CN220616227U - Portable wireless charging device - Google Patents

Abstract

The utility model belongs to the technical field of unmanned aerial vehicles, and particularly relates to a portable wireless charging device, which comprises a charging frame, and further comprises a centering component arranged in the charging frame, wherein the centering component comprises a positioning ring which is connected in the charging frame in a sliding way, a motor arranged on the bottom surface of the positioning ring, and a supporting plate arranged at the output end of the motor.

Description

Portable wireless charging device

Technical Field

The utility model belongs to the technical field of unmanned aerial vehicles, and particularly relates to a portable wireless charging device.

Background

The drone is abbreviated as "unmanned aerial vehicle", abbreviated as "UAV", is an unmanned aerial vehicle that is maneuvered by a radio remote control device and a self-contained programming device, or is operated autonomously, either entirely or intermittently, by an on-board computer. In the current unmanned aerial vehicle application, most of applications except military attack, logistics and pesticide spraying are adopted, such as aerial photography, electric line inspection, cooperation science investigation, forest fire prevention inspection, military reconnaissance, police and the like;

through investigation publication (bulletin) number: CN214420234U discloses a wireless charging device of unmanned aerial vehicle, discloses "a wireless charging device of unmanned aerial vehicle" in this technique, which comprises a box body, the interior bottom wall of box is fixedly connected with backup pad and spring section of thick bamboo respectively, the inside fixedly connected with buffer spring of spring section of thick bamboo, the one end fixedly connected with spring lever of buffer spring, the top fixedly connected with roof of spring lever, the bottom of roof articulates through the axostylus axostyle has the bracing piece, the one end that the bracing piece kept away from the roof articulates through the axostylus axostyle has the movable block, logical technical content such as groove has been seted up to the inside of movable block to this kind of wireless charging device of unmanned aerial vehicle, can make the spring lever to the inside of spring section of thick bamboo remove, makes buffer spring atress compression, makes the movable block remove on the round bar, makes buffer spring atress compression, impact force when reducing unmanned aerial vehicle's descending to play the effect that improves shock-absorbing performance, reached the purpose such as improves shock-absorbing performance ";

although this design can be when unmanned aerial vehicle descends, and the roof moves down, makes damping spring atress compression, reduces the impact force when unmanned aerial vehicle descends, has reached the purpose that improves shock-absorbing performance, but this design is when in actual use, and current wireless charging technique unmanned aerial vehicle can produce certain skew when carrying out unmanned aerial vehicle and charge the returning voyage, makes unmanned aerial vehicle break away from the position that charges wirelessly easily, causes unmanned aerial vehicle internal wireless receiving end that charges can not align with wireless transmitting end that charges, can't charge.

In order to solve the above problems, a portable wireless charging device is provided in the present application.

Disclosure of Invention

To solve the problems set forth in the background art. The utility model provides a portable wireless charging device which can be used for conveniently and quickly charging a receiving end in an unmanned aerial vehicle and a wireless charging level table in an aligned mode and has the characteristic of protecting the unmanned aerial vehicle during charging.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the portable wireless charging device comprises a charging frame and a centering assembly arranged in the charging frame;

the utility model discloses a charging device, including setting up the subassembly, put in the subassembly and put in, put in the subassembly includes sliding connection and is in including the holding ring in the charging frame with install the motor of holding ring bottom surface and install the layer board of motor output, the layer board rotates to be connected in the holding ring, layer board surface sliding connection has a plurality of push plates, the limiting plate of T shape structure is installed to the push plate bottom surface, limiting plate sliding connection is in the spout of seting up on layer board surface, one side surface mounting of push plate has the wedge, the surface sliding connection of wedge has the roof, one side of roof is installed in the holding ring, layer board surface mounting has wireless charging transmitting terminal.

As the portable wireless charging device, preferably, a tension spring is arranged on one side surface of the limiting plate, and one end of the tension spring is arranged in a chute formed in the surface of the supporting plate.

As a preferable mode of the portable wireless charging device, the outer surface of the supporting plate is provided with a limit groove which is matched with the protrusion of the inner wall of the positioning ring.

The portable wireless charging device is preferably provided with the protection component arranged in the charging frame, the protection component comprises a shell and a positioning rod, the shell is lapped on the surface of the charging frame, the positioning rod is arranged on the bottom surface of the shell, the positioning rod is rotatably connected in a chute formed in the surface of the charging frame, a hydraulic rod is arranged on the bottom surface of the interior of the charging frame, and the extending end of the hydraulic rod is abutted against the bottom surface of the positioning ring.

Preferably, as a portable wireless charging device, a supporting rod with a T-shaped structure is arranged on the outer surface of the shell, and the T-shaped structure of the supporting rod is flush with the bottom surface of the charging frame.

Preferably, in the portable wireless charging device of the present utility model, a gasket is mounted on one side surface of one of the housings.

Compared with the prior art, the utility model has the beneficial effects that:

1. the centering assembly is added on the basis, when the unmanned aerial vehicle is in use, the motor drives the supporting plate to rotate when the unmanned aerial vehicle is less in power return to the support, so that the top plate in the main body pushes the wedge block, the wedge block drives the push plate to push the unmanned aerial vehicle, the unmanned aerial vehicle can be arranged at the center of the supporting plate, the wireless receiving end in the unmanned aerial vehicle and the wireless transmitting end in the main body are aligned for charging, and the unmanned aerial vehicle is prevented from being offset after returning to cause incapacity of charging;

2. meanwhile, the protection component is further added on the basis, through the shell, the locating rod and the supporting rod, when the unmanned aerial vehicle is used, the unmanned aerial vehicle can return to the supporting plate in the locating ring and then downwards presses through gravity, so that the locating ring pushes the locating rod, the locating rod can drive the two shells to be propped together, and damage to the unmanned aerial vehicle during charging is prevented.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the middle assembly in the present utility model;

FIG. 3 is a schematic view of the push plate, the limiting plate and the tension spring according to the present utility model;

FIG. 4 is a state diagram of the protective assembly of the present utility model in operation;

FIG. 5 is a schematic view of a positioning rod according to the present utility model;

fig. 6 is a schematic structural view of a hydraulic rod, a positioning rod and a positioning ring in the present utility model.

In the figure:

1. a charging rack;

2. a centering assembly; 201. a positioning ring; 202. a motor; 203. a supporting plate; 204. a wireless charging transmitting terminal; 205. a limiting plate; 206. wedge blocks; 207. a push plate; 208. a top plate; 209. a tension spring;

3. a protective assembly; 301. a housing; 302. a positioning rod; 303. a support rod; 304. a sealing gasket; 305. and a hydraulic rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1-6;

a portable wireless charging device comprises a charging frame 1.

In this embodiment: through investigation publication (bulletin) number: CN214420234U discloses a wireless charging device of unmanned aerial vehicle, discloses "a wireless charging device of unmanned aerial vehicle" in this technique, which comprises a box body, the interior bottom wall of box is fixedly connected with backup pad and spring section of thick bamboo respectively, the inside fixedly connected with buffer spring of spring section of thick bamboo, the one end fixedly connected with spring lever of buffer spring, the top fixedly connected with roof of spring lever, the bottom of roof articulates through the axostylus axostyle has the bracing piece, the one end that the bracing piece kept away from the roof articulates through the axostylus axostyle has the movable block, logical technical content such as groove has been seted up to the inside of movable block to this kind of wireless charging device of unmanned aerial vehicle, can make the spring lever to the inside of spring section of thick bamboo remove, makes buffer spring atress compression, makes the movable block remove on the round bar, makes buffer spring atress compression, impact force when reducing unmanned aerial vehicle's descending to play the effect that improves shock-absorbing performance, reached the purpose such as improves shock-absorbing performance ";

although this design can be when unmanned aerial vehicle descends, the roof moves down, make damping spring atress compression, reduce the impact force when unmanned aerial vehicle descends, the purpose of improving shock-absorbing performance has been reached, but this design is when in actual use, current wireless charging technique unmanned aerial vehicle can produce certain skew when carrying out unmanned aerial vehicle and charging the returning, make unmanned aerial vehicle break away from the position that charges wirelessly easily, cause unmanned aerial vehicle internal wireless receiving end of charging can not align with wireless transmitting end of charging scheduling problem, the problem such as unable charging, combine actual use to be obviously that this problem exists in reality and is difficult to solve relatively, for this reason, for solving this technical problem, set subassembly 2 and protective component 3 have been added on this application file.

According to the above, when the unmanned aerial vehicle returns to the charging frame 1, the wireless receiving end on the unmanned aerial vehicle can be aligned with the wireless transmitting end on the charging frame 1 for charging, and the unmanned aerial vehicle further comprises a centering component 2 arranged in the charging frame 1; the centering assembly 2 comprises a positioning ring 201 which is slidably connected in the charging frame 1, a motor 202 which is arranged on the bottom surface of the positioning ring 201, and a supporting plate 203 which is arranged at the output end of the motor 202, wherein the supporting plate 203 is rotatably connected in the positioning ring 201, a plurality of pushing plates 207 are slidably connected on the surface of the supporting plate 203, limiting plates 205 with T-shaped structures are arranged on the bottom surface of the pushing plates 207, the limiting plates 205 are slidably connected in sliding grooves formed on the surface of the supporting plate 203, wedge-shaped blocks 206 are arranged on one side surface of the pushing plates 207, top plates 208 are slidably connected on the surface of the wedge-shaped blocks 206, one side of each top plate 208 is arranged in the positioning ring 201, and wireless charging transmitting ends 204 are arranged on the surface of the supporting plates 203.

In this embodiment: when unmanned aerial vehicle returns to voyage, unmanned aerial vehicle falls back to on the layer board 203 in the retainer plate 201, the area of layer board 203 is greater than unmanned aerial vehicle, unmanned aerial vehicle returns behind, can not accurately fall in the assigned position, drive layer board 203 at retainer plate 201 internal rotation through motor 202 in the charging frame 1, make roof 208 on the retainer plate 201 promote the wedge plate simultaneously, make the wedge plate can drive push pedal 207 at layer board 203 surface slip, and carry out spacingly through limiting plate 205 to push pedal 207, make the spout that limiting plate 205 can be stable offered on layer board 203 surface slip, thereby push unmanned aerial vehicle to layer board 203 central point puts, make the receiving terminal in the unmanned aerial vehicle can align with the transmitting terminal on the layer board 203, improve charge efficiency.

It should be noted that: the method is suitable for a T40 unmanned aerial vehicle in the large area or an unmanned aerial vehicle with an automatic return function.

In an alternative embodiment: one side surface of the limiting plate 205 is provided with a tension spring 209, and one end of the tension spring 209 is arranged in a chute formed in the surface of the supporting plate 203.

In this embodiment: after the top plate 208 is separated from the wedge block 206, the limiting plate 205 is pulled by the tension spring 209, so that the limiting plate 205 can drive the push plate 207 to reset, and the landing of the unmanned aerial vehicle is not affected.

In an alternative embodiment: the outer surface of the supporting plate 203 is provided with a limit groove which is matched with the protrusion of the inner wall of the positioning ring 201.

In this embodiment: the supporting plate 203 can be limited through the protrusions in the charging frame 1, so that the supporting plate 203 can rotate in the positioning ring 201 stably.

According to the above, can look for the unmanned aerial vehicle and cover when charging to unmanned aerial vehicle, prevent unmanned aerial vehicle damage, still including installing the protection component 3 in charging frame 1, protection component 3 is including the shell 301 of overlap joint at charging frame 1 surface and install the locating lever 302 at the shell 301 bottom surface, and the locating lever 302 rotates to be connected in the spout of seting up at charging frame 1 surface, and charging frame 1 inside bottom surface installs hydraulic stem 305, and the end butt that stretches out of hydraulic stem 305 is in the bottom surface of retainer plate 201.

In this embodiment: after unmanned aerial vehicle falls down, the hydraulic rod 305 in the charging frame 1 is retracted in advance, then through unmanned aerial vehicle's gravity depression, makes the retainer plate 201 can promote locating lever 302, makes the spout that locating lever 302 was seted up at charging frame 1 surface internal rotation to make the shell 301 cover on the locating lever 302 in the unmanned aerial vehicle outside, make shell 301 and charging frame 1 protect charging frame 1.

In an alternative embodiment: the outer surface of the housing 301 is provided with a T-shaped structure of the support 303, and the T-shaped structure of the support 303 is flush with the bottom surface of the charging stand 1.

In this embodiment: the housing 301 can be supported by the support rod 303 with a T-shaped structure, and the charging stand 1 can be conveniently moved.

In an alternative embodiment: one side surface of one of the housings 301 is mounted with a gasket 304.

In this embodiment: and can prevent rainwater from permeating into charging frame 1 from the top through the sealing pad 304 on the shell 301, prevent to cause the damage to unmanned aerial vehicle and charging frame 1.

The working principle and the using flow of the utility model are as follows: when unmanned aerial vehicle returns to voyage, unmanned aerial vehicle falls back to the layer board 203 in the retainer plate 201, the area of layer board 203 is greater than unmanned aerial vehicle, unmanned aerial vehicle returns behind, can not accurately fall in assigned position, motor 202 through in charging frame 1 drives layer board 203 and rotates in the retainer plate 201, protruding in through charging frame 1 can carry out spacing to layer board 203, make layer board 203 can steady rotate in the retainer plate 201, roof 208 promotion wedge plate on the messenger retainer plate 201 simultaneously, make wedge plate can drive push pedal 207 and slide at layer board 203 surface, and carry out spacing to push pedal 207 through limiting plate 205, make the spout that limiting plate 205 can be stable offered on layer board 203 surface slide, thereby push unmanned aerial vehicle to layer board 203 central point puts, make the receiving terminal in the unmanned aerial vehicle align with the transmitting terminal on the layer board 203, improve charging efficiency, after roof 208 breaks away from wedge 206, through extension spring pulling limiting plate 205, make push pedal 207 reset, can not influence unmanned aerial vehicle's landing, after the aircraft falls, then, the carriage 1 can be drawn back to the outer surface of the carrier 301 through the leading to the fact the outer cover 301 to be carried out to the side of the outer cover 301 through the carrier 301, and the outer surface of the carrier 301 is changed to the outer surface of the carrier 301, and the outer cover 301 is changed to the side of the outer surface of the carrier 301 is changed to the carrier 301, and the outer surface is changed to the outer side of the carrier 301 is changed, the side of the carrier 301 is 1, the side of the safety device is changed, and the safety device is set up, and is the safety device is 1, and is the safety device.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. The utility model provides a wireless charging device of portable, includes charging frame (1), its characterized in that: the charging device also comprises a centering component (2) arranged in the charging frame (1);

the utility model provides a charging device, including setting up subassembly (2), including sliding connection be in retainer plate (201) in charging frame (1) and install motor (202) of retainer plate (201) bottom surface and install layer board (203) of motor (202) output, layer board (203) rotate and connect in retainer plate (201), layer board (203) surface sliding connection has a plurality of push plates (207), limiting plate (205) of T shape structure are installed to layer board (207) bottom surface, limiting plate (205) sliding connection is in the spout of layer board (203) surface seting up, one side surface mounting of push plate (207) has wedge (206), the surface sliding connection of wedge (206) has roof (208), one side of roof (208) is installed in retainer plate (201), layer board (203) surface mounting has wireless charging transmitting end (204).

2. The portable wireless charging device of claim 1, wherein: one side surface of limiting plate (205) is installed extension spring (209), one end of extension spring (209) is installed in the spout that layer board (203) surface was seted up.

3. The portable wireless charging device of claim 1, wherein: and a limit groove is formed in the outer surface of the supporting plate (203), and the limit groove is matched with the protrusion of the inner wall of the positioning ring (201).

4. The portable wireless charging device of claim 1, wherein: still including installing protection component (3) in charging frame (1), protection component (3) are in including overlap joint shell (301) on charging frame (1) surface and install locating lever (302) on shell (301) bottom surface, locating lever (302) rotate and connect in the spout of seting up on charging frame (1) surface, charging frame (1) inside bottom surface installs hydraulic stem (305), the end butt that stretches out of hydraulic stem (305) is in the bottom surface of retainer plate (201).

5. The portable wireless charging device of claim 4, wherein: the outer surface of the shell (301) is provided with a T-shaped structure of a supporting rod (303), and the T-shaped structure of the supporting rod (303) is flush with the bottom surface of the charging frame (1).

6. The portable wireless charging device of claim 4, wherein: one side surface of one of the housings (301) is provided with a gasket (304).