the bag body 301 and the supporting framework 1.

In this embodiment, the battery storage bag 3 further includes an adhesive member 303 disposed at an opening of the bag body, and a connection rope 305 is disposed between the adhesive member 303 and the bag body 301 and is connected and fixed with the bag body 301 through the connection rope 305; the attachment of the adhesive member 303 to the bag 301 is achieved by providing the attachment cord 305, wherein the adhesive member 303 is a velcro in conventional technology, and will not be described in detail herein.

In this embodiment, the bag 301 is provided with an adhesive part 304 on the opposite side of the connection side with the supporting frame 1, and after the adhesive part 303 is adhered and fixed with the adhesive part 304, the unmanned aerial vehicle battery is limited in the bag 301 by a connection rope 305; the pasting part 304 is pasting cloth which is pasted and matched with the magic tape, and the pasting part 303 is matched with the pasting part 304, so that a patrol personnel can take out or store the unmanned aerial vehicle battery from the battery storage bag 3 more quickly and conveniently; because the pasting piece 303 is connected with the bag body 301 through the connecting rope 305, the connecting rope 305 can limit the battery of the unmanned aerial vehicle in the bag body 301, meanwhile, because the top of the bag body is an opening type, the inspection personnel can check the electric quantity condition of the battery of the unmanned aerial vehicle more conveniently, so that the battery of the unmanned aerial vehicle with abundant electric quantity is selected for use, the repeated opening of the battery storage bag is avoided, the battery electric quantity is checked, and the working efficiency is improved.

In this embodiment, the support frame 1 includes a base 101, support columns 102 disposed on the base, and support beams 103 disposed between adjacent support columns 102, the support beams 103 being used to suspend the battery storage bags 3; as shown in fig. 1 to 3, the supporting framework 1 is formed by welding and fixing the base 101, the supporting columns 102 and the supporting beams 103 which are made of aluminum alloy materials, the whole weight of the backpack can be reduced by using the aluminum alloy materials, the backpack is convenient to transport, and the supporting framework can be more stable by using the welding process for fixing; the support beam 103 is mainly used for hanging battery storage bags and is provided with two support frames 1 on a single side in the vertical direction, so that the support frames 1 are divided into an upper layer and a lower layer, and a greater number of battery storage bags can be hung on the support frames 1.

In this embodiment, the support frame includes frame beams and frame columns, and the frame beams are disposed between adjacent frame columns and are used for being connected with the storage unit; in combination with the illustration of fig. 1, the support frame is a rectangular structure formed by frame beams and frame columns, and the frame beams and the frame columns are welded and fixed into a whole by using aluminum alloy materials, so that the support frame is more firmly connected.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (5)

1. An unmanned aerial vehicle battery knapsack which characterized in that: the unmanned aerial vehicle battery pack comprises a main pack and a supporting framework arranged in the main pack, wherein a plurality of battery storage bags are detachably arranged on the supporting framework and are used for storing unmanned aerial vehicle batteries; the battery storage bag comprises a bag body for accommodating the unmanned aerial vehicle battery and a connecting belt arranged at the opening of the bag body, and is connected with the supporting framework through the connecting belt; the support framework comprises a base, support columns arranged on the base and support beams arranged between adjacent support columns, and the support beams are used for hanging battery storage bags.

2. The unmanned aerial vehicle battery pack of claim 1, wherein: one end of the connecting belt is fixedly connected with the bag body, and the other end of the connecting belt is provided with a fastener.

3. The unmanned aerial vehicle battery pack of claim 2, wherein: the bag body is provided with the buckling part matched with the fastener on the connecting belt at the connecting side with the supporting framework, and the connecting belt is connected with the bag body and the supporting framework after being buckled with the buckling part through the fastener.

4. The unmanned aerial vehicle battery pack of claim 1, wherein: the battery storage bag further comprises an adhesive piece arranged at the opening of the bag body, and a connecting rope is arranged between the adhesive piece and the bag body and is fixedly connected with the bag body through the connecting rope.

5. The unmanned aerial vehicle battery pack of claim 4, wherein: the bag body is provided with the pasting part on the opposite side of the connection side with the supporting framework, and after the pasting part is pasted and fixed with the pasting part, the unmanned aerial vehicle battery is limited in the bag body through the connecting rope.