CN210174651U - Automatic room that charges of solar energy unmanned aerial vehicle - Google Patents

Abstract

The embodiment of the utility model discloses an automatic charging house of a solar unmanned aerial vehicle, which comprises a main body framework, the upper surface of the main body frame is rotationally connected with four sealing covers, the upper end of the main body frame is provided with an adjusting component for driving the sealing covers to rotate, the upper surface of the main body frame is provided with a placing component, a charging component is arranged above the placing component, the device is provided with the charging component, when in use, the unmanned aerial vehicle can fully isolate the erosion of external rainwater through the water retaining cover, so that the situations of short circuit and the like can not occur when the unmanned aerial vehicle is charged, meanwhile, when the unmanned aerial vehicle is charged, the clamping block clamps the charging end of the unmanned aerial vehicle and limits the charging end under the action of the charging compression spring, even the strong wind environment appears in the external world, unmanned aerial vehicle also can not remove easily to avoided charging the condition emergence that can not normally go on, its protectiveness is higher.

Description

Automatic room that charges of solar energy unmanned aerial vehicle

Technical Field

The embodiment of the utility model provides a relate to the unmanned aerial vehicle field, concretely relates to automatic room that charges of solar energy unmanned aerial vehicle.

Background

An unmanned aircraft, referred to as "drone", is an unmanned aircraft that is operated by a radio remote control device and a self-contained program control device, or is operated autonomously, either completely or intermittently, by an onboard computer. Compare with someone piloting the aircraft, unmanned aerial vehicle often more is fit for those too "fool, dirty or dangerous" task, unmanned aerial vehicle can consume very big electric quantity when using, so the user can use various equipment to charge, traditional unmanned aerial vehicle all leans on to trade the battery, then charges the battery again, its operation is comparatively loaded down with trivial details and need frequently change the battery, and novel battery charging outfit today can directly charge through modes such as solar cell panel electric power storage for the operation is simple laborsaving more.

However common unmanned aerial vehicle battery charging outfit generally faces in the existing market, and the charging area all is direct and external environment contact, in case the external world has the rainwater to drop in the charging area, will cause phenomenons such as short circuit to take place during later charging, and most of charging platform's safeguard measure is less simultaneously, if meet adverse circumstances like strong wind environment, just very easily make unmanned aerial vehicle blown lead to charging can not normally go on.

SUMMERY OF THE UTILITY MODEL

Therefore, the embodiment of the utility model provides an automatic room that charges of solar energy unmanned aerial vehicle to solve among the prior art because the charging area all is direct and external environment contact, in case the external world has the rainwater to drop on the charging area, will cause phenomenons such as short circuit to take place when later charging, most of charging platform's safeguard measure is less simultaneously, if meet adverse circumstances like strong wind environment, just very easily make unmanned aerial vehicle blown lead to charging the problem that can not normally go on.

In order to achieve the above object, the embodiments of the present invention provide the following technical solutions:

an automatic charging room for a solar unmanned aerial vehicle comprises a main body frame, wherein four sealing covers are rotatably connected to the upper surface of the main body frame, an adjusting assembly for driving the sealing covers to rotate is arranged at the upper end of the main body frame, a placing assembly is arranged on the upper surface of the main body frame, and a charging assembly is arranged above the placing assembly;

the charging assembly comprises a water retaining cover which is connected to the placement assembly in a sliding mode, two clamping blocks are symmetrically arranged in the water retaining cover, one side surface of each clamping block is connected with the water retaining cover through a charging compression spring, a copper sheet mounting table is mounted on the other side surface of each clamping block, a charging copper sheet is mounted on one side, close to the water retaining cover, of the copper sheet mounting table, a main charging sheet and an auxiliary charging sheet are mounted on the copper sheet mounting table, an anti-slip copper sheet is connected to the auxiliary charging sheet in a sliding mode, a fixed insulating cover is arranged in the auxiliary charging sheet, a sliding insulating cover is connected to the fixed insulating cover in a sliding mode, and a charging ejection spring is fixedly mounted between the sliding insulating cover and the fixed insulating cover.

As an optimized scheme of the utility model, place the subassembly including placing the dustcoat place the top sliding connection who places the dustcoat has places the piece, just it leads the radio station to be provided with in the dustcoat to place, the top of leading the radio station is equipped with a plurality of contact foot, the top of contact foot is installed the slip copper sheet, the last sliding surface of slip copper sheet is connected with the connection platform, the upper surface of connecting the platform is equipped with the coupling assembling of being connected with the manger plate cover, it is provided with the ladder slip table to place the piece on a side surface that is close to the connection platform, just place the central point department of putting of a lower surface and install the jack-up subassembly, set up the subassembly sliding tray that holds coupling assembling on the ladder slip table, the subassembly sliding tray is provided with the slip draw-in groove in one side of being close to the connection platform.

As a preferred scheme of the utility model, the jack-up subassembly includes fixed mounting in the first regulation jack-up spring of placing the piece lower surface, first regulation jack-up spring is keeping away from the one end of placing the piece and is installed the jack-up fixed block, the regulating block spout has all been seted up to the outer wall of jack-up fixed block left and right sides, and the central point of jack-up fixed block left and right sides puts the department and is provided with the spring fixed block, be equipped with the adjusting block with jack-up fixed block sliding connection in the regulating block spout, fixed mounting has the second to adjust the jack-up spring between adjusting block and the spring fixed block, adjusting block is connected with the connection platform through connecting the jack-up pole.

As a preferred scheme of the utility model, coupling assembling includes the connection insulating boot of being connected with the connection platform and the electrically conductive cover of being connected with the manger plate cover, be equipped with in the connection insulating boot and be connected electrically conductive cover sliding connection's the conducting strip of being connected, be equipped with spring insulation cover in the connection conducting strip, be equipped with in the spring insulation cover and be connected the sliding spring that is connected electrically conductive cover and is connected.

As a preferred scheme of the utility model, the upper surface of placing the dustcoat is equipped with the spout fender cover that shelters from the subassembly sliding tray.

As a preferred scheme of the utility model, sealed lid includes and shelters from the lid with main body frame rotates a plurality of being connected, the upper end of sheltering from the lid is equipped with rain-proof lid, just shelter from the lid and have solar cell panel and spliced pole near one side surface mounting who places the dustcoat.

As a preferred scheme of the utility model, adjusting part is including setting up the rolling gear in main body frame, a plurality of rack sliders are installed to rolling gear's lateral wall equidistant, the top of rack slider is connected with the pulling platform that runs through main body frame, the pulling platform is connected with the spliced pole through adjusting the pull rod.

As a preferred scheme of the utility model, the cross section of manger plate cover is U style of calligraphy structure, just high numerical value of manger plate cover is less than the high numerical value of spout fender cover.

As an optimized scheme of the utility model, the cross section of ladder slip table is the right trapezoid structure.

As an optimized scheme of the utility model, the length numerical value of rack slider is greater than the diameter numerical value of running gear.

The utility model discloses an embodiment has following advantage:

(1) the device is provided with the charging assembly, the erosion of external rainwater can be fully isolated through the water retaining cover when the device is used, so that the situations such as short circuit and the like can not occur when the unmanned aerial vehicle is charged, meanwhile, when the unmanned aerial vehicle is charged, the clamping block can clamp and limit the charging end of the unmanned aerial vehicle under the action of the charging compression spring, and the unmanned aerial vehicle cannot easily move even if a strong wind environment occurs outside, so that the situation that the charging cannot be normally performed is avoided, and the protection performance is high;

(2) the device is provided with the jacking assembly, when the unmanned aerial vehicle presses the placing block, the placing block can descend under the action of gravity, then the descending step sliding table can push the connecting assemblies on two sides of the jacking assembly to be close to each other, then the connecting assemblies close to each other can drive the charging assembly to slide, so that the unmanned aerial vehicle is fixed and is charged, the operation is simple, the device is suitable for unmanned aerial vehicles of different sizes, and the application range is wide;

(3) this equipment is provided with the rotatory adjusting part of drive sealed lid, when equipment is not using, can make sealed lid rotatory through adjusting part, when treating four sealed lid all perpendicular to main body frame, whole subassembly of placing can be sheltered from to avoided the equipment part to pounded the bad condition emergence by external debris, its protectiveness is higher, and the equipment volume can freely extend, has made things convenient for the transportation of equipment.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is a partial sectional view of the antiskid copper sheet of the present invention;

FIG. 4 is a top partial cross-sectional view of the placement assembly of the present invention;

FIG. 5 is a side view partially cut-away view of the step slide of the present invention;

fig. 6 is a top partial cross-sectional view of the present invention;

fig. 7 is a front cross-sectional view of the placement module of the present invention.

In the figure:

1-a body frame; 2-a storage battery; 3-a regulating component; 4-sealing cover; 5-placing the component; 6-a charging assembly; 7-a jack-up assembly; 8-a charging column;

301-a turning gear; 302-rack slide; 303-a pulling table; 304-adjusting the pull rod;

401-a shutter cover; 402-rain cover; 403-solar panels; 404-connecting column;

501-placing an outer cover; 502-conducting station; 503-contact pin; 504-sliding copper sheet; 505-a connection station; 506-step slipway; 507-a connection assembly; 508-pulley table; 509-place block; 510-connecting a conductive cover; 511-connecting an insulating cover; 512-connecting the conducting strips; 513-a spring insulating cover; 514-connecting a sliding spring; 515-sliding chute blocking cover; 516-a slide card slot; 517-component sliding groove;

601-water retaining cover; 602-a clamping block; 603-charging copper sheet; 604-charging the hold-down spring; 605-copper sheet mounting table; 606-a primary charging pad; 607-secondary charging tab; 608-antiskid copper sheet; 609-fixing the insulating cover; 610-sliding insulating cover; 611-charging a pushing spring;

701-a first adjusting jacking spring; 702-jacking up the fixed block; 703-adjusting block chute; 704-adjusting the slider; 705-connecting a jack-up rod; 706-spring fixing block; 707-second adjustment jack-up spring.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention, and obviously, the embodiments described below are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1, the utility model provides an automatic room that charges of solar energy unmanned aerial vehicle, its main objective is through the erosion of the isolated external rainwater of subassembly 6 that charges, make the circumstances such as short circuit can not appear when unmanned aerial vehicle charges, simultaneously still can clip unmanned aerial vehicle's the end of charging and carry out spacingly through the tight piece 602 that presss from both sides on the subassembly 6 that charges, the condition that unmanned aerial vehicle removal leads to charging normally to go on is avoided and is taken place, later accessible jack-up subassembly comes to carry out position control to the subassembly 6 that charges and makes equipment can charge the operation to the unmanned aerial vehicle of not unidimensional, and can also come to carry out the rotation operations to sealed lid 4 through adjusting part 3, make it can block whole placing part 5 when not using and exist as the protection casing, the sealed lid 4 that folds simultaneously can also reduce the volume of.

Including main body frame 1's upper surface rotates and is connected with four sealed lids 4, and this sealed lid 4 has set up four sealed lids 4 that the structure is the same altogether, and main body frame 1's upper end is equipped with the rotatory adjusting part 3 of the sealed lid 4 of drive, is equipped with battery 2 in the below of this adjusting part 3 for the electricity of solar cell panel 403 conversion is stored, main body frame 1's upper surface is equipped with places subassembly 5, place the top of subassembly 5 and install charging assembly 6.

In this embodiment, can normally realize charging in order to make charging assembly 6, the event is in the upper surface of placing piece 509 is provided with charging post 8, charging post 8's both ends all are provided with the mounting bracket, be equipped with the block cover on the mounting bracket, this block cover can be fixed on unmanned aerial vehicle for charging post 8 is together fixed with unmanned aerial vehicle, and charging post 8 still can be connected with the battery on the unmanned aerial vehicle through the power cord, makes the electric current that charging post 8 received can be transmitted to in the unmanned aerial vehicle.

This equipment is when using, and user's accessible adjusting part 3 opens four sealed lid 4 to begin the conversion and store the electric current, later, in case unmanned aerial vehicle need charge alright make it descend to the top of placing subassembly 5, make the subassembly of charging 6 block the charging post 8 on the unmanned aerial vehicle and charge the operation, its more traditional equipment is when using, waterproof nature is higher, and can not receive the influence of strong wind easily, and its application scope is wider simultaneously.

As shown in fig. 1, 2 and 3, one of the main features of the charging house is that the charging assembly 6 includes two water-blocking covers 601 slidably connected to the placing assembly 5, the two water-blocking covers 601 are symmetrically arranged with respect to the placing assembly 5, two clamping blocks 602 are symmetrically arranged in the water-blocking cover 601, one side surfaces of the clamping blocks 602 are connected to the water-blocking covers 601 through charging compression springs 604, and the other side surfaces of the clamping blocks 602 are provided with copper sheet mounting platforms 605, the copper sheet mounting platforms 605 are provided with charging copper sheets 603 on one side close to the water-blocking covers 601, the charging copper sheets 603 are electrically connected to the connecting conductive covers 510, the connection may be through power lines, conductive copper sheets and the like, and the copper sheet mounting platforms are provided with a main charging sheet 606 and a secondary charging sheet 607, the secondary charging sheet 607 is slidably connected to an anti-slip copper sheet 608, and a fixed insulating cover 609 is arranged in the auxiliary charging sheet 607, a sliding insulating cover 610 is connected in the fixed insulating cover 609 in a sliding manner, and a charging ejection spring 611 is fixedly installed between the sliding insulating cover 610 and the fixed insulating cover 609.

When the charging assembly 6 is in use, once the water blocking cover 601 is driven by the connecting conductive cover 510 to slide towards the charging post 8, the two clamping blocks 602 are pushed to be opened when contacting the charging post 8, at the same time, the charging compression spring 604 is pressed, so that the elastic force of the charging compression spring is increased to preliminarily limit the position of the charging post 8, then the charging post 8 enters between the two clamping blocks 602, at this time, the anti-skid copper sheet 608 is pushed by the clamped charging post 8 to slide along the secondary charging sheet 607, and carries the sliding insulating cover 610 to slide along the fixed insulating cover 609, thereby pressing the charging push spring 611, and then the charging post 8 contacts the main charging tab 606, the charging push spring 611 is reset, so that the sliding insulating cover 610 is reset, and the anti-skid copper sheet 608 is reset to slide out and limit the position of the charging post 8, even the external world has strong wind to blow unmanned aerial vehicle and also can not move about easily under two charging assembly 6's centre gripping are fixed.

As shown in fig. 1, 2, 4, 5 and 7, the charging house is characterized in that the placing component 5 includes a placing housing 501, a placing block 509 is slidably connected above the placing housing 501, a conducting station 502 is arranged in the placing housing 501, the conducting station 502, a contact pin 503, a sliding copper sheet 504 and a connecting station 505 are all made of conductive copper sheets, if the conducting station 502, the contact pin 503, the sliding copper sheet 504 and the connecting station 505 can be replaced by power lines for cost saving, a plurality of contact pins 503 are arranged above the conducting station 502, the sliding copper sheet 504 is arranged above the contact pins 503, the connecting station 505 is slidably connected to the upper surface of the sliding copper sheet 504, a connecting component 507 connected with a water blocking cover 601 is arranged on the upper surface of the connecting station 505, the connecting component 507 enables the charging component 6 to be attached to the placing block 509, placing block 509 and being provided with ladder slip table 506 near one side surface of connecting platform 505, just the central point department of placing block 509 lower surface puts and installs jack-up subassembly 7, and this jack-up subassembly 7 is used for adjusting the interval between two charging assemblies 6 for two charging assemblies 6 can freely reset, set up the subassembly sliding tray 517 that holds coupling assembling 507 on the ladder slip table 506, subassembly sliding tray 517 is provided with slide groove 516 in the one side of being close to connecting platform 505, and this slide groove 516 sets up along ladder slip table 506, be equipped with in the slide groove 516 with ladder slip table 506 sliding connection's pulley platform 508.

This place subassembly 5 when using, in case there is unmanned aerial vehicle to place and placing the 509 upper surface, place this moment that block 509 can push down because of the action of gravity, later, ladder slip table 506 also can be along with placing block 509 gliding, because of the cross section of ladder slip table 506 is the right trapezoid structure, so pulley table 508 can be pressed to ladder slip table 506, make it slide along subassembly sliding tray 517 and towards the direction that is close to jack-up subassembly 7, later pulley table 508 can take connecting platform 505 and coupling assembling 507 motion, then charging assembly 6 also can be close to charging post 8 gradually, and block it and carry out the operation of charging, treat the completion back of charging, can make unmanned aerial vehicle suitably fly up, make jack-up subassembly 7 reset, with charging assembly 6 removal initial position, later unmanned aerial vehicle alright fly out the room that charges.

As shown in fig. 1 and 7, the jacking assembly 7 includes a first adjusting jacking spring 701 fixedly mounted on the lower surface of the placement block 509, a jacking fixing block 702 is mounted at one end of the first adjusting jacking spring 701 far away from the placement block 509, the jacking fixing block 702 is directly connected to the main body frame 1, adjusting block chutes 703 are formed in the outer walls of the left and right sides of the jacking fixing block 702, spring fixing blocks 706 are disposed at the central positions of the left and right sides of the jacking fixing block 702, adjusting blocks 704 slidably connected to the jacking fixing block 702 are disposed in the adjusting block chutes 703, second adjusting jacking springs 707 are fixedly mounted between the adjusting blocks 704 and the spring fixing blocks 706, and the adjusting blocks 704 are connected to the connection table 505 through connection jacking rods 705.

The jack assembly 7 is in use, with the drone pressed against the placement block 509, after which the first adjusting jack spring 701 is compressed, causing the placement block 509 to gradually slide along the main body frame 1, then, the sliding placing block 509 will make the connecting platform 505 slide toward the direction of lifting the fixing block 702, and then the sliding connecting platform 505 will push the connecting lifting rod 705 to rotate, at the same time, the adjusting slide block 704 slides along the adjusting block slide groove 703 under the action of the pushing force, and presses the second adjusting jacking spring 707, that is, the elastic force of the second adjusting jack-up spring 707 is increased, and thereafter, when the table to be connected 505 is moved to a position where it cannot be slid further, it is representative that the charging assembly 6 has sufficiently restrained the charging post 8, after which if the position of the drone is raised, the second adjusting jacking spring 707 is reset so that the adjusting slider 704 is reset to reset the connection stage 505, after which the charging assembly 6 is also reset with the connection stage 505.

As shown in fig. 1, 2 and 7, the connection assembly 507 includes a connection insulation cover 511 connected to the connection platform 505 and a connection conductive cover 510 connected to the water blocking cover 601, a connection conductive sheet 512 slidably connected to the connection conductive cover 510 is disposed in the connection insulation cover 511, a spring insulation cover 513 is disposed in the connection conductive sheet 512, the spring insulation cover 513 is disposed in the spring insulation cover 513, so that the connection sliding spring 514 does not generate a deviation in the stretching and resetting processes, and the occurrence of a situation that the connection conductive sheet 512 is blocked is avoided, and a connection sliding spring 514 connected to the connection conductive cover 510 is disposed in the spring insulation cover 513.

This coupling assembling 507 is when using, if connection platform 505 slides towards jack-up fixed block 702, then two subassembly 6 that charge can be close to each other, place piece 509 and can slide down gradually this moment, so can produce the clearance between water blocking cover 601 and the piece 509 of placing, later connect sliding spring 514 and can reset gradually, make and connect electrically conductive cover 510 and take water blocking cover 601 to descend along connecting conducting strip 512, later, treat that water blocking cover 601 contacts once more and place piece 509, it stops to reset to connect sliding spring 514, and when unmanned aerial vehicle left and places piece 509, first regulation jack-up spring 701 can push away and place piece 509 and connect electrically conductive cover 510 and rise to initial position, connect sliding spring 514 and can be stretched this moment.

The upper surface of placing dustcoat 501 is equipped with the spout that shelters from to subassembly sliding tray 517 and keeps off cover 518, and this spout keeps off cover 518 and makes external rainwater can not instil into in order to withstand subassembly sliding tray 517 to further improve equipment's water-proof effects, because of the cross section of manger plate cover 601 is U style of calligraphy structure, so manger plate cover 601 can fully block the rainwater and make it can not contact anti-skidding copper sheet 608 and main piece 606 that charges easily, just the high numerical value of manger plate cover 601 is less than the high numerical value of spout fender cover 518, makes manger plate cover 601 can not influenced by spout fender cover 518, thereby has avoided the unable abundant card of post 8 that charges to go into the condition emergence in the manger plate cover 601.

As shown in fig. 1, the sealing cover 4 includes a plurality of shielding covers 401 rotatably connected to the main body frame 1, the shielding covers 401 can form a sealed space after being folded, so that the placement component 5 cannot easily contact with rainwater, and the protection performance of the device is higher, the upper end of the shielding cover 401 is provided with a rain-proof cover 402, the shielding cover 401 is provided with a solar cell panel 403 and a connecting column 404 on the surface of one side close to the placement housing 501, and the solar cell panel 403 is a common solar cell panel in the market.

This sealed lid 4 needs the cooperation to adjust subassembly 3 when using and uses, if sealed lid 4 rotates 90 degrees, then shelters from lid 401 and can take rain-proof lid 402 to lie on the upper surface of main body frame 1 for shelter from lid 401 and be on a parallel with main body frame 1, external sunshine and the contact of solar cell panel 403 afterwards, make solar energy be converted into the electric energy, and store in battery 2.

As shown in fig. 1 and 6, the adjusting assembly 3 includes a rotating gear 301 disposed in the main body frame 1, the rotating gear 301 may be controlled by a photo resistor or a remote control, a plurality of rack sliders 302 are mounted on a side wall of the rotating gear 301 at equal intervals, a plurality of pulling tables 303 penetrating through the main body frame 1 are connected above the rack sliders 302, the pulling tables 303 are provided with a plurality of pulling tables 303, the pulling tables 303 respectively correspond to the corresponding shielding covers 401, and the pulling tables 303 are connected to the connecting column 404 through the adjusting pull rod 304.

When the adjusting assembly 3 is used, a user can open the rotating gear 301, and then the rotating gear is controlled to rotate by 90 degrees, then the rack slider 302 can slide to enable the pulling platform 303 to be pulled to slide towards the corresponding shielding cover 401 to enable the shielding cover 401 to be laid flat, and because the length value of the rack slider 302 is larger than the diameter value of the rotating gear 301, after the rotating gear 301 rotates by 90 degrees, the rack slider 302 is still meshed with the rotating gear 301, so that the subsequent overturning reset operation can still be carried out again.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (10)

1. The solar unmanned aerial vehicle automatic charging house is characterized by comprising a main body frame (1), wherein four sealing covers (4) are rotatably connected to the upper surface of the main body frame (1), an adjusting component (3) for driving the sealing covers (4) to rotate is arranged at the upper end of the main body frame (1), a placing component (5) is arranged on the upper surface of the main body frame (1), and a charging component (6) is arranged above the placing component (5);

the charging assembly (6) comprises a water retaining cover (601) which is connected to the placing assembly (5) in a sliding way, two clamping blocks (602) are symmetrically arranged in the water retaining cover (601), one side surface of each clamping block (602) is connected with the water retaining cover (601) through an electric compression spring (604), and the other side surface of the clamping block (602) is provided with a copper sheet mounting table (605), a charging copper sheet (603) is arranged on one side of the copper sheet mounting table (605) close to the water retaining cover (601), a main charging sheet (606) and a secondary charging sheet (607) are arranged on the copper sheet mounting table (605), an anti-skid copper sheet (608) is connected on the secondary charging sheet (607) in a sliding way, a fixed insulating cover (609) is arranged in the auxiliary charging sheet (607), a sliding insulating cover (610) is connected in the fixed insulating cover (609) in a sliding way, and a charging ejection spring (611) is fixedly arranged between the sliding insulating cover (610) and the fixed insulating cover (609).

2. The automatic room that charges of solar energy unmanned aerial vehicle of claim 1, characterized in that, place subassembly (5) including placing dustcoat (501), sliding connection has the piece of placing (509) in the top of placing dustcoat (501), and place and be provided with in dustcoat (501) and lead radio station (502), it is equipped with a plurality of contact foot (503) to lead radio station (502) top, the top of contact foot (503) is installed and is slided copper sheet (504), the upper surface sliding connection of sliding copper sheet (504) has connection platform (505), the upper surface of connection platform (505) is equipped with coupling assembling (507) of being connected with manger plate cover (601), it is provided with ladder slip table (506) to place a side surface that block (509) is close to connection platform (505), just it installs jack-up subassembly (7) to place the central point department of block (509) lower surface, the step sliding table is characterized in that an assembly sliding groove (517) for accommodating the connecting assembly (507) is formed in the step sliding table (506), a sliding clamping groove (516) is formed in one side, close to the connecting table (505), of the assembly sliding groove (517), and a sliding wheel table (508) which is connected with the step sliding table (506) in a sliding mode is arranged in the sliding clamping groove (516).

3. The solar unmanned aerial vehicle automatic charging house of claim 2, the jacking component (7) comprises a first adjusting jacking spring (701) fixedly arranged on the lower surface of the placing block (509), one end of the first adjusting jacking spring (701) far away from the placing block (509) is provided with a jacking fixing block (702), the outer walls of the left side and the right side of the jacking fixed block (702) are both provided with adjusting block sliding grooves (703), and spring fixing blocks (706) are arranged at the central positions of the left side and the right side of the jacking fixing block (702), an adjusting slide block (704) which is connected with the jacking fixed block (702) in a sliding way is arranged in the adjusting block sliding groove (703), a second adjusting jacking spring (707) is fixedly arranged between the adjusting slide block (704) and the spring fixing block (706), the adjusting slide block (704) is connected with the connecting platform (505) through a connecting jacking rod (705).

4. The solar unmanned aerial vehicle automatic charging room as claimed in claim 2, wherein the connecting assembly (507) comprises a connecting insulating cover (511) connected with the connecting platform (505) and a connecting conductive cover (510) connected with the water blocking cover (601), a connecting conductive sheet (512) slidably connected with the connecting conductive cover (510) is arranged in the connecting insulating cover (511), a spring insulating cover (513) is arranged in the connecting conductive sheet (512), and a connecting sliding spring (514) connected with the connecting conductive cover (510) is arranged in the spring insulating cover (513).

5. The solar unmanned aerial vehicle automatic charging house as claimed in claim 2, wherein the upper surface of the housing (501) is provided with a sliding groove blocking cover (515) for blocking the component sliding groove (517).

6. The solar unmanned aerial vehicle automatic charging house as claimed in claim 1, wherein the sealing cover (4) comprises a plurality of shielding covers (401) rotatably connected with the main body frame (1), the upper ends of the shielding covers (401) are provided with rain covers (402), and a solar cell panel (403) and a connecting column (404) are surface-mounted on one side of the shielding cover (401) close to the placing housing (501).

7. The solar unmanned aerial vehicle automatic charging house as claimed in claim 6, wherein the adjusting assembly (3) comprises a rotating gear (301) arranged in the main body frame (1), a plurality of rack sliders (302) are mounted on the side wall of the rotating gear (301) at equal intervals, a pulling table (303) penetrating through the main body frame (1) is connected above the rack sliders (302), and the pulling table (303) is connected with the connecting column (404) through an adjusting pull rod (304).

8. The automatic room that charges of solar energy unmanned aerial vehicle of claim 5, characterized in that, the cross section of water retaining cover (601) is the U style of calligraphy structure, and the high numerical value of water retaining cover (601) is less than the high numerical value of spout fender cover (515).

9. The solar unmanned aerial vehicle automatic charging house as claimed in claim 2, wherein the cross section of the step slipway (506) is a right trapezoid structure.

10. The solar unmanned aerial vehicle automatic charging house as claimed in claim 7, wherein the length value of the rack slider (302) is larger than the diameter value of the rotating gear (301).

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