CN209881461U

CN209881461U - Open-air charging device

Info

Publication number: CN209881461U
Application number: CN201921006063.2U
Authority: CN
Inventors: 李卫东; 谢峻; 易贤楚
Original assignee: Ninety-Eighth Hospital Of Joint Logistics Support Force Of Chinese People's Liberation Army
Current assignee: Ninety-Eighth Hospital Of Joint Logistics Support Force Of Chinese People's Liberation Army
Priority date: 2019-07-01
Filing date: 2019-07-01
Publication date: 2019-12-31
Anticipated expiration: 2029-07-01

Abstract

The utility model relates to a technical field that charges especially relates to an open-air charging device. A field charging device comprises a device body, wherein a movable support is arranged on the lower side of the device body, a power storage part and a charging part are arranged in the device body, the power storage part comprises a power storage bin and a control bin, the charging part comprises a socket charging layer and a wireless charging layer, a direct charging port directly connected with an external power supply is arranged in the power storage bin, a microcontroller is arranged in the control bin, and the microcontroller controls the power storage bin and the charging part; a top cover is arranged on the charging part, and a solar cell panel is arranged on the outer surface of the top cover; the movable support comprises a support body and an upright post; the socket layer that charges includes two at least socket charging channel, and wireless layer that charges includes two at least wireless charging channel, on-off switch with microcontroller connect, the device body and the storage portion that establishes in it, the portion of charging and movable support all carry out the modularization equipment.

Description

Open-air charging device

Technical Field

The utility model relates to a technical field that charges especially relates to an open-air charging device.

Background

A plurality of small and medium-sized electric equipment such as batteries and mobile power supplies are often needed in the process of carrying out military training in the field, and the minimum power utilization requirement of each electric device must be ensured for the normal operation of each item of equipment. However, during military training, the field is often set in the field, the commercial power supply is difficult, and the requirement of military combat training is not met, so that the standby charging is very important.

Although the existing field charging devices are more, the existing field charging devices cannot meet the requirements of field military training due to the high requirements of high efficiency, portability, safety and the like of the field military training.

SUMMERY OF THE UTILITY MODEL

The utility model provides an open-air charging device to solve the problem that current open-air charging device can't satisfy high efficiency, portable and the safety requirement that charges to battery and portable power source in the open-air military training.

The utility model discloses an open-air charging device adopts following technical scheme: a field charging device comprises a device body, wherein a movable support is arranged on the lower side of the device body, a power storage part and a charging part are arranged in the device body, the power storage part comprises a power storage bin and a control bin, the charging part comprises a socket charging layer and a wireless charging layer, a direct charging port directly connected with an external power supply is arranged in the power storage bin, a microcontroller is arranged in the control bin, and the microcontroller controls the power storage bin and the charging part; the charging part is provided with a top cover, and the outer surface of the top cover is provided with a solar cell panel; the movable support comprises a support body and an upright post; the socket layer of charging include two at least socket charging channel, the wireless layer of charging include two at least wireless charging channel, every socket charging channel and every wireless charging channel on all be provided with on-off switch, on-off switch with microcontroller connect, device body and the storage portion that establishes in it, the portion of charging and removal support all carry out the modularization equipment.

The electricity storage bin in be provided with lithium cell group, electric quantity indicating device and AC/DC converter, electric quantity indicating device with microcontroller carry out signal connection, AC/DC converter be connected with electric energy input port and electric energy output port, the electric energy output with portion electric connection that charges, directly charge the port also with portion electric connection charges, just directly charge the priority level that the port switched on higher than the electric energy output.

The socket charging channel between the cartridge have first activity to keep off the check, the socket charging channel in set up socket charging socket be provided with two at least.

The socket charging channels are arranged at intervals transversely.

The wireless charging channel is arranged at intervals transversely.

One side of the wireless charging layer is provided with a heat dissipation hole.

And a second movable blocking grid is arranged between the wireless charging channels.

The upright post is provided with a reinforcing member, and the reinforcing member comprises a reinforcing ring and a fixing cone inserted on the reinforcing ring.

The utility model has the advantages that: this device supports and protects this device through setting up movable support. This internal storage portion and the portion of charging of being provided with of device, wherein storage portion stores up the electricity, and the portion of charging is used for placing the battery of treating charging, is provided with directly fills the port in the storage electricity storehouse, like this under the condition that has external power source, launches directly to fill the port and charge the portion of charging and be connected and charge, reduce the loss of the interior electric energy of storage electricity storehouse. A microcontroller is arranged in the control bin and controls the electricity storage bin and the direct charging port to select one of the connection charging part.

The portion of charging that sets up includes that the socket charges the layer and the wireless layer that charges, is applicable to the socket respectively and charges and wirelessly charge, can select the charging mode that is suitable for according to actual conditions. The socket layer of charging includes two at least socket charging channel, and wireless layer of charging includes two at least wireless charging channel, sets up like this and is convenient for carry out a plurality of devices and charges the operation simultaneously, improves charge efficiency. Every socket charging channel and every wireless charging channel all are provided with on-off switch, on-off switch with microcontroller connect, the rechargeable battery on every charging channel all has strict time limit under microcontroller's control, instructs on-off switch outage at microcontroller after the completion of charging, the security is higher.

Because the device body of the device and the built-in power storage part, the charging part and the movable support are assembled in a modularized manner, the device is convenient to disassemble and assemble and has good portability.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a first embodiment of a field charging device according to the present invention;

fig. 2 is a schematic structural diagram of a second embodiment of a field charging device according to the present invention;

in the figure: 1. a device body; 2. an induction coil; 3. a second movable stop grid; 4. a wireless charging layer; 41. a wireless charging channel; 5. a second groove; 6. a socket charging layer; 61. a socket charging channel; 7. a socket charging jack; 8. a first movable stop grid; 9. a first groove; 10. a power storage unit; 11. an electricity storage bin; 12. a direct charging port; 13. a control cabin; 14. (ii) a 15. A stent body; 16. a reinforcing ring; 17. a column; 18. a fixed cone; 19. a top cover; 20. a microcontroller.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses a first embodiment of a field charging device, as shown in fig. 1, a field charging device, including device body 1, device body 1 downside be provided with the removal support, device body in be provided with electricity storage portion 10 and charging portion, electricity storage portion 10 include storage bin 11 and control storehouse 13, charging portion include socket charging layer 6 and wireless charging layer 4, electricity storage portion 10 in still be provided with the direct port 12 that charges that directly links to each other with the external power supply, control storehouse 13 in be provided with microcontroller 20, microcontroller 20 control storage bin 11 and charging portion; a top cover 19 is arranged on the charging part, and a solar cell panel is arranged on the outer surface of the top cover 19; wherein, the movable bracket comprises a bracket body 15 and an upright post 17; socket charging layer 6 include two at least socket charging channel 61, wireless charging layer 4 include two at least wireless charging channel 41, every socket charging channel 61 and every wireless charging channel 41 on all be provided with on-off switch, on-off switch with microcontroller 20 connect, device body 1 and the accumulate portion 10, the portion of charging and the movable support that establishes all carry out the modularization equipment.

This device supports and protects this device through setting up movable support. This internal storage portion and the portion of charging of being provided with of device, wherein storage portion stores up the electricity, and the portion of charging is used for placing the battery of treating charging, is provided with directly fills the port in the storage electricity storehouse, like this under the condition that has external power source, launches directly to fill the port and charge the portion of charging and be connected and charge, reduce the loss of the interior electric energy of storage electricity storehouse. A microcontroller is arranged in the control bin and controls the electricity storage bin and the direct charging port to select one of the connection charging part.

The control cabin 13 is provided with an operation screen 14 of the microcontroller on one side surface thereof.

Preferably, be provided with lithium cell group, electric quantity indicating device and AC/DC converter in the storage battery storehouse 11, electric quantity indicating device with microcontroller 20 carry out signal connection, AC/DC converter be connected with electric energy input port and electric energy output port, electric energy output end with charging portion electric connection, directly charge the port also with charging portion electric connection, just directly charge the priority of port circular telegram and be higher than electric energy output end.

The above arrangement can be adapted to various modes, in a general state, the lithium battery pack stores electricity, and when the charging part charges, the microcontroller starts the electricity storage part to charge; when the external world has the power, for example when having emergent generating set to supply power or commercial power interface, can directly launch directly to fill the port, directly charge for the portion that charges, simultaneously according to the electricity storage condition in the lithium cell group, decide whether to charge for the lithium cell group simultaneously.

Preferably, a first movable stop grid 8 is inserted between the socket charging channels 61, and at least two socket charging sockets 7 are arranged in the socket charging channels 61. The first movable stop grid 8 slides in the first groove 9 arranged in the socket charging layer 6, so that the socket charging channel 61 can be used for installing charging batteries of different models.

Preferably, the receptacle charging channels 61 are laterally spaced apart.

Preferably, the wireless charging channels 41 are laterally spaced apart.

Preferably, a heat dissipation hole is formed in one side of the wireless charging layer 4. Because the heat that produces among the wireless charging process is great, consequently set up the louvre and dispel the heat. Wherein one side of the wireless charging layer is provided with an induction coil 2.

Preferably, a second movable stop 3 is arranged between the wireless charging channels 41. Through setting up the second activity and keeping off check 3, the size of placing the battery in wireless charging channel 41 can change, and the fender check that sets up can finely tune two passageways in the second recess 5 that sets up.

Preferably, the upright 17 is provided with a reinforcement comprising a reinforcement ring 16 and a fixing cone 18 inserted on the reinforcement ring 16. Under the condition of taking place bad weather, for example under strong wind, sand storm etc. the condition is fixed through the reinforcement to make this device more stable.

The utility model discloses an open-air charging device's embodiment two, as shown in FIG. 2, it is preferred, socket charging channel 61 vertical interval sets up.

Preferably, the wireless charging channels 41 are vertically spaced.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an open-air charging device, includes the device body, its characterized in that: the device comprises a device body and is characterized in that a movable support is arranged on the lower side of the device body, a power storage part and a charging part are arranged in the device body, the power storage part comprises a power storage bin and a control bin, the charging part comprises a socket charging layer and a wireless charging layer, a direct charging port directly connected with an external power supply is arranged in the power storage bin, a microcontroller is arranged in the control bin, and the microcontroller controls the power storage bin and the charging part; the charging part is provided with a top cover, and the outer surface of the top cover is provided with a solar cell panel; the movable support comprises a support body and an upright post; the socket layer of charging include two at least socket charging channel, the wireless layer of charging include two at least wireless charging channel, every socket charging channel and every wireless charging channel on all be provided with on-off switch, on-off switch with microcontroller connect, device body and the storage portion that establishes in it, the portion of charging and removal support all carry out the modularization equipment.

2. A field charging apparatus as claimed in claim 1, wherein: the electricity storage bin in be provided with lithium cell group, electric quantity indicating device and AC/DC converter, electric quantity indicating device with microcontroller carry out signal connection, AC/DC converter be connected with electric energy input port and electric energy output port, the electric energy output with portion electric connection that charges, directly charge the port also with portion electric connection charges, just directly charge the priority level that the port switched on higher than the electric energy output.

3. A field charging apparatus as claimed in claim 1, wherein: the socket charging channel between the cartridge have first activity to keep off the check, the socket charging channel in set up socket charging socket be provided with two at least.

4. A field charging apparatus as claimed in claim 3, wherein: the socket charging channels are arranged at intervals transversely.

5. A field charging device according to claim 4, wherein: the wireless charging channel is arranged at intervals transversely.

6. A field charging device according to claim 5, wherein: one side of the wireless charging layer is provided with a heat dissipation hole.

7. A field charging device according to claim 6, wherein: and a second movable blocking grid is arranged between the wireless charging channels.

8. A field charging apparatus as claimed in claim 1, wherein: the upright post is provided with a reinforcing member, and the reinforcing member comprises a reinforcing ring and a fixing cone inserted on the reinforcing ring.