CN214357525U - A equipment for packing for unmanned aerial vehicle - Google Patents

Abstract

The utility model provides a equipment for packing for unmanned aerial vehicle, including transportation bottom plate and support bottom block, support bottom block fixed connection in the bottom both sides of transportation bottom plate, the transportation bottom plate sets up to the grid plate, and the fixed surface of transportation bottom plate is connected with first installing frame and second installing frame, and the inboard of second installing frame sets up the protection curb plate, and the inboard embedding of first installing frame is provided with the regulating plate, and the both ends fixedly connected with embedding head of regulating plate. Through the spacing frame structure of first installing frame and second installing frame constitution cost device, effectual each position to unmanned aerial vehicle carries on spacingly fixed, have certain safeguard effect through the protection curb plate, the regulating plate when the adjustment is removed in first installing frame inboard, the wavy gomphosis structure convenient to regulating plate between embedding head and the adjustment tank is adjusted, and possesses certain resistance, when placing unmanned aerial vehicle on the transportation bottom plate, support it through the inboard supporting baseplate of buffering frame.

Description

A equipment for packing for unmanned aerial vehicle

Technical Field

The utility model relates to an unmanned air vehicle technique field, more specifically the utility model relates to a equipment for packing for unmanned aerial vehicle that says so.

Background

The unmanned plane is called unmanned plane for short, and is an unmanned plane operated by radio remote control equipment and a self-contained program control device.

The machine has no cockpit, but is provided with an automatic pilot, a program control device and other equipment. The personnel on the ground, the naval vessel or the mother aircraft remote control station can track, position, remotely control, telemeter and digitally transmit the personnel through equipment such as a radar.

During recovery, the aircraft can automatically land in the same way as a common aircraft landing process, and can also be recovered through a remote control parachute or lifting equipment, so that the aircraft can be repeatedly used for many times.

When the existing unmanned aerial vehicle is packaged at present, all parts such as a body, a middle wing, a left outer wing, a right outer wing, a horizontal tail, a left vertical tail and a right vertical tail of the unmanned aerial vehicle, an antenna housing and the like are respectively packaged by packaging boxes and then are uniformly loaded, and one unmanned aerial vehicle needs at least 4 packaging boxes for packaging, so that the largest defect of the packaging mode is that the space is wasted, and the transportation efficiency is too low; and the assembly, disassembly and disassembly of each package and each part of the product are too time-consuming to meet the current drilling requirement of quick assembly and disassembly.

SUMMERY OF THE UTILITY MODEL

The utility model is used for unmanned aerial vehicle's equipment for packing's purpose is reached by following specific technological means:

the utility model provides a equipment for packing for unmanned aerial vehicle, including transportation bottom plate and support bottom block, support bottom block fixed connection in the bottom both sides of transportation bottom plate, the transportation bottom plate sets up to the grid plate, the first installing frame of fixed surface of transportation bottom plate and second installing frame, the inboard of second installing frame sets up the protection curb plate, the inboard embedding of first installing frame is provided with the regulating plate, the both ends fixedly connected with embedding head of regulating plate, the fixed adjustment tank of having seted up in inside of first installing frame, the fixed surface of transportation bottom plate is connected with the buffering frame, the inboard embedding of buffering frame is provided with the buffer layer, the outside fixedly connected with supporting baseplate of buffer layer, the top joint of first installing frame has spacing frame, the bottom fixedly connected with inoxidizing coating of spacing frame, the both ends embedding of spacing frame is provided with the regulation cardboard, the inner fixedly connected with telescopic link of regulation cardboard.

Further preferred embodiments: the first installation frame is located the top both sides of transportation bottom plate, and the second installation frame is located between the first installation frame, and the size of second installation frame is less than the size of first installation frame.

Further preferred embodiments: first installing frame and second installing frame set up on the positive and negative two sides of the top of transportation bottom plate, and the protection curb plate is the arc indent setting.

Further preferred embodiments: the adjusting plate is vertically embedded into the first mounting frame, and the outer side surface of the embedding head is arranged in a wavy manner.

Further preferred embodiments: the adjustment tank is arranged in the frame structures at the top and the bottom of the first mounting frame, the inner side of the adjustment tank is arranged in a wavy manner, and the adjustment tank and the embedding head are arranged in a matched manner.

Further preferred embodiments: the buffering frame is located the inboard position of first installing frame simultaneously, and the framework surface of buffering frame sets up the triangle cell body of indent.

Further preferred embodiments: the buffer layer is the arc indent setting, and the buffer layer sets up to the rubber layer.

Further preferred embodiments: the supporting bottom plate is located between buffer layer and the buffering frame, and spacing frame is provided with two, and just spacing frame passes through the top border position of adjusting the cardboard joint at first installing frame.

Further preferred embodiments: the inoxidizing coating sets up to the rubber layer, and becomes the arc indent setting, adjusts cardboard bottom surface and is the arc indent setting, and the telescopic link transversely imbeds in spacing frame.

Has the advantages that:

this kind of a equipment for packing for unmanned aerial vehicle through first installing frame and second installing frame constitution cost device's spacing frame structure, effectually carries out spacing fixed to unmanned aerial vehicle's each position, has certain protective effect through the protection curb plate.

This kind of a equipment for packing for unmanned aerial vehicle, regulating plate when first installing frame inboard removes the adjustment, and the wavy gomphosis structure convenient to regulating plate between embedding head and the adjustment tank is adjusted, and possesses certain resistance.

This kind of a equipment for packing for unmanned aerial vehicle places unmanned aerial vehicle on the transportation bottom plate, supports it through the inboard supporting baseplate of buffering frame, and the triangle cell body that buffering frame outside surface set up consolidates buffering frame structure, reinforcing protective effect.

This kind of a equipment for packing for unmanned aerial vehicle through adjustable regulation cardboard, after first installing frame carries out spacing fixed to unmanned aerial vehicle, adjusts the distance between the cardboard adaptation first installing frame to be convenient for fix first installing frame, and the inoxidizing coating reinforcing is to unmanned aerial vehicle's protectiveness.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an enlarged view of the structure at a of the present invention.

Fig. 3 is a schematic view of the structure of the buffer frame of the present invention.

Fig. 4 is a connection cross-sectional view of the structure of the limiting frame of the present invention.

In FIGS. 1-4: transportation bottom plate 1, support bottom block 2, first installing frame 3, second installing frame 4, protection curb plate 5, regulating plate 6, buffering frame 7, spacing frame 8, embedding head 9, adjustment tank 10, buffer layer 11, supporting baseplate 12, inoxidizing coating 13, regulation cardboard 14, telescopic link 15.

Detailed Description

As shown in figures 1 to 4:

the utility model provides a packaging device for unmanned aerial vehicle, which comprises a transportation bottom plate 1 and a supporting bottom block 2, wherein the supporting bottom block 2 is fixedly connected with the two sides of the bottom end of the transportation bottom plate 1, the transportation bottom plate 1 is arranged as a grid plate, the surface of the transportation bottom plate 1 is fixedly connected with a first installation frame 3 and a second installation frame 4, the inner side of the second installation frame 4 is provided with a protective side plate 5, the inner side of the first installation frame 3 is embedded with an adjusting plate 6, the two ends of the adjusting plate 6 are fixedly connected with an embedding head 9, the inner part of the first installation frame 3 is fixedly provided with an adjusting groove 10, the surface of the transportation bottom plate 1 is fixedly connected with a buffer frame 7, the inner side of the buffer frame 7 is embedded with a buffer layer 11, the outer side of the buffer layer 11 is fixedly connected with a supporting bottom plate 12, the top end of the first installation frame 3 is clamped with a limiting frame 8, the bottom end of the limiting frame 8 is fixedly connected with a protective layer 13, the two ends of the limiting frame 8 are embedded with an adjusting clamping plate 14, the inner end of the adjusting clamping plate 14 is fixedly connected with an expansion link 15.

Wherein, first installing frame 3 is located the top both sides of transportation bottom plate 1, and second installing frame 4 is located between first installing frame 3, and 4 sizes of second installing frame are less than the size of first installing frame 3.

Wherein, first installing frame 3 and second installing frame 4 set up on the two sides of the top of transportation bottom plate 1, and protection curb plate 5 is the arc indent setting, constitutes the spacing frame structure of this device through first installing frame 3 and second installing frame 4, and effectual each position to unmanned aerial vehicle carries out spacing fixed, has certain safeguard effect through protection curb plate 5.

Wherein the adjusting plate 6 is vertically embedded in the first mounting frame 3.

Wherein the outer side surface of the embedding head 9 is arranged in a wave shape.

Wherein, adjustment tank 10 is arranged in the frame structure of the top and the bottom of first installing frame 3, and the inboard of adjustment tank 10 is wavy setting, and adjustment tank 10 sets up with embedding head 9 is supporting, and when adjusting plate 6 moved the adjustment in first installing frame 3 inboard, the wavy gomphosis structure between embedding head 9 and the adjustment tank 10 was convenient for adjusting plate 6 and was adjusted, and possessed certain resistance.

The buffer frame 7 is located at the inner side of the first mounting frame 3, and the frame body surface of the buffer frame 7 is provided with an inward-concave triangular groove body.

Wherein, buffer layer 11 is the arc indent setting, and buffer layer 11 sets up to the rubber layer.

Wherein, supporting baseplate 12 is located between buffer layer 11 and the buffering frame 7, and when placing unmanned aerial vehicle on transportation bottom plate 1, support it through supporting baseplate 12 of buffering frame 7 inboard, the triangle cell body that 7 outside surfaces of buffering frame set up reinforces 7 frame structures of buffering frame, reinforcing protective effect.

Wherein, spacing frame 8 is provided with two, and just spacing frame 8 passes through the top border position of adjusting cardboard 14 joint at first installing frame 3.

Wherein, the protective layer 13 is arranged as a rubber layer and is arranged in an arc shape and is concave.

Wherein, the bottom surface of the adjusting clamping plate 14 is in an arc-shaped concave arrangement.

Wherein, the telescopic link 15 transversely imbeds in spacing frame 8, through adjustable regulation cardboard 14, after first installing frame 3 carries out spacing fixed to unmanned aerial vehicle, adjusts the distance between cardboard 14 adaptation first installing frame 3 to be convenient for fix first installing frame 3, and the protective layer 13 reinforcing is to unmanned aerial vehicle's protectiveness.

Principle of operation

The concrete use of this embodiment mode and effect, when packing the transportation to unmanned aerial vehicle, place it on transportation bottom plate 1, make unmanned aerial vehicle's head and the tail both ends position frame structure's outside both ends, make unmanned family's wing and fin embedding in first installing frame 3, then user of service according to unmanned aerial vehicle's wing and fuselage size regulating plate 6 in the inboard position of first installing frame 3, unmanned aerial vehicle is whole to be supported on buffer layer 11 this moment, buffer layer 11 supports it, cushion it when receiving external force simultaneously, with spacing frame 8 at the top of second installing frame 14 or first installing frame 13 through adjusting 14 joints of cardboard at last, carry out spacing fixed from the top to the installing frame structure.

Claims (9)

1. The utility model provides a equipment for packing for unmanned aerial vehicle, includes transportation bottom plate (1) and support bottom block (2), supports bottom block (2) fixed connection in the bottom both sides of transportation bottom plate (1), its characterized in that: the transportation bottom plate (1) is arranged as a grid plate, the surface of the transportation bottom plate (1) is fixedly connected with a first installation frame (3) and a second installation frame (4), the inner side of the second installation frame (4) is provided with a protective side plate (5), the inner side of the first installation frame (3) is embedded with an adjusting plate (6), two ends of the adjusting plate (6) are fixedly connected with embedding heads (9), the inner part of the first installation frame (3) is fixedly provided with an adjusting groove (10), the surface of the transportation bottom plate (1) is fixedly connected with a buffer frame (7), the inner side of the buffer frame (7) is embedded with a buffer layer (11), the outer side of the buffer layer (11) is fixedly connected with a support bottom plate (12), the top end of the first installation frame (3) is clamped with a limit frame (8), the bottom end of the limit frame (8) is fixedly connected with a protective layer (13), two ends of the limit frame (8) are embedded with an adjusting clamping plate (14), the inner end of the adjusting clamping plate (14) is fixedly connected with an expansion link (15).

2. The packaging apparatus for unmanned aerial vehicle of claim 1, wherein: the first installation frames (3) are located on two sides of the top end of the transportation bottom plate (1), the second installation frames (4) are located between the first installation frames (3), and the size of each second installation frame (4) is smaller than that of each first installation frame (3).

3. The packaging apparatus for unmanned aerial vehicle of any one of claims 1 or 2, wherein: the first mounting frame (3) and the second mounting frame (4) are arranged on the front face and the back face of the top end of the transportation bottom plate (1), and the protection side plate (5) is arranged in an arc-shaped concave manner.

4. The packaging apparatus for unmanned aerial vehicle of claim 1, wherein: the adjusting plate (6) is vertically embedded into the first mounting frame (3), and the outer side surface of the embedding head (9) is arranged in a wavy manner.

5. The packaging apparatus for unmanned aerial vehicle of claim 1, wherein: the adjusting groove (10) is located in the frame structures at the top and the bottom of the first mounting frame (3), the inner side of the adjusting groove (10) is arranged in a wavy manner, and the adjusting groove (10) and the embedding head (9) are arranged in a matched manner.

6. The packaging apparatus for unmanned aerial vehicle of claim 1, wherein: the buffer frame (7) is located at the inner side of the first installation frame (3) at the same time, and an inwards concave triangular groove body is arranged on the surface of the frame body of the buffer frame (7).

7. The packaging apparatus for unmanned aerial vehicle of claim 1, wherein: the buffer layer (11) is arranged in an arc-shaped concave manner, and the buffer layer (11) is arranged as a rubber layer.

8. The packaging apparatus for unmanned aerial vehicle of claim 1, wherein: the supporting bottom plate (12) is located between the buffer layer (11) and the buffer frame (7), the number of the limiting frames (8) is two, and the limiting frames (8) are connected to the top edge of the first installation frame (3) in a clamped mode through the adjusting clamping plates (14).

9. The packaging apparatus for unmanned aerial vehicle of claim 1, wherein: the protective layer (13) is arranged to be a rubber layer and arranged in an arc-shaped concave manner, the surface of the bottom of the adjusting clamping plate (14) is arranged in an arc-shaped concave manner, and the telescopic rod (15) is transversely embedded into the limiting frame (8).

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