CN216146133U - Direct power supply unit of unmanned aerial vehicle remote controller - Google Patents

Abstract

The utility model relates to a direct power supply device for an unmanned aerial vehicle remote controller, which comprises a clamping structure for clamping and fixing the unmanned aerial vehicle remote controller, wherein the clamping structure mainly comprises an ejector rod, a top plate and two fixing plates, the two fixing plates are both vertically fixed on one side surface of a shell, the unmanned aerial vehicle remote controller is accommodated between the two fixing plates, the fixing plates are provided with threaded holes, the ejector rod is provided with external threads, the ejector rod is threaded in the threaded holes, one end of the ejector rod is positioned at the outer sides of the two fixing plates and is a screwing end, the other end of the ejector rod extends into the space between the two fixing plates and is a clamping end, and the top plate is rotatably assembled at the clamping end of the ejector rod through a bearing; when the device is used, the unmanned aerial vehicle remote controller is positioned between the two fixing plates, and the top plate is enabled to clamp the unmanned aerial vehicle remote controller tightly by screwing the ejector rod.

Description

Direct power supply unit of unmanned aerial vehicle remote controller

Technical Field

The utility model relates to the technical field of power supply of unmanned aerial vehicle remote controllers, in particular to a direct power supply device for an unmanned aerial vehicle remote controller.

Background

An unmanned aerial vehicle (drone), abbreviated in english as "UAV", is an unmanned aircraft that is operated by means of a radio remote control device and a self-contained program control device, or is operated autonomously, either completely or intermittently, by an onboard computer. The unmanned aerial vehicle remote controller is a device for controlling the flight state of the unmanned aerial vehicle by utilizing radio, generally judges a plurality of parameters sent back by an operator to the unmanned aerial vehicle, and then sends a control command through the unmanned aerial vehicle remote controller.

The working places of the unmanned aerial vehicle are mostly outdoor, the endurance time of a remote controller battery of the unmanned aerial vehicle is short, and the long-time outdoor working environment cannot provide convenient charging conditions for the remote controller battery of the unmanned aerial vehicle, so that the service time of the unmanned aerial vehicle is greatly limited; in addition, the battery of the unmanned aerial vehicle remote controller is easy to damage after the unmanned aerial vehicle remote controller is not used for a long time, the unmanned aerial vehicle remote controller cannot be charged, and the unmanned aerial vehicle remote controller can still be continuously used after being electrified under the condition that the battery is damaged, but the unmanned aerial vehicle remote controller is difficult to supply power in an outdoor working environment, so that the unmanned aerial vehicle remote controller is limited in use.

SUMMERY OF THE UTILITY MODEL

The utility model provides a direct power supply device for an unmanned aerial vehicle remote controller, which can solve the problems that the unmanned aerial vehicle remote controller is inconvenient to charge and the unmanned aerial vehicle remote controller is limited to use when a battery of the unmanned aerial vehicle remote controller is damaged in the prior art.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a direct power supply device for an unmanned aerial vehicle remote controller comprises a box-shaped shell, wherein an electric core for supplying power to the unmanned aerial vehicle remote controller is arranged in the shell, an output interface for connecting the unmanned aerial vehicle remote controller through an external circuit and an input interface for charging the electric core are arranged on the shell, the direct power supply device also comprises a clamping structure arranged on the shell, the clamping structure is used for clamping and fixing the unmanned aerial vehicle remote controller and mainly comprises an ejector rod, a top plate and two fixing plates which are parallel to each other, the two fixing plates are both vertically fixed on one side face of the shell, the unmanned aerial vehicle remote controller is accommodated between the two fixing plates, threaded holes are formed in the fixing plates, and external threads are formed in the ejector rod; the ejector rod is threaded in the threaded hole, one end of the ejector rod is positioned outside the two fixing plates and is a screwing end, the other end of the ejector rod extends into the space between the two fixing plates and is a clamping end, and the top plate is rotatably assembled at the clamping end of the ejector rod through a bearing; during the use, the unmanned aerial vehicle remote controller is located between two fixed plates, makes the roof press from both sides tight unmanned aerial vehicle remote controller through revolving to twist the ejector pin.

Two ejector rods arranged at intervals are arranged on each fixing plate.

One side of ejector pin is equipped with on the roof and is used for contacting complex sheet rubber with the unmanned aerial vehicle remote controller.

A wire collecting groove is formed in one side face, back to the fixing plate, of the shell, and a spring wire clamp used for clamping and fixing an external circuit is arranged at the bottom of the wire collecting groove.

By adopting the technical scheme, when the electric quantity of the unmanned aerial vehicle remote controller is insufficient, the unmanned aerial vehicle remote controller can be placed on the shell along the direction of the back surface of the unmanned aerial vehicle remote controller towards one side surface of the shell, on which the fixing plates are arranged, and the unmanned aerial vehicle remote controller is positioned between the two fixing plates, the ejector rods on the fixing plates are screwed, so that the unmanned aerial vehicle remote controller is clamped and fixed between the top plates on the two sides, and then the unmanned aerial vehicle remote controller is connected with the output interface through the external circuit to start charging; the utility model has the advantages that the outdoor charging can be conveniently realized, the power can be directly supplied to the unmanned aerial vehicle remote controller after the battery is damaged, and the unmanned aerial vehicle remote controller is firmly clamped on the shell in the charging process; this unmanned aerial vehicle remote controller direct power supply unit adopts the clamping structure to press from both sides tight unmanned aerial vehicle remote controller, has general, portable, makes things convenient for remote control operation's when charging advantage, can solve among the prior art that the unmanned aerial vehicle remote controller charges inconveniently, uses limited problem when unmanned aerial vehicle remote controller battery damages.

Drawings

Fig. 1 is a schematic diagram of an embodiment 1 of the direct power supply device for the remote controller of the unmanned aerial vehicle according to the present invention.

Fig. 2 is a schematic view of an embodiment 1 of a direct power supply device for an unmanned aerial vehicle remote controller in another view.

Fig. 3 is a schematic usage state diagram of a direct power supply device for an unmanned aerial vehicle remote controller according to embodiment 1 of the present invention.

Reference numerals: 1-a shell; 2, fixing a plate; 3-a top rod; 4-a top plate; 5-rubber sheet; 6-an input interface; 7-an output interface; 8-a line concentration groove; 9-spring wire clamp; 10-unmanned aerial vehicle remote controller; 11-external connection; 12-a twist grip; 13-bearing.

Detailed Description

The present invention is not limited by the following examples, and specific embodiments may be determined according to the technical solutions and practical situations of the present invention.

The structure of the direct power supply device for the unmanned aerial vehicle remote controller is shown in fig. 1-2, the basic structure is similar to that of a traditional power supply, and the direct power supply device mainly comprises a box-shaped shell 1, an electric core and a circuit board, wherein the electric core and the circuit board are positioned in the shell, the electric core stores electric energy, and a boosting system and a charging management system are integrated on the circuit board. An output interface 7 and an input interface 6 are arranged on the shell 1, and the output interface 7 can be connected with an unmanned aerial vehicle remote controller through an external circuit to supply power to the unmanned aerial vehicle remote controller; the input interface 6 is used for charging the battery cell. When the electric energy is output, the electric energy of the electric core is boosted or reduced through the boosting system and then reaches the output interface 7, the charging management system can adjust the charging current according to the voltage of the electric core, the intelligent adjustment is carried out on the whole charging process, and then the effect of protecting the service life of the electric core is achieved. Different from a common digital product mobile power supply, the number of the output interfaces 7 is five, the rated working voltages of the output interfaces are 5V, 8V, 12V, 15V and 20V respectively, and the output interfaces can be used for supplying power to unmanned aerial vehicle remote controllers of various models and other digital electronic products.

The utility model improves the structure of the traditional mobile power supply, and realizes the functions of portability, convenient charging and good universality: be equipped with the clamping structure who is used for pressing from both sides tight fixed unmanned aerial vehicle remote controller on casing 1, clamping structure includes fixed plate 2, ejector pin 3 and roof 4, and fixed plate 2 is equipped with two, and two fixed plate 2 are parallel to each other and the vertical fixation is on the side on casing 1, is used for holding the unmanned aerial vehicle remote controller between two fixed plate 2, and to this embodiment, the side that sets up two fixed plate 2 on casing 1 is the front of casing. Each fixed plate 2 is provided with two ejector rods 3 arranged at intervals, the ejector rods 3 are provided with external threads, the fixed plates 2 are provided with threaded holes for the ejector rods 3 to penetrate, one end of each ejector rod 3 is positioned on the outer sides of the two fixed plates 2 and is a screwing end, and the other end of each ejector rod 3 extends into a space between the two fixed plates 2 and is a clamping end; the screwing end of the ejector rod 3 is provided with a screwing handle 12, so that an operator can operate the ejector rod 3 conveniently, the clamping end of the ejector rod 3 is rotatably connected with the top plate 4 through a bearing 13, the bearing is arranged, the top plate 4 can not rotate together with the ejector rod 3, and the size and shape of the top plate 4 are high in freedom. As shown in fig. 3, during the use, adjust ejector pin 3, can make roof 4 press from both sides tight unmanned aerial vehicle remote controller 10 in unmanned aerial vehicle remote controller 10's both sides, for the frictional force between increase and the unmanned aerial vehicle remote controller 10, prevent the slippage, one side of roof 4 dorsad ejector pin 3 is equipped with the sheet rubber 5, the frictional force between sheet rubber and the unmanned aerial vehicle remote controller is great, can play the effect that prevents the slippage, can press from both sides tight stability better.

The direct power supply device for the remote controller of the unmanned aerial vehicle has the following use process: when the electric quantity of the unmanned aerial vehicle remote controller is insufficient, the unmanned aerial vehicle remote controller can be placed on the shell along the direction of the back surface of the unmanned aerial vehicle remote controller towards one side surface of the shell, wherein the side surface is provided with the fixing plates, the unmanned aerial vehicle remote controller is positioned between the two fixing plates, the ejector rods on the fixing plates are screwed, so that the unmanned aerial vehicle remote controller is clamped and fixed between the top plates on the two sides, and then the output interface and the unmanned aerial vehicle remote controller are connected through an external circuit to start charging; the utility model has the advantages that the outdoor charging can be conveniently realized, the power can be directly supplied to the unmanned aerial vehicle remote controller after the battery is damaged, and the unmanned aerial vehicle remote controller is firmly clamped on the shell in the charging process; this unmanned aerial vehicle remote controller direct power supply unit adopts the clamping structure to press from both sides tight unmanned aerial vehicle remote controller, has general, portable, makes things convenient for remote control operation's when charging advantage, can solve among the prior art that the unmanned aerial vehicle remote controller charges inconveniently, uses limited problem when unmanned aerial vehicle remote controller battery damages.

Furthermore, a wire collecting groove is formed in one side face, back to the fixing plate, of the shell, and a spring wire clamp used for clamping and fixing an external circuit is arranged at the bottom of the wire collecting groove.

The opposite surface back to the front of the shell 1 is the back of the shell 1, in the utility model, the back of the shell 1 is provided with the inward concave line collecting groove 8, the groove bottom of the line collecting groove 8 is provided with the spring wire clamp 9, when the external circuit is longer and is inconvenient for an operator to operate, the external circuit can be tightly clamped and fixed in the line collecting groove 8 through the spring wire clamp 9 after being wound, and the novel wire collecting device is attractive and elegant in appearance and convenient to use. Unnecessary external connection circuit when unmanned aerial vehicle remote controller charges can fix inside the line concentration groove through the spring clamp after twining, and the design is comparatively humanized, and unnecessary circuit influences operating personnel remote control operation when can avoiding charging.

The direct power supply device for the remote controller of the unmanned aerial vehicle has the following use process: as shown in fig. 3, with the front of the unmanned aerial vehicle remote controller 10 back towards casing 1, place it on casing 1's front and make unmanned aerial vehicle remote controller 10 be located between two fixed plates 2, adjust ejector pin 3 on the fixed plate 2, make roof 4 firmly press from both sides tight unmanned aerial vehicle remote controller 10, later with external circuit 11 connection unmanned aerial vehicle remote controller interface and output interface 7, begin to charge. When necessary, can accomodate external circuit inside line concentration groove 8, fix through spring clamp 9, prevent that external circuit overlength from hindering the operation. In conclusion, the direct power supply device for the unmanned aerial vehicle remote controller has multiple advantages while realizing the power supply function, when charging, the unmanned aerial vehicle remote controller is directly clamped and fixed on the shell, the unmanned aerial vehicle remote controller and the shell are tightly combined into a whole, and an operator can directly hold the shell to remotely control the unmanned aerial vehicle remote controller when charging; the clamping structure has the advantages that the universality is good, the size of the unmanned aerial vehicle remote controller in the direction parallel to the fixed plate 2 and the shell 1 is not limited, the structural design of the clamping structure is suitable for appearance shapes of various unmanned aerial vehicle remote controllers, and the application range is wide.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the overall concept of the present invention, and these should also be considered as the protection scope of the present invention.

Claims (4)

1. The utility model provides a direct power supply unit of unmanned aerial vehicle remote controller, includes the casing of box type, and the casing is inside to be equipped with and to be used for the electric core to the power supply of unmanned aerial vehicle remote controller, is equipped with the input interface that is used for through the output interface of external line connection unmanned aerial vehicle remote controller and is used for charging to electric core on the casing, characterized by:

the clamping structure is used for clamping and fixing the unmanned aerial vehicle remote controller and mainly comprises an ejector rod, a top plate and two fixing plates which are parallel to each other, the two fixing plates are vertically fixed on one side face of the shell, the unmanned aerial vehicle remote controller is accommodated between the two fixing plates, threaded holes are formed in the fixing plates, and external threads are formed in the ejector rod; the ejector rod is threaded in the threaded hole, one end of the ejector rod is positioned outside the two fixing plates and is a screwing end, the other end of the ejector rod extends into the space between the two fixing plates and is a clamping end, and the top plate is rotatably assembled at the clamping end of the ejector rod through a bearing; during the use, the unmanned aerial vehicle remote controller is located between two fixed plates, makes the roof press from both sides tight unmanned aerial vehicle remote controller through revolving to twist the ejector pin.

2. The direct power supply device for the remote controller of the unmanned aerial vehicle as claimed in claim 1, wherein each fixing plate is provided with two push rods arranged at intervals.

3. The direct power supply device for the remote controller of the unmanned aerial vehicle as claimed in claim 1, wherein a rubber sheet for contact fit with the remote controller of the unmanned aerial vehicle is provided on a side of the top plate facing away from the ejector rod.

4. The direct power supply device of the unmanned aerial vehicle remote controller as claimed in any one of claims 1 to 3, wherein a wire collecting groove is formed on a side surface of the housing facing away from the fixing plate, and a spring wire clamp for clamping and fixing an external circuit is arranged at the bottom of the wire collecting groove.

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