CN215971147U - Unmanned aerial vehicle battery cabinet that charges - Google Patents

Abstract

The unmanned aerial vehicle battery charging cabinet comprises a charging cabinet body, wherein the charging cabinet body is provided with a first cabinet door and a second cabinet door through hinges, and the first cabinet door and the second cabinet door are provided with door lock mechanisms; a plurality of detachable partition plates are arranged in the charging cabinet body, an unmanned aerial vehicle battery placing area is formed between every two adjacent partition plates, and a charging interface is arranged in the unmanned aerial vehicle battery placing area; a plurality of cooling fans are arranged on a shell of the charging cabinet body, and vent holes are formed in the top of the charging cabinet body; an intelligent protector is arranged on the outer side of the charging cabinet body, one end of the intelligent protector is connected with a main power line, and the other end of the intelligent protector is connected with a charging interface; the size that the region was placed to the unmanned aerial vehicle battery can be set up by the many baffle designs of detachable wherein self-adaptation to the unmanned aerial vehicle battery of adaptation equidimension is placed and is charged, has improved space utilization, and the interface that charges that every battery was placed the region design simultaneously has guaranteed that the charging wire bundle can not alternately be mixed and disorderly, can realize unified charge management.

Description

Unmanned aerial vehicle battery cabinet that charges

Technical Field

The application relates to the technical field of battery charging, in particular to unmanned aerial vehicle battery charging cabinet.

Background

Along with the continuous maturity of unmanned aerial vehicle technique and the increase of market acceptance, unmanned aerial vehicle's use amount is constantly increaseing, and what accompanies is the increase of unmanned aerial vehicle battery use amount. In the in-service use process, battery power consumption is great when unmanned aerial vehicle uses, leads to the unmanned aerial vehicle battery to need more frequent and longer charging, so need manage unmanned aerial vehicle battery charging.

In the common unmanned aerial vehicle battery charging management mode, need the manual work to classify the unmanned aerial vehicle battery, match corresponding charger according to the battery of different grade type, insert the charger to the wiring board again, place the desk and charge.

The existing unmanned aerial vehicle battery charging management mode places the unmanned aerial vehicle battery and charges together, the battery of different capacity sizes is piled up and is placed and charge, space utilization is low and the pencil is mixed and disorderly, especially, unmanned aerial vehicle is often used by large-scale concentration, so the charge time is more concentrated, after the low capacity battery finishes charging, need choose the battery that finishes charging and arrange the pencil from the battery pile, waste time and energy, very big increase work load.

SUMMERY OF THE UTILITY MODEL

In order to solve among the prior art unmanned aerial vehicle battery and place and charge together, the battery of different capacity sizes piles up and places and charge, and space utilization is low and the mixed and disorderly problem of pencil, and this application provides an unmanned aerial vehicle battery cabinet that charges.

An unmanned aerial vehicle battery charging cabinet comprises a charging cabinet body, wherein the charging cabinet body is provided with a first cabinet door and a second cabinet door through hinges, and the first cabinet door and the second cabinet door are provided with door lock mechanisms;

a plurality of partition plates are arranged in the charging cabinet body, an unmanned aerial vehicle battery placing area is formed between every two adjacent partition plates, and a charging interface is arranged in the unmanned aerial vehicle battery placing area;

a plurality of cooling fans are arranged on the shell of the charging cabinet body, and vent holes are formed in the top of the charging cabinet body; the intelligent protection device is arranged on the outer side of the charging cabinet body, one end of the intelligent protection device is connected with a main power line, and the other end of the intelligent protection device is connected with the charging interface.

Optionally, the charging cabinet body adopts a double-layer steel plate structure.

Optionally, the steel plate is a carbon cold-rolled steel plate.

Optionally, transparent observation windows are arranged on the first cabinet door and the second cabinet door, and the transparent observation windows are made of tempered glass.

Optionally, the bottom of the charging cabinet body is provided with a sliding wheel.

Optionally, a brake device is arranged on the sliding wheel.

Optionally, a dust cover is disposed on one side of the heat dissipation fan.

Optionally, the unmanned aerial vehicle battery placement area includes battery area and pencil storage area.

According to the technical scheme, the unmanned aerial vehicle battery charging cabinet comprises a charging cabinet body, wherein the charging cabinet body is provided with a first cabinet door and a second cabinet door through hinges, and the first cabinet door and the second cabinet door are provided with door lock mechanisms; a plurality of detachable partition plates are arranged in the charging cabinet body, an unmanned aerial vehicle battery placing area is formed between every two adjacent partition plates, and a charging interface is arranged in the unmanned aerial vehicle battery placing area; a plurality of cooling fans are arranged on the shell of the charging cabinet body, and vent holes are formed in the top of the charging cabinet body; the intelligent protection device is arranged on the outer side of the charging cabinet body, one end of the intelligent protection device is connected with a main power line, and the other end of the intelligent protection device is connected with the charging interface.

In the practical application process, the design of many baffles of detachable can the self-adaptation be set up the size that unmanned aerial vehicle battery placed the region to the unmanned aerial vehicle battery that adapts to equidimension not places and charges, space utilization has been improved, the interface that charges that every battery placed the region design simultaneously has guaranteed that the charging wire bundle can not alternately be mixed and disorderly, can realize unified charging management, can select the battery that finishes of charging directly perceivedly after the battery charging is accomplished, the work load that the personnel of charging managed the battery and charges has been reduced.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a battery charging cabinet of an unmanned aerial vehicle according to the present application;

fig. 2 is a side view of an unmanned aerial vehicle battery charging cabinet according to the present application;

fig. 3 is this application an unmanned aerial vehicle battery charging cabinet battery and places regional schematic diagram.

In the figure: the intelligent charging system comprises a charging cabinet body 1, a hinge 2, a first cabinet door 3, a second cabinet door 4, a door lock mechanism 5, a partition plate 6, an unmanned aerial vehicle battery placing area 7, a battery area 71, a wire harness containing area 72, a charging interface 8, a cooling fan 9, an air vent 10, an intelligent protector 11, a power line 12, a transparent observation window 13 and a sliding wheel 14.

Detailed Description

In order to solve among the prior art battery of different capacity size and pile up and place the charging, the mixed and disorderly problem of space utilization low and pencil, especially, unmanned aerial vehicle is often used by extensive the concentration, so the charge time is more concentrated, finishes when charging as the low capacity battery, need select the battery that finishes of charging from the battery pile, wastes time and energy, very big increase work load. The embodiment of the application provides an unmanned aerial vehicle battery cabinet that charges.

Refer to fig. 1, for this application an unmanned aerial vehicle battery cabinet structure schematic diagram that charges, include: the charging cabinet body 1, the charging cabinet body 1 is open structure, the charging cabinet body 1 is provided with first cabinet door 3 and second cabinet door 4 through hinge 2, first cabinet door 3 with be provided with locking mechanism 5 on the second cabinet door 4, first cabinet door 3 with second cabinet door 4 has adopted the design of two lock bodies can effectually prevent to steal, has guaranteed the safety of unmanned aerial vehicle battery.

In this application embodiment, be provided with a plurality of detachable baffles 6 in the cabinet body that charges 1, adjacent it places region 7 to form the unmanned aerial vehicle battery between the baffle 6, the unmanned aerial vehicle battery is placed region 7 and is provided with the interface 8 that charges to realize the unified of polylith unmanned aerial vehicle charging battery and charge, and detachable baffle 6 can adapt to the unmanned aerial vehicle battery of equidimension not and place, is greater than when unmanned aerial vehicle battery size the unmanned aerial vehicle battery is placed when region 7, can dismantle one baffle 6 for the unmanned aerial vehicle battery is placed regional 7 and is enlarged, has adapted to the unmanned aerial vehicle battery of large size and has placed regional space utilization simultaneously and improved the unmanned aerial vehicle battery.

In this application partial embodiment, the interface 8 that charges except having the function of preventing the electric current excessive pressure, overflowing, transshipping and short circuit, can also carry out intelligent charging and discharge to the battery and adjust, has prolonged the life of unmanned aerial vehicle battery, is full of the back when unmanned aerial vehicle battery, can also initiatively open the storage mode, has avoided the risk of battery swell and battery explosion. The intelligent charging device comprises a charging cabinet body 1 and is characterized in that an intelligent protector 11 is arranged on the outer side of the charging cabinet body 1, an electric leakage protection device is arranged inside the intelligent protector 11 and can protect the stability of an access voltage, one end of the intelligent protector 11 is connected with a main power line 12, the other end of the intelligent protector is connected with a charging interface 8, and the voltage can be guaranteed to be stably charged into an unmanned aerial vehicle battery.

Fig. 2 is a side view of an unmanned aerial vehicle battery charging cabinet according to the present application, in this embodiment, in order to solve the problem that heat generated during centralized charging of batteries cannot be dissipated in time, a plurality of cooling fans 9 are disposed on an outer shell of the charging cabinet body 1, and the cooling fans 9 can timely discharge heat dissipated during charging of an unmanned aerial vehicle battery, so as to ensure that a fire hazard caused by overheating cannot be generated during charging of the unmanned aerial vehicle battery; the top of the charging cabinet body 1 is provided with the vent hole 10, so that the flowing speed of the air flow provided by the cooling fan 9 in the charging cabinet body 1 can be increased, and the cooling effect is enhanced.

Fig. 3 is this application an area schematic diagram is placed to unmanned aerial vehicle battery charging cabinet battery, in this application embodiment, places in a jumble in order to solve battery and pencil, is not convenient for the staff to carry out the problem of the operation of charging, unmanned aerial vehicle battery is placed regional 7 and is included battery district 71 and pencil containing area 72, battery district 71 is used for placing the unmanned aerial vehicle battery, and most pencil containing area 72 is used for placing the charging wire of unmanned aerial vehicle battery, and the battery is separately placed with the pencil, and the staff of being convenient for is to the maintenance of charging of unmanned aerial vehicle battery.

In some embodiments of the application, the charging cabinet body 1 adopts a double-layer steel plate structure, in this embodiment, the interval between two layers of steel plates of the charging cabinet body 1 is 38mm, and a high-performance fireproof layer is filled between the two layers of steel plates; when the unmanned aerial vehicle battery takes place the short-circuit burning, the cabinet body that charges 1 body can prevent that the conflagration from stretching, has guaranteed personal and property safety.

In some embodiments of the present application, the steel sheet is a carbon cold-rolled steel sheet.

In this application partial embodiment, first cabinet door 3 with all be provided with transparent observation window 13 on the second cabinet door 4, transparent observation window 13 material is toughened glass, transparent observation window 13's setting can be favorable to the convenient must observation of the personnel of charging the unmanned aerial vehicle battery charging condition in the charging cabinet body 1.

In some embodiments of the present application, the bottom of the charging cabinet 1 is provided with a sliding wheel 14, which is beneficial for the charging personnel to adjust and move the charging cabinet 1.

The sliding wheels 14 are provided with brake devices, so that the charging cabinet body 1 is guaranteed not to move after being adjusted and moved.

9 one side of radiator fan is provided with the dust cover for prevent 9 work of radiator fan dispels the heat to unmanned aerial vehicle charging cabinet, and the dust gets into in the charging cabinet body 1.

According to the technical scheme, an unmanned aerial vehicle battery cabinet that charges, including the cabinet body that charges 1, the cabinet body that charges 1 is open structure, the cabinet body that charges 1 is provided with first cabinet door 3 and second cabinet door 4 through hinge 2, first cabinet door 3 with be provided with locking mechanism 5 on the second cabinet door 4.

A plurality of detachable baffles 6 are arranged in the charging cabinet body 1, an unmanned aerial vehicle battery placing region 7 is formed between the baffles 6, and the unmanned aerial vehicle battery placing region 7 is provided with a charging interface 8.

A plurality of cooling fans 9 are arranged on the shell of the charging cabinet body 1, and a vent hole 10 is arranged at the top of the charging cabinet body 1; the intelligent charging device is characterized in that an intelligent protector 11 is arranged on the outer side of the charging cabinet body 1, one end of the intelligent protector 11 is connected with a main power line 12, and the other end of the intelligent protector is connected with the charging interface 8.

The utility model discloses an unmanned aerial vehicle battery cabinet that charges in embodiment, wherein detachable many baffle designs can the self-adaptation be set up the size that the unmanned aerial vehicle battery placed the region, place to charge in order to adapt to the unmanned aerial vehicle battery of equidimension not, space utilization is improved, the interface that charges that every battery placed the region design has guaranteed that the charging wire restraints can not alternately be mixed and disorderly simultaneously, can realize unified charge management, can select the battery that finishes of charging directly perceivedly after the battery charging is accomplished, the work load that the personnel of charging managed the battery and charges has been reduced.

The present application has been described in detail with reference to specific embodiments and illustrative examples, but the description is not intended to limit the application. Those skilled in the art will appreciate that various equivalent substitutions, modifications or improvements may be made to the presently disclosed embodiments and implementations thereof without departing from the spirit and scope of the present disclosure, and these fall within the scope of the present disclosure.

Claims (8)

1. An unmanned aerial vehicle battery charging cabinet is characterized by comprising a charging cabinet body (1), wherein the charging cabinet body (1) is provided with a first cabinet door (3) and a second cabinet door (4) through hinges (2), and the first cabinet door (3) and the second cabinet door (4) are provided with door lock mechanisms (5);

a plurality of detachable partition plates (6) are arranged in the charging cabinet body (1), an unmanned aerial vehicle battery placing area (7) is formed between every two adjacent partition plates (6), and a charging interface (8) is arranged in the unmanned aerial vehicle battery placing area (7);

a plurality of cooling fans (9) are arranged on the shell of the charging cabinet body (1), and vent holes (10) are formed in the top of the charging cabinet body (1);

the intelligent charging device is characterized in that an intelligent protector (11) is arranged on the outer side of the charging cabinet body (1), one end of the intelligent protector (11) is connected with a main power line (12), and the other end of the intelligent protector is connected with the charging interface (8).

2. The unmanned aerial vehicle battery charging cabinet of claim 1, characterized in that the charging cabinet body (1) adopts a double-layer steel plate structure.

3. The unmanned aerial vehicle battery charging cabinet of claim 2, wherein the steel sheet is a carbon cold rolled steel sheet.

4. The unmanned aerial vehicle battery charging cabinet of claim 1, wherein a transparent observation window (13) is arranged on each of the first cabinet door (3) and the second cabinet door (4), and the transparent observation window (13) is made of tempered glass.

5. An unmanned aerial vehicle battery charging cabinet according to claim 1, characterized in that the bottom of the charging cabinet body (1) is provided with a sliding wheel (14).

6. An unmanned aerial vehicle battery charging cabinet according to claim 5, characterized in that, the movable pulley (14) is provided with a brake device.

7. The unmanned aerial vehicle battery charging cabinet of claim 1, characterized in that, a dust cover is arranged on one side of the cooling fan (9).

8. An unmanned aerial vehicle battery charging cabinet according to claim 1, characterized in that the unmanned aerial vehicle battery placement area (7) comprises a battery area (71) and a harness receiving area (72).

Images