A drone case
By introducing an adjustable screw and threaded sleeve structure into the drone housing, combined with magnetic attraction and omnidirectional wheels, the problem of drone take-off and landing in uneven environments is solved, realizing a convenient and stable take-off and landing platform.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHINA ACAD OF CIVIL AVIATION SCI & TECH
- Filing Date
- 2025-08-25
- Publication Date
- 2026-06-23
AI Technical Summary
Existing drone boxes cannot provide a stable take-off and landing platform in uneven environments, affecting the use of drones.
By designing an adjustable screw and threaded sleeve structure, combined with magnetic connection and casters, the horizontal adjustment and fixation of the housing can be achieved, forming a stable lifting platform.
In uneven environments, the container can be quickly leveled to provide a stable take-off and landing platform, facilitating the use and storage of drones.
Smart Images

Figure CN224393385U_ABST
Abstract
Description
TECHNICAL FIELD
[0001] The utility model relates to unmanned plane equipment technical field especially, relates to a unmanned plane box. BACKGROUND
[0002] The unmanned plane is a kind of not carrying plane that is manipulated using radio remote control equipment and self-provided program control device, it has great application range in civil application field, including and not limited to in the field such as aerial photography, agriculture, plant protection, miniature self-portrait, express delivery, disaster rescue, observing wild animals, monitoring infectious diseases, surveying and mapping, news report, power patrol, disaster relief, film and television shooting, in order to be convenient to carry, store and protect unmanned plane when using, unmanned plane will be placed in the inside of storage box.
[0003] Prior art such as the Chinese patent with the announcement number CN218199670U discloses a kind of unmanned plane storage box, including box and cover, the bottom of the box is fixedly connected with electric cylinder, the movable end of the electric cylinder is fixedly connected with support rod, the top of the support rod is fixedly connected with fixed block, the fixed block lateral wall is rotatably connected with rotating shaft, the end of the rotating shaft away from fixed block is fixedly connected with rotating block, the upper side wall, lower side wall, rear side wall and front side wall of the rotating block are all provided with placing groove, and the size of placing groove is different. By setting electric cylinder, support rod, fixed block, rotating shaft and rotating block, and the upper side wall, lower side wall, rear side wall and front side wall of rotating block are all provided with placing groove of different size, and when electric cylinder ejects rotating block from the inside of box, it is convenient to control rotating block rotation, so that different models of equipment and parts are placed into corresponding placing groove, improve the use range of the storage box. But the utility model only focuses on the storage of unmanned plane, cannot provide stable take-off and landing platform for unmanned plane in uneven terrain environment.
[0004] In order to solve the problem that unmanned plane box is not convenient to provide stable take-off and landing platform for unmanned plane in uneven terrain environment, the unmanned plane storage box in prior art mostly only focuses on storage function, and since the use scene of unmanned plane often involves uneven terrain environment, there is lack of enough stable take-off and landing platform in this case, if additional take-off and landing platform is carried, it is relatively inconvenient, so it needs to be improved. UTILITY MODEL CONTENTS
[0005] The utility model aims at solving the problem that unmanned plane box is not convenient to provide stable take-off and landing platform for unmanned plane in uneven terrain environment in prior art, and provides a kind of unmanned plane box.
[0006] In order to achieve the above object, the utility model discloses the following technical scheme: a unmanned aerial vehicle box, including box one, box two, pivot and adjusting mechanism, pivot and the surface fixed connection of box two, pivot and the inner wall rotation connection of box one, adjusting mechanism is provided with two groups, two groups adjusting mechanism is arranged on the surface of box one and box two respectively,
[0007] The adjusting mechanism includes a screw hole, the screw hole is arranged on the surface of the box one and the box two, the surface of the screw hole is threadedly connected with a screw rod, the surface of the screw rod is threadedly connected with a threaded sleeve, and the surface of the threaded sleeve is fixedly connected with a non-slip pad.
[0008] The surface of the screw rod is fixedly connected with a magnetic ring, the surface of the box one and the box two is provided with a containing groove, the surface of the containing groove is fixedly connected with a magnetic block, and the surface of the magnetic ring and the magnetic block is magnetically connected.
[0009] Further, the surface of the screw rod is fixedly connected with a circular ring, the surface of the circular ring is provided with anti-skid lines, and the number of the anti-skid lines is multiple and uniformly distributed in a circle.
[0010] Further, the number of each group of the screw hole, the screw rod, the threaded sleeve, the non-slip pad, the magnetic ring, the containing groove, the magnetic block and the circular ring is two, and the surface of the box one and the box two is provided with a universal wheel.
[0011] Further, the surface of the box one is slidably provided with a pull handle, and the surface of the box one is fixedly provided with a fixed handle.
[0012] Further, the surface of the box one is provided with an auxiliary mechanism, the auxiliary mechanism includes a sliding groove, the sliding groove is arranged on the surface of the box one, the surface of the sliding groove is slidably connected with a square block, the surface of the pivot is provided with a square groove, and the surface of the square block and the square groove is clamped and connected.
[0013] Further, the surface of the square block is fixedly connected with a spring, the spring is fixedly connected with the surface of the sliding groove, and the surface of the square block is fixedly connected with a push block.
[0014] Further, the number of the sliding groove, the square block, the square groove, the spring and the push block is two, and the two square grooves are symmetrically arranged.
[0015] Compared with the prior art, the utility model has the advantages and positive effects that:
[0016] 1. In this utility model, by setting an adjustment mechanism, a drone can be placed in two boxes, and boxes one and two can be easily moved using pull handles, fixed handles, and casters. When the drone needs to be used, box two is rotated so that the rotating shaft rotates half a turn along the inner wall of box one. Box one and box two form a drone take-off and landing platform. If the terrain is uneven, four sets of screws can be taken out from the receiving slot and tightened into the screw holes. Then, the threaded sleeve is rotated to the appropriate position of the screws according to the ground conditions, and an anti-slip pad is placed on the ground. The adjustable screw and threaded sleeve keep housing one and housing two level, allowing for drone take-off and landing. After use, the screw is removed and returned to the receiving slot, secured with a magnetic ring and magnetic block. Finally, the drone is stored away. By setting up the adjustment mechanism, housing one and housing two can not only store and move drones, but also form a drone take-off and landing platform. In uneven terrain, the adjustable screw and threaded sleeve can keep the platform level, facilitating drone take-off and landing, thus effectively improving the convenience of the equipment.
[0017] 2. In this utility model, by setting a fixing mechanism, the block is driven by the lever to slide along the slide groove. When it disengages from the slide groove, the spring is compressed, which allows the rotating shaft to rotate freely. This allows the second housing to rotate to a state where it is closed with the first housing or to form a lifting platform with the first housing. Then, the lever is released, and the block returns to its original position under the spring's rebound, re-engaging in the slide groove to fix the first and second housings. By setting a fixing mechanism, the rotating shaft can be fixed when the first and second housings are closed or forming a lifting platform, ensuring sufficient stability for the first and second housings and effectively improving the stability of the equipment. Attached Figure Description
[0018] Figure 1 A three-dimensional structural diagram of a drone box is provided for this utility model;
[0019] Figure 2 A bottom-view structural diagram of a drone housing is provided for this utility model;
[0020] Figure 3 This utility model proposes a drone box for use in drones. Figure 2 A schematic diagram of the structure at point A;
[0021] Figure 4 A top view structural diagram of a drone box is provided for this utility model;
[0022] Figure 5 This utility model provides a structural diagram of a drone box in its closed state;
[0023] Figure 6 This utility model proposes a drone box for use in drones. Figure 5A schematic diagram of the structure at point B.
[0024] Legend:
[0025] 1. Box 1; 2. Box 2; 3. Rotating shaft; 4. Adjustment mechanism; 401. Screw hole; 402. Screw; 403. Threaded sleeve; 404. Anti-slip pad; 405. Magnetic ring; 406. Receiving groove; 407. Magnetic block; 408. Ring; 409. Anti-slip texture; 410. Caster wheel; 411. Pull-out handle; 412. Fixed handle; 5. Auxiliary mechanism; 51. Slide groove; 52. Square block; 53. Square groove; 54. Spring; 55. Pulley. Detailed Implementation
[0026] Please see Figures 1-6 This utility model provides a technical solution: a drone box, including a box body 1, a box body 2, a rotating shaft 3 and an adjustment mechanism 4. The rotating shaft 3 is fixedly connected to the surface of the box body 2 and rotatably connected to the inner wall of the box body 1. The adjustment mechanism 4 is provided in two sets, and the two sets of adjustment mechanisms 4 are respectively provided on the surfaces of the box body 1 and the box body 2.
[0027] The specific settings and functions of its adjustment mechanism 4 and auxiliary mechanism 5 will be explained below.
[0028] In this embodiment: the adjustment mechanism 4 includes a screw hole 401, which is opened on the surface of housing 1 and housing 2. A screw rod 402 is threadedly connected to the surface of the screw hole 401, a threaded sleeve 403 is threadedly connected to the surface of the screw rod 402, and an anti-slip pad 404 is fixedly connected to the surface of the threaded sleeve 403.
[0029] A magnetic ring 405 is fixedly connected to the surface of the screw 402. Both the first box 1 and the second box 2 have receiving grooves 406 on their surfaces. A magnetic block 407 is fixedly connected to the surface of the receiving groove 406. The magnetic ring 405 and the surface of the magnetic block 407 are magnetically attracted to each other.
[0030] The effects achieved by the above components are as follows: the screw hole 401 is provided to facilitate the installation of the screw 402; the screw 402 and threaded sleeve 403 are provided to facilitate the movement of the screw 402 to a suitable position by rotating the threaded sleeve 403 after it is installed in the screw hole 401, thereby achieving the adjustment of its support height; the anti-slip pad 404 is provided to increase friction and prevent the threaded sleeve 403 from slipping on the ground; the receiving groove 406 is provided to facilitate the storage of the screw 402 and the threaded sleeve 403; the magnetic ring 405 and the magnetic block 407 are provided to facilitate the weak fixation of the screw 402, which will not allow it to move freely and can also be easily removed from the receiving groove 406.
[0031] Specifically, a ring 408 is fixedly connected to the surface of the screw 402. The surface of the ring 408 is provided with anti-slip textures 409. The anti-slip textures 409 are in multiple sets and are evenly distributed around the circumference.
[0032] The effects achieved by the above components are as follows: the ring 408 is provided to facilitate gripping the screw 402 when tightening the screw 402 with the screw hole 401 and when rotating the threaded sleeve 403; the anti-slip texture 409 is provided to increase friction and prevent slippage when gripping the ring 408.
[0033] Specifically, each set of screw holes 401, screws 402, threaded sleeves 403, anti-slip pads 404, magnetic rings 405, receiving grooves 406, magnetic blocks 407, and circular rings 408 consists of two parts, and both box 1 and box 2 are equipped with casters 410.
[0034] The effects achieved by the above components are as follows: setting two sets of adjustment mechanisms 4, and each set of screw holes 401, screws 402, etc. is set to two, so as to facilitate the use of four sets of support points to support the lifting platform composed of box 1 and box 2; setting universal wheels 410 is to facilitate the movement of box 1 and box 2.
[0035] Specifically, a pull handle 411 is slidably provided on the surface of the housing 1, and a fixed handle 412 is fixedly provided on the surface of the housing 1.
[0036] The effects achieved by the above components are as follows: the pull handle 411 is provided to facilitate gripping when moving the first box 1 and the second box 2 using the casters 410, and the fixed handle 412 is provided to facilitate gripping when the casters 410 are not in use.
[0037] Specifically, the surface of the housing 1 is provided with an auxiliary mechanism 5, which includes a slide 51. The slide 51 is opened on the surface of the housing 1, and a block 52 is slidably connected to the surface of the slide 51. The surface of the rotating shaft 3 is provided with a square groove 53, and the surface of the block 52 is engaged with the surface of the square groove 53.
[0038] The effects achieved by the above components are as follows: the slide groove 51 is set to facilitate the sliding of the block 52, and the block 52 and the square groove 53 are set to facilitate the fixing of the rotating shaft 3 and prevent it from rotating randomly.
[0039] Specifically, a spring 54 is fixedly connected to the surface of block 52, and the spring 54 is fixedly connected to the surface of the slide 51. A toggle block 55 is fixedly connected to the surface of block 52.
[0040] The effects achieved by the above components are as follows: the spring 54 is set so that the block 52 is locked in the square groove 53, and its rebound effect is used to facilitate the reset of the block 52; the toggle block 55 is set so that the block 52 can be toggled.
[0041] Specifically, there are two sets of each of the slide 51, block 52, square groove 53, spring 54 and toggle block 55, and the two sets of square groove 53 are arranged symmetrically.
[0042] The effect achieved by the above components is as follows: setting two sets of blocks 52 and square grooves 53 is to ensure that both sets of blocks 52 are disengaged from the square grooves 53 before the housing 2 and the rotating shaft 3 can be rotated, thus avoiding accidental contact.
[0043] Working principle: By setting the adjustment mechanism 4, the drone can be placed in the housing 1 and housing 2. The pull handle 411, fixed handle 412, and casters 410 facilitate the movement of housing 1 and housing 2. When the drone needs to be used, housing 2 is rotated so that the shaft 3 rotates half a turn along the inner wall of housing 1. Housing 1 and housing 2 form a drone take-off and landing platform. If the terrain is uneven, four sets of screws 402 can be taken out from the receiving slot 406 and tightened into the screw holes 401 respectively. Then, according to the ground conditions, the threaded sleeve 403 is rotated to the appropriate position of the screws 402, and the anti-slip pad 404 is placed on the ground. Four sets of height-adjustable screws 402 and threaded sleeves 403 are used to keep housing 1 and housing 2 level, allowing the drone to take off and land. After use, the screws 402 are removed and returned to the receiving slot 406, and fixed with magnetic rings 405 and magnetic blocks 407. Finally, the drone is stored away. By setting up the adjustment mechanism 4, housing 1 and housing 2 can be used to store and move the drone, and can also form a drone take-off and landing platform. In uneven terrain, the height-adjustable screws 402 and threaded sleeves 403 can be used to keep the platform level, facilitating the take-off and landing of the drone, thus effectively improving the convenience of the equipment.
[0044] Furthermore, by setting up a fixing mechanism, the lever 55 drives the block 52 to slide along the slide groove 51, disengaging from the square groove 53 while pressing the spring 54, allowing the rotating shaft 3 to rotate freely. This allows the housing 2 to rotate to a state where it is closed with housing 1 or forms a lifting platform with housing 1. Then, the lever 55 is released, and the block 52 returns to its original position under the rebound of the spring 54, re-engaging into the square groove 53, thus fixing housing 1 and housing 2. By setting up a fixing mechanism, the rotating shaft 3 can be fixed when housing 1 and housing 2 are closed or forming a lifting platform, ensuring sufficient stability for housing 1 and housing 2, thereby effectively improving the stability of the equipment.
Claims
1. A drone housing, comprising a housing body one (1), a housing body two (2), a rotating shaft (3), and an adjustment mechanism (4), characterized in that: The rotating shaft (3) is fixedly connected to the surface of the second box (2), and the rotating shaft (3) is rotatably connected to the inner wall of the first box (1). The adjustment mechanism (4) is provided in two sets, and the two sets of adjustment mechanisms (4) are respectively provided on the surfaces of the first box (1) and the second box (2). The adjustment mechanism (4) includes a screw hole (401), which is opened on the surface of housing one (1) and housing two (2). A screw rod (402) is threadedly connected to the surface of the screw hole (401), and a threaded sleeve (403) is threadedly connected to the surface of the screw rod (402). An anti-slip pad (404) is fixedly connected to the surface of the threaded sleeve (403). A magnetic ring (405) is fixedly connected to the surface of the screw (402). Both the first box (1) and the second box (2) have a receiving groove (406) on their surfaces. A magnetic block (407) is fixedly connected to the surface of the receiving groove (406). The magnetic ring (405) and the surface of the magnetic block (407) are magnetically connected.
2. The drone housing according to claim 1, characterized in that: A ring (408) is fixedly connected to the surface of the screw (402). The surface of the ring (408) is provided with anti-slip textures (409). The anti-slip textures (409) are in multiple sets and are evenly distributed around the circumference.
3. The drone housing according to claim 2, characterized in that: Each set of screw holes (401), screws (402), threaded sleeves (403), anti-slip pads (404), magnetic rings (405), receiving grooves (406), magnetic blocks (407) and rings (408) consists of two parts, and the surfaces of the first box (1) and the second box (2) are provided with casters (410).
4. The drone housing according to claim 1, characterized in that: A pull handle (411) is slidably provided on the surface of the first box (1), and a fixed handle (412) is fixedly provided on the surface of the first box (1).
5. The drone housing according to claim 1, characterized in that: An auxiliary mechanism (5) is provided on the surface of the first box (1). The auxiliary mechanism (5) includes a slide groove (51). The slide groove (51) is opened on the surface of the first box (1). A block (52) is slidably connected to the surface of the slide groove (51). A square groove (53) is opened on the surface of the rotating shaft (3). The block (52) is engaged with the surface of the square groove (53).
6. The drone housing according to claim 5, characterized in that: A spring (54) is fixedly connected to the surface of the block (52), and the spring (54) is fixedly connected to the surface of the slide (51). A lever (55) is fixedly connected to the surface of the block (52).
7. A drone housing according to claim 6, characterized in that: The number of the slide (51), block (52), square groove (53), spring (54) and toggle block (55) are all in two sets, and the two sets of square grooves (53) are arranged symmetrically.