CN210430970U - Outdoor unmanned aerial vehicle battery cabinet that charges - Google Patents

Abstract

The utility model discloses an outdoor unmanned aerial vehicle battery charging cabinet, which relates to the technical field of electric energy storage systems and comprises a cabinet body, wherein at least one battery charging bin is arranged in the cabinet body, a plurality of interlayers for placing charging batteries are formed in the battery charging bin, and each interlayer is provided with at least one battery charging slot; the cabinet body is also internally provided with a sine wave inverter, a power supply module and at least one group of charging modules, the sine wave inverter is used for converting direct current output by the power supply module into alternating current required by the charging modules, and the charging modules charge the rechargeable batteries through the battery charging slots. The utility model discloses can ensure that unmanned aerial vehicle continuously provides the battery supply when the open air carries out the operation, guarantee unmanned aerial vehicle and go on smoothly in electric power inspection operation, reduce the expense of many loaded down with trivial details works and the potential danger of carrying the battery and unmanned aerial vehicle battery to a certain extent.

Description

Outdoor unmanned aerial vehicle battery cabinet that charges

Technical Field

The utility model relates to an electric energy storage system technical field, in particular to outdoor unmanned aerial vehicle battery cabinet that charges.

Background

With the continuous improvement of scientific and technical technology in China, the levels of people in all aspects are increasingly improved, the load of the power transmission line is gradually increased, and the maintenance of the power transmission line is absolutely necessary. Unmanned aerial vehicle patrols and examines the continuous development of technique and enlarges in recent years, has brought very big facility for the electric wire netting maintenance work, but unmanned aerial vehicle's continuation of the journey problem still remains to improve at present, and the electric power staff carries the unmanned aerial vehicle operation, because unmanned aerial vehicle self weight and transmission line quantity are many, the unmanned aerial vehicle battery can not last very long tour work. Addressing this problem. The current solution is to carry more batteries as far as possible to ensure the time efficiency of the unmanned aerial vehicle inspection tour. However, the unmanned aerial vehicle battery is cumbersome to carry, heavy, dangerous, and cannot guarantee that the unmanned aerial vehicle continuously flies, and the cost for purchasing the unmanned aerial vehicle battery is increased.

In view of this, it is necessary to provide a device for outdoor charging of an unmanned aerial vehicle.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides an outdoor unmanned aerial vehicle battery cabinet that charges, it can ensure that unmanned aerial vehicle continuously provides the battery supply when the open air carries out the operation, guarantees that unmanned aerial vehicle goes on smoothly at the electric power inspection operation, has reduced the loaded down with trivial details work and the potential danger of many carrying batteries and the expense of unmanned aerial vehicle battery to a certain extent.

In order to achieve the purpose, the utility model provides an outdoor unmanned aerial vehicle battery charging cabinet, which comprises a cabinet body, wherein at least one battery charging bin is arranged in the cabinet body, a plurality of interlayers for placing charging batteries are formed in the battery charging bin, and each interlayer is provided with at least one battery charging slot; the cabinet is internally provided with a sine wave inverter, a power supply module and at least one group of charging modules, wherein the sine wave inverter is used for converting direct current output by the power supply module into alternating current required by the charging modules, and the charging modules charge the rechargeable battery through the battery charging slots.

As above outdoor unmanned aerial vehicle battery cabinet that charges, further, power module includes lithium iron phosphate battery, master switch and at least a set of power radiator fan, power radiator fan is used for dispelling the heat that lithium iron phosphate battery produced, master switch is used for opening and close lithium iron phosphate battery with power radiator fan.

As above outdoor unmanned aerial vehicle battery charging cabinet, further, the module of charging still includes rechargeable battery charger module, charging switch and battery charging radiator fan, battery charging radiator fan is used for dispelling the heat that battery charger module produced, charging switch is used for opening and close battery charger module with battery charging radiator fan.

As above outdoor unmanned aerial vehicle battery cabinet that charges, further, lithium iron phosphate battery still is connected with the aviation interface that charges.

As above, outdoor unmanned aerial vehicle battery charging cabinet, further, power radiator fan includes main power supply radiator fan and secondary power supply radiator fan.

As above outdoor unmanned aerial vehicle battery cabinet that charges, further, the cabinet body openly is provided with control operation panel, control operation panel is used for control total switch with charge switch, the last battery power voltage display module that is equipped with of control operation panel, battery power voltage display module is used for showing power module's in the rechargeable battery charging process electric quantity information.

As above outdoor unmanned aerial vehicle battery cabinet that charges, further, internal quick-witted case radiator switch and the quick-witted case radiator fan of still being equipped with of cabinet, quick-witted case radiator switch is used for opening and close quick-witted case radiator fan.

As above-mentioned outdoor unmanned aerial vehicle battery cabinet that charges, further, the module of charging is provided with two sets ofly.

As above outdoor unmanned aerial vehicle battery cabinet that charges, further, the bottom of the cabinet body is provided with the universal wheel, a cabinet body back is equipped with the pull rod.

As above outdoor unmanned aerial vehicle battery cabinet that charges, further, the battery charging storehouse is equipped with the door, be equipped with the magnetic force buckle on the door.

Compared with the prior art, the utility model, its beneficial effect lies in:

1. the charging cabinet is simple in structure, light in material weight, reasonable in arrangement of all modules inside, and convenient for outdoor operation as the pull rod and the universal wheel are arranged outside the cabinet body;

2. the charging cabinet is provided with a plurality of cooling fans, so that the temperature of the unmanned aerial vehicle in the charging process is favorably reduced, and the influence of heat accumulation on the normal work of the charging cabinet is avoided;

3. interact through control operation panel to and observe the electric quantity information of knowing battery charging process through battery electric quantity voltage display module, be convenient for the management and control with know the charging process.

Drawings

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

fig. 2 is a schematic structural diagram of a sheet metal of a removal cabinet body of an outdoor unmanned aerial vehicle battery charging cabinet;

fig. 3 is a schematic structural diagram of an outdoor unmanned aerial vehicle battery charging cabinet at another angle for removing a sheet metal of a cabinet body;

FIG. 4 is a schematic diagram of a use of another embodiment.

Wherein: 1. a cabinet body; 2. a battery charging bin; 3. a sine wave inverter; 4. a lithium iron phosphate battery; 5. a main power switch; 6. charging an aviation interface; 7. a main power supply cooling fan; 8. a secondary power supply heat dissipation fan; 9. a battery power voltage display module; 10. a chassis heat dissipation switch; 11. a chassis cooling fan; 12. a universal wheel; 13. a pull rod; 14. magnetic force buckle; 15. a first charging switch; 16. m210 battery charging radiator fan; 17. an M210 battery charger module; 18. a second charge switch; 19. a P4P battery charger module; 20. P4P battery charging radiator fan; 21. a main framework; 22. an interlayer; 23. cold rolling the sheet; 24. and a rechargeable battery slot.

Detailed Description

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

Example (b):

referring to fig. 1 to 4, an outdoor unmanned aerial vehicle battery charging cabinet, includes the cabinet body 1, and the cuboid main frame 21 of the cabinet body 1 is built by a plurality of rectangle steel and forms, and the outside of main frame 21 covers there is 1mm cold-rolled sheet 23, and the surface plastic-blasting of cold-rolled sheet 23 is handled. The cabinet is equipped with battery charging storehouse 2 in the cabinet body 1, be formed with a plurality of interlayers 22 that are used for placing rechargeable battery in the battery charging storehouse 2, every be equipped with battery charging slot on the interlayer 22, battery charging storehouse 2 is equipped with the door, be equipped with magnetic force buckle 14 on the door. Still be equipped with sinusoidal wave inverter 3, power module and two sets of charging module of group in the cabinet body 1, sinusoidal wave inverter 3 be used for with the direct current that power module output converts into the alternating current that the charging module needs, the charging module passes through battery charging slot gives rechargeable battery charges. In the preferred embodiment, the sine wave inverter 3, the power module and the two groups of charging modules are fixed on the main framework 21 of the cabinet body 1 in a connection mode of angle iron metal plates and screws and are arranged around the battery charging bin 2 in a surrounding mode, the arrangement mode is reasonable, and the internal space is effectively saved. The sine wave inverter 3 is preferably a power inverter BERT55 type, which is composed of an inverter bridge, control logic and a filter circuit, is suitable for any inductive load and resistive load, and can convert direct current electric energy into constant-frequency constant-voltage or frequency-modulation voltage-regulation alternating current. The power module outputs 12V direct current voltage to the sine wave inverter 3, the sine wave inverter 3 converts the voltage into 220V alternating current voltage, and the battery of the unmanned aerial vehicle placed in the battery charging bin 2 is charged through the charging module. The bottom of the cabinet body 1 is provided with universal wheel 12, a pull rod 13 is arranged on the back of the cabinet body 1, the side wall of the cabinet body 1 is provided with heat dissipation holes, outdoor moving operation is facilitated, and meanwhile the cabinet body is convenient to place in a shade place during charging operation.

Further, power module includes lithium iron phosphate battery 4, master power switch 5 and two sets of power radiator fan, power radiator fan is used for dispelling the heat that lithium iron phosphate battery 4 produced, master power switch 5 is used for opening and close lithium iron phosphate battery 4 with power radiator fan. In this embodiment, the lithium iron phosphate battery 4 is 12V100AH, and is used for storing and supplying electric energy and has dustproof and explosion-proof functions. Furthermore, considering that the lithium iron phosphate battery 4 has a large heat productivity, two sets of cooling fans, namely a main power supply cooling fan 7 and a secondary power supply cooling fan 8, are provided and are used according to actual working conditions. Lithium iron phosphate battery 4 still is connected with the aviation interface 6 that charges, and available dedicated aviation connects the charger to charge when lithium iron phosphate battery 4's electric quantity is not enough, ensures the normal operating of whole outdoor unmanned aerial vehicle battery charging cabinet. Preferably, the main power supply heat dissipation fan 7 is of a BX12 type, and the sub power supply heat dissipation fan 8 is of an FFB1212EH type.

Furthermore, the charging module further comprises a rechargeable battery charger module, a charging switch and a battery charging cooling fan, wherein the battery charging cooling fan is used for dissipating heat generated by the battery charger module, and the charging switch is used for starting and stopping the battery charger module and the battery charging cooling fan. In the present embodiment, two sets of charging modules are provided, and a charging switch and a battery charging cooling fan are correspondingly provided, specifically, the two sets of charging modules are respectively an M210 battery charger module 17 and a P4P battery charger module 19, which are respectively provided with a first charging switch 15 and an M210 battery charging cooling fan 16, and a P4P battery charging cooling fan 20 and a second charging switch 18. Preferably, the model of the M210 battery charger module 17 is a YXI01 model M210 battery charger, the P4P battery charger module 19TYP4-001-02 model Phantom 4pro battery charger, and the battery charging and heat dissipation fans are all ID-COOLING 9215 models. A set of battery charger module can charge for four unmanned aerial vehicle batteries, and in order to guarantee its charge efficiency and charging safety, every nanny that charges has all been equipped with a battery and charges radiator fan, and every battery charges radiator fan and all can provide 44.3 CFM's amount of wind, and every nanny that charges all is equipped with solitary charge switch simultaneously, guarantees its work efficiency and fan efficiency and heat dissipation.

Further, the cabinet body 1 openly is provided with control operation panel (not shown in the figure), control operation panel is used for controlling total switch 5 with the switch that charges, the last battery power voltage display module 9 that is equipped with of control operation panel, battery power voltage display module 9 is used for showing power module's among the rechargeable battery charging process electric quantity information. In this embodiment, the front of the cabinet body 1 is reserved with a hole site for installing a control operation panel, the preferred GY-6GD type of the battery electric quantity and voltage display module 9, and the control operation panel can be used as a human-computer interaction device to control the work of the outdoor unmanned aerial vehicle battery charging cabinet.

Further, a case heat dissipation switch 10 and a case heat dissipation fan 11 are further arranged in the cabinet body 1, the case heat dissipation switch 10 is used for starting and stopping the case heat dissipation fan 11, and the case heat dissipation fan 11 is used for dissipating heat of the whole device in the cabinet body 1.

Referring to fig. 4, further, a USB battery charging slot for charging a portable device, such as an unmanned aerial vehicle remote controller, is disposed on the control panel, wherein the USB battery charging slot is connected to the charging module.

During the specific use, the operator pulls open the door that has magnetic force buckle 14 in advance, and on the rechargeable battery who will follow the unmanned aerial vehicle and dismantle puts into corresponding interlayer 22, on control operation panel operation opens main switch 5, main radiator fan begins work, if the high temperature can open vice radiator fan and accelerate quick-witted case heat dissipation, through the charging wire or directly with rechargeable battery and battery charging slot connection. The charging process can be observed and controlled by the battery power and voltage display module 9 on the operation panel to know the charging process information.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. An outdoor unmanned aerial vehicle battery charging cabinet comprises a cabinet body, wherein at least one battery charging bin is arranged in the cabinet body, and the outdoor unmanned aerial vehicle battery charging cabinet is characterized in that a plurality of interlayers used for placing rechargeable batteries are formed in the battery charging bin, and each interlayer is provided with at least one battery charging slot; the cabinet is internally provided with a sine wave inverter, a power supply module and at least one group of charging modules, wherein the sine wave inverter is used for converting direct current output by the power supply module into alternating current required by the charging modules, and the charging modules charge the rechargeable battery through the battery charging slots.

2. The outdoor unmanned aerial vehicle battery charging cabinet of claim 1, wherein the power module comprises a lithium iron phosphate battery, a main power switch and at least one set of power heat dissipation fans, the power heat dissipation fans are used for dissipating heat generated by the lithium iron phosphate battery, and the main power switch is used for starting and stopping the lithium iron phosphate battery and the power heat dissipation fans.

3. The outdoor unmanned aerial vehicle battery charging cabinet of claim 2, wherein the charging module further comprises a charging battery charger module, a charging switch, and a battery charging heat sink fan, the battery charging heat sink fan is configured to dissipate heat generated by the battery charger module, and the charging switch is configured to turn the battery charger module and the battery charging heat sink fan on and off.

4. The outdoor unmanned aerial vehicle battery charging cabinet of claim 2, wherein the lithium iron phosphate battery is further connected with a charging aviation interface.

5. The outdoor drone battery charging cabinet of claim 2, wherein the power supply heat sink fan includes a primary power supply heat sink fan and a secondary power supply heat sink fan.

6. The outdoor unmanned aerial vehicle battery charging cabinet of claim 3, wherein a control operation panel is arranged on the front face of the cabinet body, the control operation panel is used for controlling the main power switch and the charging switch, a battery charge voltage display module is arranged on the control operation panel, and the battery charge voltage display module is used for displaying the charge information of the power module in the charging process of the rechargeable battery.

7. The outdoor unmanned aerial vehicle battery charging cabinet of claim 1, wherein a chassis heat dissipation switch and a chassis heat dissipation fan are further disposed in the cabinet body, and the chassis heat dissipation switch is configured to start and stop the chassis heat dissipation fan.

8. The outdoor unmanned aerial vehicle battery charging cabinet of claim 3, wherein there are two sets of charging modules.

9. The outdoor unmanned aerial vehicle battery charging cabinet of claim 1, wherein the bottom of the cabinet body is provided with universal wheels, and a pull rod is arranged on a back surface of the cabinet body.

10. The outdoor unmanned aerial vehicle battery charging cabinet of claim 1, wherein the battery charging bin is provided with a bin door, and the bin door is provided with a magnetic buckle.

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