CN218958576U - Charging equipment - Google Patents

Abstract

The utility model belongs to the technical field of unmanned aerial vehicles, and particularly relates to a charging device, which comprises a charging device shell, wherein the charging device shell comprises a plurality of layers of charging layers which are arranged step by step from bottom to top, a front region, a middle region and a rear region of each layer of charging layer are divided into a charging seat assembly region, a power supply assembly region and a charging seat assembly region through two long vertical plates, and the charging seat assembly region of the charging layer of the upper layer is retracted to the middle part of the charging layer by a distance compared with the charging seat assembly region of the charging layer of the next layer. Many charging seats are installed to the charging seat assembly region of every layer of charge layer, can charge for many batteries simultaneously, and charging efficiency is high, and it is easy and simple to handle to charge, and the charging seat assembly region of last layer charge layer compares the charging seat assembly region of next layer charge layer to the middle part indentation one section distance of charge layer for charging operating personnel more easily sees the charging seat, inserts the battery and gets the battery and more easily operate, and the charging operation is more simple and convenient.

Description

Charging equipment

Technical Field

The utility model belongs to the technical field of unmanned aerial vehicles, and particularly relates to charging equipment.

Background

Currently, with the popularity of unmanned aerial vehicle formation performances, the number of unmanned aerial vehicles for formation performances is increasing. However, the unmanned aerial vehicle battery of each team performance manufacturer is not unified nor is a universal charger available. By using the balance charger to charge the batteries, not only is the patch cord manufactured, but also the number of rechargeable batteries is small, the efficiency is low, and the operation is inconvenient. Is difficult to meet the market demand for efficient charging of large-scale batteries.

Through the above analysis, the problems and defects existing in the prior art are as follows:

(1) The number of batteries that can be charged simultaneously is small.

(2) The charging efficiency is low.

(3) The charging operation is not convenient enough.

(4) The patch cord needs to be fabricated.

The difficulty of solving the problems and the defects is as follows: a deeper understanding of structural design and non-calibrated manufacturing requirements is needed.

The meaning of solving the problems and the defects is as follows: the design of the charging equipment which can charge a large number of batteries simultaneously and has high charging efficiency and simple and convenient charging operation has important practical significance.

Disclosure of Invention

The utility model aims to solve the problems in the prior art, and provides charging equipment which can charge a large number of batteries at the same time, has high charging efficiency and is simple and convenient to charge.

The technical scheme adopted by the utility model for solving the problem is as follows:

the utility model provides a charging equipment, includes the charging equipment shell, the charging equipment shell includes a plurality of layers by the charging layer of arranging step by step down to last, every layer on the charging layer through the long riser of twice with its preceding, well, back region partition for charging seat assembly region, power assembly region, charging seat assembly region, and last layer the charging seat assembly region of charging layer compares the charging seat assembly region of next layer charging layer to the middle part indentation one distance of charging layer.

Preferably, the charging layer comprises a horizontal plate and two long vertical plates which extend along the length direction of the horizontal plate and are vertically arranged, the length of the horizontal plate of each charging layer is the same, and the width of each charging layer is gradually decreased from bottom to top.

Further preferably, the horizontal plate of the charging layer of the upper layer fully covers the power supply assembly area of the next layer of charging layer, the horizontal plate of the charging layer of the upper layer partially covers the charging seat assembly area of the next layer of charging layer, and a plurality of assembly positions for placing the charging seat are uniformly distributed on the charging seat assembly area along the length direction of the charging seat assembly area.

Further preferably, the long vertical plates are provided with assembly holes for the connection terminals to pass through at positions corresponding to the assembly positions, a power module is arranged between the two long vertical plates of each charging layer, and a branching plate electrically connected with the power module is arranged on one side, close to the long vertical plates, of the power assembly area.

Further preferably, a groove-shaped area for storing the power line is surrounded by an arc-shaped plate in the charging seat assembly area of the uppermost charging layer, and a plurality of short vertical plates for separating assembly positions are arranged on the remaining charging seat assembly areas of the charging layers at intervals.

Further preferably, the charging equipment shell comprises a left side plate and a right side plate which are used for sealing the left side and the right side of the charging layer, wherein the left side plate and the right side plate are all L-shaped and all comprise a transverse side plate and a vertical side plate which are integrally formed, radiating holes are uniformly formed in the vertical side plate, and inward flanging is formed at the edges of the left side plate and the right side plate

Still preferably, the charging equipment housing further comprises a top cover for closing a power supply assembly area of the uppermost charging layer, vertical edges are respectively formed on the front side and the rear side of the top cover downwards, and crimping nuts are pressed on the inner sides of the vertical edges.

Further preferably, the front and rear sides of the horizontal plate are respectively formed with flanges downwards, the left and right sides of the horizontal plate are respectively formed with vertical edges upwards/downwards, the inner sides of the vertical edges are pressed with compression nuts, the upper sides of the short vertical plates are formed with transverse flanges, and the lower sides of the transverse flanges are pressed with the compression nuts.

Still preferably, the long riser on the layer that charges of the uppermost layer still is equipped with and is used for assembling the socket of article word socket, be used for the on-off position of assembly switch and be used for the fuse seat of assembly fuse seat, be equipped with the handle position that is used for assembling the handle on the top cap, the lowermost layer the horizontal plate lower part evenly distributed on the layer that charges has the callus on the sole.

Further preferably, the charging seat comprises an upper shell, a lower shell and a PC board, a groove-shaped charging cavity is formed in the upper shell of the charging seat, a connector is arranged at one end of the charging cavity, an indicator lamp is arranged at the other end of the charging cavity, and a wiring terminal electrically connected with the connector is arranged at one end of the charging seat.

The utility model has the advantages and positive effects that:

1. in the utility model, a plurality of charging seats are arranged in the charging seat assembly area of each layer of charging layer, so that a plurality of batteries can be charged at the same time, the charging efficiency is high, and the charging operation is simple and convenient.

2. In the utility model, compared with the charging seat assembly area of the next charging layer, the charging seat assembly area of the last charging layer is retracted to the middle part of the charging layer by a certain distance, so that a charging operator can more easily see the charging seat, and the battery can be inserted into the charging seat to be taken out, thus the charging operation is simpler and more convenient.

3. In the utility model, each layer of charging layer is taken as a whole, and when the charging equipment is installed or disassembled, only the screws on the left side plate, the right side plate and the top cover are required to be installed or disassembled, and the assembly workload can be reduced without disassembling too many screws, so that the charging equipment is convenient to install and maintain, high in structural strength and light in weight.

Drawings

The technical solution of the present utility model will be described in further detail below with reference to the accompanying drawings and examples, but it should be understood that these drawings are designed for the purpose of illustration only and thus are not limiting the scope of the present utility model. Moreover, unless specifically indicated otherwise, the drawings are intended to conceptually illustrate the structural configurations described herein and are not necessarily drawn to scale.

Fig. 1 is an exploded view of a charging device housing of the present utility model;

FIG. 2 is a schematic bottom view of the charging device of the present utility model;

FIG. 3 is a schematic diagram of a first charging layer of the charging device of the present utility model;

FIG. 4 is a schematic diagram of the charging device of the present utility model with the charging stand, the power module, and the splitter plate removed from the first charging layer;

fig. 5 is a schematic structural view of the charging stand.

In the figure: 1-a charging device housing; 101-a first charge layer; 102-a second charge layer; 103-a third charge layer; 104-a fourth charge layer; 105-top cover; 106-left side plate; 107-right side plate; 2-a charging stand; 201-upper shell; 202-a lower shell; 203-a charging chamber; 204-connectors; 205-indicator lights; 206-connecting terminals; 3-an insert seat; 4-switching bits; 5-fuse seats; 6-lifting handle position; 7-foot pads; 8-a power module; 9-branching plates; 10-horizontal plates; 11-long vertical plates; 12-assembling bits; 13-fitting holes; 14-arc plates; 15-short vertical plates; 16-heat dissipation holes; a is a charging seat assembly area; b-power supply assembly area.

Detailed Description

First, it should be noted that the following detailed description of the specific structure, characteristics, advantages, and the like of the present utility model will be given by way of example, however, all descriptions are merely illustrative, and should not be construed as limiting the present utility model in any way. Furthermore, any single feature described or implied in the embodiments mentioned herein, or any single feature shown or implied in the figures, may nevertheless be continued in any combination or pruning between these features (or equivalents thereof) to obtain still further embodiments of the utility model that may not be directly mentioned herein. In addition, for the sake of simplicity of the drawing, identical or similar features may be indicated at one point in the same drawing.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "configured," "connected," "secured," "screwed," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intermediaries, or in communication with each other or in interaction with each other, unless explicitly defined otherwise, the meaning of the terms described above in this application will be understood by those of ordinary skill in the art in view of the specific circumstances. The present utility model will be described in detail with reference to fig. 1 to 5.

Examples:

the utility model provides a charging equipment, includes charging equipment shell 1, charging equipment shell 1 includes a plurality of layers by the charging layer of arranging step by step down to last, every layer on the charging layer through the long riser 11 of twice with its preceding, well, back region partition for charging seat assembly region A, power assembly region B, charging seat assembly region A, and last layer charging seat assembly region A of charging layer compares the charging seat assembly region A of next layer charging layer to the middle part indentation one section distance of charging layer, and this indentation distance is preferred in order to be seen the charging seat of the charging seat assembly region A of next layer.

In this embodiment, a plurality of assembly position 12 that is used for placing charging seat 2 have evenly been arranged along its length direction on the charging seat assembly region A, place power module on the power assembly region B, and this battery charging outfit can charge a large amount of batteries simultaneously, and charging efficiency is high, and the charging operation is simple and convenient, and last layer charging seat assembly region A on charge layer compares the charging seat assembly region A on next layer charge layer to the middle part indentation one distance on charge layer for charging operating personnel sees the charging seat more easily, inserts the battery and gets the battery more easily operation.

Still further, it is still considered in this embodiment that the layer that charges includes horizontal plate 10 and twice along the long riser 11 that horizontal plate 10's length direction extended and set up perpendicularly, every layer the horizontal plate 10 length on layer charges is the same, and the width progressively decreases from bottom to top, and every layer charges the layer and as a whole, installs and dismantles the charger and need not dismantle too much screw, reduces assembly work load, the installation and maintenance of being convenient for, structural strength is high, light in weight. .

Still further, it may be considered that, in this embodiment, the horizontal plate 10 of the upper layer of the charging layer fully covers the power supply assembly area B of the next layer of the charging layer, the horizontal plate above the power supply assembly area B may cover the upper position of the power supply assembly area B, the horizontal plate 10 of the upper layer of the charging layer partially covers the charging seat assembly area a of the next layer of the charging layer, so as to facilitate battery insertion/removal, and a plurality of assembly positions 12 for placing the charging seat 2 are uniformly arranged on the charging seat assembly area a along the length direction thereof.

Furthermore, it may be considered that in this embodiment, the long upright plate 11 is provided with an assembly hole 13 corresponding to each assembly bit 12 for the connection terminal to pass through, and in this embodiment, the assembly hole 13 is a square hole, a power module 8 is disposed between two long upright plates 11 of each charging layer, a branching plate 9 electrically connected to the power module 8 is disposed on a side, close to the long upright plate 11, of the power assembly area B, that is, the power module is located between two long upright plates of each charging layer, and the branching plates are located at two sides of the power module.

Furthermore, in this embodiment, it may be considered that the charging seat assembly area a of the uppermost layer is surrounded by an arc plate 14 to form a groove-shaped area for storing the power cord, and the uppermost layer of the charging layer is formed by splicing a horizontal plate, two long vertical plates and an arc plate, and the splicing manner may be riveting, welding, screw-nut connection or fastening.

Still further, it is considered that in this embodiment, a plurality of short vertical plates 15 for separating the assembly bits 12 are disposed at intervals in the charging seat assembly area a of the remaining charging layers, that is, the remaining charging layers except for the uppermost charging layer are formed by combining and splicing a horizontal plate, two long vertical plates and a plurality of short vertical plates, the splicing manner can be riveting, welding, screw-nut connection or fastening, and the like, each charging layer is connected as a whole, when the charging device is installed or disassembled, only the screws on the left side plate, the right side plate and the top cover are required to be installed or disassembled, and the assembly workload can be reduced without disassembling too many screws, so that the charging device is convenient to install and maintain, and has high structural strength and light weight.

Still further, it is also contemplated in this embodiment that the charging device housing 1 includes a left side plate 106 and a right side plate 107 for closing the left and right sides of the charging layer, where the left side plate 106 and the right side plate 107 are all L-shaped and include an integrally formed lateral side plate and a vertical side plate, and the vertical side plate is uniformly provided with heat dissipation holes 16, and edges of the left side plate 106 and the right side plate 107 are formed with inward flanges.

Still further, it is also contemplated in this embodiment that the charging device housing 1 further includes a top cover 105 for closing the power supply assembly area of the uppermost charging layer, and vertical sides are formed downward on the front and rear sides of the top cover 105, respectively, and a crimp nut is pressed on the inner side of the vertical sides.

Still further, it is also contemplated in this embodiment that the front and rear sides of the horizontal plate 10 are respectively formed with flanges downward, the left and right sides of the horizontal plate 10 are respectively formed with upright sides upward/downward, the inner sides of the upright sides are pressed with the press-fit nuts, the upper sides of the short upright plates 15 are formed with transverse flanges, and the lower sides of the transverse flanges are pressed with the press-fit nuts.

In this embodiment, each charging layer is connected to the top cover, the left side plate and the right side plate by screws.

Still further, it may be considered in this embodiment that the long vertical plate of the charging layer at the uppermost layer is further provided with a socket position 3 for assembling a delta socket, a switch position 4 for assembling a switch, and a fuse seat position 5 for assembling a fuse seat, the top cover 105 is provided with a handle position 6 for assembling a handle, and foot pads 7 are uniformly distributed at the lower part of the horizontal plate of the charging layer at the lowermost layer.

Wherein: the delta-shaped socket is positioned at one end of the long vertical plate of the uppermost charging layer and is used for being connected with commercial power, the delta-shaped socket supplies power for the power module, and the power module supplies power for the charging seat through the branching plate; the switch is positioned beside the delta socket and used as a main switch for controlling the charging equipment to be electrified; the fuse seat is positioned on the long vertical plate of the uppermost charging layer; the handle is positioned at the middle position above the charging equipment; the callus on the sole is glued in the battery charging outfit bottom.

Still further, it is also contemplated in this embodiment that the charging stand 2 includes an upper case 201, a lower case 202 and a PCB board, a groove-shaped charging cavity 203 is formed on the upper case 201 of the charging stand 2, a connector 204 is disposed at one end of the charging cavity 203, an indicator 205 is disposed at the other end of the charging cavity, and a connection terminal 206 electrically connected to the connector 204 is disposed at one end of the charging stand 2.

Application example:

taking this application example as an example, as shown in fig. 1, four charging layers are disposed in the charging device housing 1, and a first charging layer 101, a second charging layer 102, a third charging layer 103, and a fourth charging layer 104 are disposed from bottom to top. The first charging layer 101, the second charging layer 102, the third charging layer 103, the fourth charging layer 104, the top cover 105, the left side plate 106 and the right side plate 107 are all sheet metal members, and the materials are preferably metal materials such as stainless steel or aluminum alloy. Every layer all is equipped with the crimping nut on the layer that charges, and the battery charging outfit shell passes through screw connection. Because the charger of performance place is often put on ground, consequently, first charge layer 101, second charge layer 102, third charge layer 103, fourth charge layer 104 front and back both sides are in proper order compares preceding plywood to retract a section distance for charging the operating personnel and seeing the charging seat more easily, insert the battery and get the battery more easy operation.

Furthermore, in this application example, it may be considered that the first charging layer 101, the second charging layer 102, and the third charging layer 103 have the same configuration and are formed by combining and splicing a horizontal plate 10, two long vertical plates 11, and six short vertical plates 15, and the splicing manner may be riveting, welding, screw-nut connection, or fastening. Therefore, each charging layer serves as a whole, the charger is installed and detached without disassembling excessive screws, the assembly workload is reduced, the installation and maintenance are convenient, the structural strength is high, and the weight is light.

Further, in this application, it is also conceivable that the horizontal plate 10 has vertical edges on the left and right sides, and that press nuts are pressed on the inner sides of the vertical edges, and the press nuts are used to fix the horizontal plate 10 to the left side plate 106 and the right side plate 107. The front side and the rear side of the horizontal plate are provided with downward flanging, so that arms can be prevented from being cut when a charging person works.

Further, it is also conceivable in this application that the short riser 15 has a transverse flange on its upper side, and a crimp nut is pressed under the transverse flange, which crimp nut is used for fixing between the horizontal plates of the respective layers and the short riser.

Further, in this application, it may be considered that the fourth charging layer 104 is formed by splicing a horizontal plate 10, two long vertical plates 11 and an arc plate 14, and the splicing manner may be riveting, welding, screw-nut connection or fastening. The left and right sides of the horizontal plate are provided with vertical edges, and the inner sides of the vertical edges are pressed with compression nuts. The crimp nut functions in concert with the remaining charge layer. The groove-shaped area formed by splicing the arc plates is used for storing the power line. The front side and the rear side of the horizontal plate are provided with downward flanging, so that arms can be prevented from being cut when a charging person works.

Further, in this application, it is also conceivable that the top cover 105 has vertical edges on the front and rear sides, and press nuts are pressed on the inner sides of the vertical edges for fixing the top cover 105 to the long vertical plate 11 of the fourth charging layer 104.

Still further, it is considered that in this application example, the left side plate 106 and the right side plate 107 are L-shaped, the two sides are both opened with heat dissipation holes 16 for heat dissipation in the charging device, and the edges are both provided with inward flanges for preventing arms from being cut during the working of the charging personnel.

Furthermore, in this application example, the charging stand includes an upper case, a lower case and a PCB board, the upper case of the charging stand has a groove-shaped charging cavity, and the front end of the groove-shaped charging cavity has a connector and the rear end has an indicator light. The connector is matched with a connector on a battery, and can be directly plugged for charging.

Still further, it is contemplated in this application that the horizontal plate mounting members 12 of each layer may be, but are not limited to, square holes to facilitate heat dissipation from the charging stand, with two screw holes at the square holes for mounting the charging stand 2. When the charging seat is installed on the charging layer, the square boss (containing the wiring terminal 206) in front of the charging seat 2 is firstly inserted into the assembly hole 13 (square hole) on the long vertical plate of each layer, the wiring terminal 206 in front of the charging seat is connected to the branching plate 9 through wiring, one end of the branching plate 9 is provided with a connector which is connected with the power module through a wire to take electricity, the power input end of the power module is connected with the delta socket at one end of the long vertical plate of the fourth charging layer, the middle of the power input end of the power module is connected with the delta socket at one end of the long vertical plate of the fourth charging layer, the switch and the fuse socket are connected in series, the charging equipment is connected with the commercial power, a common 3C safety authentication power line on the market is needed, and finally the branching plate 9 distributes electricity to each charging seat through the mode.

In this application example, a plurality of charging seats are installed in the charging seat assembly area a of each charging layer, so that a plurality of batteries can be charged at the same time. When the charger 9 (charging equipment) is overhauled, only the left side plate, the right side plate and the top cover are usually required to be disassembled, namely, only screws for fixing the side plates are required to be disassembled. Therefore, the maintenance is very convenient.

It should be noted that: when the utility model is assembled, the assembly can be carried out in sequence from bottom to top, and finally the left side plate and the right side plate are installed. It is noted that the handle needs to be mounted on the handle position of the top cover in advance, and the charger can be carried by lifting the handle. The callus on sole is glued in the bottom of battery charging outfit for make charger and ground interval, prevent bottom plate wearing and tearing.

What needs to be further explained is: the specific structure, working principle and circuit structure of the delta socket, switch position, fuse holder, power module, branching plate, wiring terminal, connector, indicator light and battery are all prior art, and are not innovation points of the application, so they are not described in detail.

The foregoing examples illustrate the utility model in detail, but are merely preferred embodiments of the utility model and are not to be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by the present utility model.

Claims (10)

1. Charging device comprising a charging device housing (1), characterized in that: the charging equipment shell (1) comprises a plurality of layers of charging layers which are arranged step by step from bottom to top, each layer of charging layer is divided into a charging seat assembly area (A), a power supply assembly area (B) and a charging seat assembly area (A) by two long vertical plates (11), and the charging seat assembly area (A) of the upper layer of charging layer is retracted to the middle part of the charging layer by a distance compared with the charging seat assembly area (A) of the lower layer of charging layer.

2. A charging apparatus according to claim 1, wherein: the charging layer comprises a horizontal plate (10) and two long vertical plates (11) which extend along the length direction of the horizontal plate (10) and are vertically arranged, the length of the horizontal plate (10) of each layer of the charging layer is the same, and the width of the horizontal plate is gradually decreased from bottom to top.

3. A charging apparatus according to claim 2, wherein: the horizontal plate (10) of the upper layer of the charging layer fully covers the power supply assembly area (B) of the lower layer of the charging layer, the horizontal plate (10) of the upper layer of the charging layer partially covers the charging seat assembly area (A) of the lower layer of the charging layer, and a plurality of assembly positions (12) for placing the charging seat (2) are uniformly distributed on the charging seat assembly area (A) along the length direction of the charging seat assembly area.

4. A charging apparatus according to claim 3, wherein: the long vertical plates (11) are provided with assembly holes (13) for the wiring terminals to pass through at positions corresponding to the assembly positions (12), a power module (8) is arranged between the two long vertical plates (11) of each charging layer, and a branching plate (9) electrically connected with the power module (8) is arranged on one side, close to the long vertical plates (11), of the power assembly area (B).

5. A charging device according to any one of claims 2-4, characterized in that: a groove-shaped area for storing a power line is surrounded by an arc-shaped plate (14) in a charging seat assembly area (A) of the uppermost charging layer, and a plurality of short vertical plates (15) for separating assembly bits (12) are arranged on the remaining charging seat assembly areas (A) of the charging layers at intervals.

6. A charging apparatus according to claim 5, wherein: the charging equipment shell (1) comprises a left side plate (106) and a right side plate (107) which are used for sealing the left side and the right side of a charging layer, wherein the left side plate (106) and the right side plate (107) are L-shaped and comprise a transverse side plate and a vertical side plate which are integrally formed, radiating holes (16) are uniformly formed in the vertical side plate, and inward flanging is formed at the edges of the left side plate (106) and the right side plate (107).

7. A charging apparatus according to claim 6, wherein: the charging equipment shell (1) further comprises a top cover (105) for closing a power supply assembly area of the uppermost charging layer, vertical edges are respectively formed on the front side and the rear side of the top cover (105) downwards, and crimping nuts are pressed on the inner sides of the vertical edges.

8. A charging apparatus according to claim 7, wherein: the flange is formed downwards on the front side and the rear side of the horizontal plate (10), the vertical edges are formed upwards/downwards on the left side and the right side of the horizontal plate (10), the crimp nuts are pressed on the inner sides of the vertical edges, the transverse flange is formed on the upper side of the short vertical plate (15), and the crimp nuts are pressed on the lower sides of the transverse flange.

9. A charging apparatus as claimed in claim 8, wherein: the long vertical plate of the charging layer at the uppermost layer is also provided with a socket position (3) for assembling a delta socket, a switch position (4) for assembling a switch and a fuse seat position (5) for assembling a fuse seat, the top cover (105) is provided with a handle position (6) for assembling a handle, and foot pads (7) are uniformly distributed at the lower part of the horizontal plate of the charging layer at the lowermost layer.

10. A charging apparatus as claimed in claim 4, wherein: the charging seat (2) comprises an upper shell (201), a lower shell (202) and a PCB (printed circuit board), a groove-shaped charging cavity (203) is formed in the upper shell (201) of the charging seat (2), a connector (204) is arranged at one end of the charging cavity (203), an indicator lamp (205) is arranged at the other end of the charging cavity, and a wiring terminal (206) electrically connected with the connector (204) is arranged at one end of the charging seat (2).

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