CN109455291A - A kind of rack and unmanned plane for unmanned plane - Google Patents

Abstract

The invention belongs to air vehicle technique fields, more particularly to a kind of rack and unmanned plane for unmanned plane, rack includes fuselage, and fuselage includes upper casing and lower casing compatible with upper casing, upper casing and lower casing are mutually permanently connected after docking up and down, and accommodating space is formed between upper casing and lower casing；Lower casing is equipped with the first cabin and the second cabin, and the hatch of the first cabin and the second cabin is sealedly connected with hatch door respectively.Rack provided by the present invention for unmanned plane, cabin there are two being set in the lower casing of fuselage, accommodating space is equipped in fuselage, installation flies control function element and circuit board etc. respectively in accommodating space and two cabins, when it is time for repair, corresponding cabin or upper casing only need to be dismantled, it is convenient for disassembly and assembly and quick, and be conducive to avoid damaging the other electron component in fuselage.

Description

A kind of rack and unmanned plane for unmanned plane

Technical field

The present invention relates to air vehicle technique fields, and in particular to a kind of rack and unmanned plane for unmanned plane.

Background technique

Unmanned plane is a kind of unmanned vehicle manipulated by radio robot or itself presetting apparatus.With The rapid development of unmanned plane industry, more and more unmanned planes be applied to agricultural, forestry, electric power, mapping, telemetering etc. row Industry.

The rack of existing unmanned plane includes fuselage and the electronic component in fuselage, and electronic component includes flight control Device, figure transmission module and difference block etc., each electronic component are integrated in stacking respectively and are set on two circuit boards in fuselage, machine Body includes upper cover and bottom case, when the electronic component on layer circuit board needs repairing instantly, need by upper cover, upper layer circuit board and Electronic component thereon is removed, and dismounting is cumbersome, to the very big inconvenience of maintenance band, in addition, being also easy to upper layer in disassembly process Circuit board and electronic component thereon damage.

Summary of the invention

In order to solve the above technical problems, The present invention provides a kind of racks and unmanned plane for unmanned plane.

First aspect of the embodiment of the present invention provides a kind of rack for unmanned plane, including fuselage, and the fuselage includes Upper casing and lower casing compatible with the upper casing, the upper casing and lower casing are mutually permanently connected after docking up and down, and the upper casing Accommodating space is formed between lower casing；The lower casing is equipped with the first cabin and the second cabin, first cabin and the second cabin Hatch is sealedly connected with hatch door respectively.

Rack provided by the present invention is provided with the first cabin and the second cabin, the hatch of two cabins in fuselage lower casing It is provided with lower casing bottom, is equipped in each cabin and flies control function element or circuit board, remaining correlation of installation in accommodating space Electronic component, such as flight controller and another circuit board；When need to certain electronic component repair when, without to entire fuselage into Row is removed, for example, if electronic component damages in cabin, it is only necessary to remove corresponding hatchcover and repair to its internal electronic element； If the electronic component in accommodating space damages, it is only necessary to upper casing is removed, it is easy to maintenance and quick.

It further include upper mounted plate, the bottom plate, branch being set in the fuselage in parallel as the improvement in structure of the invention The horn that frame and four spacer rings are arranged around the fuselage, the bracket are supported between fixed plate, bottom plate；Institute Stating horn includes rectangular tubular head, and the rectangular tubular head protrudes into the fuselage and is fixed on fixed plate under Between fixed plate.

As the improvement in structure of the invention, GPS, the GPS are equipped with by rubber connector on fixed plate It is equipped with a circle outer rim；The rubber connector includes damping portion, upper stopper section and lower stopper section, the damping portion and upper backstop Installation detent is respectively equipped between portion, lower stopper section；The upper stopper section, lower stopper section are each passed through GPS outer rim, on upper mounted plate Mounting hole, corresponding detent of installing is arranged in respectively at GPS outer rim and upper mounted plate.

As the improvement in structure of the invention, the horn further includes host arm, extension set arm and fold mechanism, the host One end of arm is connected as one with the rectangular tubular head, and the other end is folded by the fold mechanism and the extension set arm to be connected It connects.

As the improvement in structure of the invention, the fold mechanism includes the first folded piece, the second folded piece and sleeve, institute State the relatively described first folded piece rotary folding of the second folded piece；Shape after first folded piece and the rotation docking of the second folded piece At complete cylinder, the sleeve screw set is on first folded piece, the second folded piece；The first folded piece outer wall It is equipped with the first half-thread, the second folded piece outer wall is equipped with the second half-thread, first half-thread and the second half spiral shells Line forms whole circle screw thread, and the sleeve lining is equipped with internal screw thread corresponding with the whole circle screw thread.

As the improvement in structure of the invention, the upper casing inner wall is protruding with multiple first connecting columns, first connection The first connecting hole is equipped in column, the lower casing inner wall is protruding with multiple the second connections corresponding with first connecting column position Column, interior the second connecting hole, the upper casing and the lower casing of being equipped with of second connecting column pass through by being successively arranged in first at the top of upper casing Connector in connecting hole, the second connecting hole is fixedly connected.

As the improvement in structure of the invention, the opposite two sides of the lower casing offer air inlet and air outlet respectively.

It further include the undercarriage for being supported in the fuselage bottom as the improvement in structure of the invention, the undercarriage packet Include at least two side frames, the side frame includes two support frames disposed in parallel, for support frame to be fixed on unmanned aerial vehicle body Installation part and connect two support frames connecting rod；The installation part include the mounting plate being fixedly connected with unmanned aerial vehicle body and The first pipe clamp being fixedly connected with the mounting plate, first pipe clamp is for gripping support frame as described above；First pipe Folder one end is connect by the mounting plate with the unmanned aerial vehicle body, and the other end is used to be inserted into for support frame as described above and fix；It is described The central axis of plane and first pipe clamp where mounting plate, and the mounting plate include along in first pipe clamp The vertical direction of heart line extends to the extension except the outer wall of first pipe clamp.

Second aspect, the embodiment of the invention provides a kind of unmanned planes, including above-mentioned rack, between the upper casing and lower casing It is formed by accommodating space and is fixed with second circuit board and flight controller, be equipped in first cabin and fly control function mould Block is equipped with first circuit board in second cabin.

It further include the medicine-chest for being supported in the undercarriage of the fuselage bottom and being installed on the undercarriage, it is described to rise and fall Frame includes at least two side frames, and the side frame includes the connecting rod of two support frames of two support frames disposed in parallel and connection, The both ends of the connecting rod are connected on two support frames；The connecting rod is equipped with the first fixed part, first fixed part It is connect by the first connector with the second fixed part being set on medicine-chest.

By adopting the above technical scheme, including following the utility model has the advantages that the rack provided by the present invention for unmanned plane, in machine It is set in the lower casing of body there are two cabin, fuselage is interior to be equipped with accommodating space, the winged control of installation respectively in accommodating space and two cabins Function element and circuit board etc. only need to dismantle corresponding cabin or upper casing when it is time for repair, convenient for disassembly and assembly and fast Victory, and be conducive to avoid damaging the other electron component in fuselage.

Detailed description of the invention

Fig. 1 provides the structural schematic diagram of unmanned plane by the embodiment of the present invention；

Fig. 2 provides the separate structure schematic diagram of unmanned aerial vehicle body by the embodiment of the present invention；

Fig. 3 provides the cross-sectional view of unmanned aerial vehicle body by the embodiment of the present invention；

Fig. 4 provides the schematic diagram of internal structure of fuselage lower casing by the embodiment of the present invention；

The mounting structure schematic diagram of the provided fuselage lower casing of this embodiment of the present invention of Fig. 5 and each winged control function element；

Fig. 6 provides the mounting structure schematic diagram of GPS and upper mounted plate by the embodiment of the present invention；

Fig. 7 provides the structural schematic diagram of rubber connector by the embodiment of the present invention；

Fig. 8 provides the mounting structure schematic diagram of medicine-chest and undercarriage by the embodiment of the present invention；

Fig. 9 is partial schematic diagram at A in Fig. 8；

Figure 10 is partial schematic diagram at B in Fig. 8；

Figure 11 provides the partial structure diagram of undercarriage by the embodiment of the present invention；

Figure 12 provides undercarriage another part structural schematic diagram by the embodiment of the present invention；

Figure 13 provides the structural schematic diagram of fold mechanism by the embodiment of the present invention；

Figure 14 provides the separate structure schematic diagram of fold mechanism by the embodiment of the present invention；

Figure 15 provides the structural schematic diagram of the first folded piece in fold mechanism by the embodiment of the present invention.

In figure:

1, fuselage；1.1, upper casing；1.2, lower casing；1.21, the first cabin；1.22, the second cabin；1.23, hatch door；1.24, air inlet Mouthful；1.25, gas outlet；1.26, the second connecting column；1.3, upper mounted plate；1.4, bottom plate；1.5, bracket；

2, horn；2.1, rectangular tubular head；2.2, host arm；2.3, extension set arm；2.4, fold mechanism；2.41, the first tubulose Portion；2.42, mounting base；2.43, first connecting portion；2.44, rotation slot；2.45, sleeve；2.46, supporting element；2.47, RTK days Line；2.48, retaining collar；2.49, the second tubular portion；2.50, second connecting portion；

3, medicine-chest；3.1, the second fixed block；3.2, medicine-pouring port；3.3, groove；

4, undercarriage；4.1, support frame；4.2, first connecting rod；4.3, the first pipe clamp；4.4, extension；4.5, second connecting rod； 4.51, the first fixed block；4.6, chassis；4.7, bumper and absorbing shock pad；4.8, " ⊥ " shape tee tube；4.9, the first mounting hole；4.10, Second mounting hole；4.11, the second pipe clamp；4.12, hangers；4.13, installation base；

5,GPS；5.1, outer rim；

6, rubber connector；6.1, upper stopper section；6.2, lower stopper section；6.3, damping portion；6.4, detent is installed；

7, second circuit board；8, flight controller；9, first circuit board；10, difference block；11, figure transmission module.

Specific embodiment

To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with attached in the embodiment of the present invention Figure, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is the present invention A part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not having Every other embodiment obtained under the premise of creative work is made, shall fall within the protection scope of the present invention.

In the present invention, term " on ", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outside", " in ", "vertical", "horizontal", " transverse direction ", the orientation or positional relationship of the instructions such as " longitudinal direction " be orientation based on the figure or Positional relationship.These terms are not intended to limit indicated dress primarily to better describe the present invention and embodiment Set, element or component must have particular orientation, or constructed and operated with particular orientation.

Also, above-mentioned part term is other than it can be used to indicate that orientation or positional relationship, it is also possible to for indicating it His meaning, such as term " on " also are likely used for indicating certain relations of dependence or connection relationship in some cases.For ability For the those of ordinary skill of domain, the concrete meaning of these terms in the present invention can be understood as the case may be.

In addition, term " installation ", " setting ", " being equipped with ", " connection ", " connected " " socket " shall be understood in a broad sense.For example, can To be to be fixedly connected, it is detachably connected or monolithic construction；It can be mechanical connection, or electrical connection；It can be directly connected, It either indirectly connected through an intermediary, or is two connections internal between device, element or component.For For those of ordinary skill in the art, the specific meanings of the above terms in the present invention can be understood according to specific conditions.

Unless otherwise indicated, the meaning of " multiple " is two or more.

The present invention is described in further detail below by specific embodiment and in conjunction with attached drawing.

Embodiment 1:

A kind of unmanned plane is present embodiments provided, refering to fig. 1-5, including rack, the rack include fuselage 1, and the fuselage 1 wraps Upper casing 1.1 and lower casing 1.2 compatible with the upper casing 1.1 are included, the upper casing 1.1 and about 1.2 lower casing are mutually solid after docking Fixed connection, 1.1 inner wall of upper casing are protruding with multiple first connecting columns, are equipped with the first connecting hole, institute in first connecting column It states 1.2 inner wall of lower casing and is protruding with multiple the second connecting columns 1.26 corresponding with first connecting column position, described second connects It connects and is equipped with the second connecting hole, the upper casing 1.1 and lower casing 1.2 in column 1.26 by being successively arranged in first by 1.1 top of upper casing Connector in connecting hole, the second connecting hole is fixedly connected, and connector can be stay bolt.In the present embodiment, upper casing 1.1 is spaced If lower casing is equipped at intervals with six the second connecting columns there are six the first connecting column, upper casing and lower casing dock up and down, wherein corresponding position First connecting column, second connecting column at place are mutually butted, and are fixedly connected by connector, the fixed form between upper casing and lower casing The integral strength of fuselage is strengthened, and dismantles and processes more convenient.

Accommodating space is formed between upper casing and lower casing；The lower casing is equipped with the first cabin 1.21 and the second cabin 1.22, described The hatch of first cabin 1.21 and the second cabin 1.22 is sealedly connected with hatch door 1.23 respectively, and specifically, hatch door can pass through spiral shell The connectors such as silk, screw or bolt are sealedly connected on hatch.The hatch of two cabins is provided with 1.2 bottom of lower casing, each cabin It is inside equipped with and flies control function element or circuit board, in the present embodiment, the first cabin is equipped with hatch in lower casing bottom, with accommodating It is separated by between space by bottom plate, difference block 10 is installed in first cabin 1.21, difference block 10 is fixed on bottom plate；Second cabin The inside of body 1.22 is communicated with accommodating space, and inner wall is protruding with fixed column, is equipped with first circuit board 9 in the second cabin 1.22, The first circuit board 9 can be distributor plate, and distributor plate is mounted in fixed column by connector, difference block 10, figure transmission module 11 and flight controller 8 all connect with the distributor plate by conducting wire, fuselage interior connection can be reduced, convenient for fuselage The assembling and maintenance of interior each electronic component.When the electronic component or circuit board needs in the first cabin 1.21 or the second cabin 1.22 When maintenance, disassembly hatch door 1.23 need to be only corresponded to without separating each body parts from top to bottom and simplifies disassembly process, just In maintenance, while it can be avoided and other electron component is damaged.

Embodiment 2:

On the basis of embodiment 1, in order to reinforce the stability connected between fuselage and horn, fuselage provided by the present embodiment Further include in parallel be set to the fuselage in upper mounted plate 1.3, bottom plate 1.4, bracket 1.5 and four spacer rings around the machine Body 1 be arranged horn 2, the bracket be it is I-shaped, be supported between fixed plate 1.3, bottom plate 1.4；It is described Horn 2 includes rectangular tubular head 2.1, and the rectangular tubular head 2.1 is protruded into the fuselage 1 and is fixed on fixed Between plate 1.3 and bottom plate 1.4.The rectangular tubular head 2.1 of four horns is surrounded in accommodating space for second circuit board 7 Fixed installation position, second circuit board 7 are fixedly connected on the support frame on bottom plate 1.4 by bottom and are fixedly mounted.Second Circuit board 7 is section board, is connected between external cell and each electronic component, and external cell is each electronics member by the section board Part power supply；Also there is the installation position for installing the flight controller, so that accommodating space between upper mounted plate 1.3 and bottom plate It is fully used, integral layout is reasonable and compact in fuselage, in addition the horn of rectangular tubular head, so that horn installation is more It is convenient and quick, structure is simplified, it is easy to disassemble.

GPS on existing unmanned plane usually passes through bracket and is mounted on outside fuselage, is chronically exposed to external environment, is not only easy It is damaged by rain erosion, by after foreign object collision, and the vibration generated during unmanned plane during flying can cause shadow to GPS accuracy It ringing, the present embodiment is in order to overcome the defect, refering to Fig. 6 and 7, GPS5 is installed by rubber connector 6 on fixed plate, Per se with a circle outer rim 5.1 on the GPS；The rubber connector 6 includes damping portion 6.3, upper stopper section 6.1 and lower backstop Portion 6.2 is respectively equipped with installation detent 6.4 between the damping portion 6.3 and upper stopper section 6.1, lower stopper section 6.2；The upper backstop Portion 6.1, lower stopper section 6.2 are each passed through GPS outer rim 5.1, the mounting hole on upper mounted plate 1.3, and corresponding detent 6.4 of installing is distinguished It is arranged at GPS outer rim 5.1 and upper mounted plate 1.3.GPS is fixed on upper fixation by the rubber connector 6 of above structure On plate 1.3, upper stopper section 6.1, the lower stopper section 6.2 of rubber connector 6 are squeezed into respectively on GPS and upper mounted plate 1.3 In mounting hole, wherein GPS outer rim is fastened at the installation detent 6.4 between damping portion and upper stopper section, and bottom plate, which is arranged in, to be subtracted At installation detent between shake portion and lower stopper section.Rubber connector plays preferable cushioning effect to GPS, avoids by unmanned plane The influence of produced vibration in flight course.

Embodiment 3:

Existing "-" type folds horn, including two sections of horns, and two sections of horn joints, side rotation connection, the other side passes through Connector is fixedly connected, and when needing to fold horn, connector is removed, two sections of horn rotary foldings；This kind of collapsible horn, folding Folded place's structure built on the sand, is easy to happen fracture.

On the basis of Examples 1 and 2, transports and store for the ease of unmanned plane, reduce its area occupied, the present embodiment There is provided horn further includes host arm 2.2, extension set arm 2.3 and fold mechanism 2.4, one end and the side of the host arm 2.2 Shape tubular head 2.1 is connected as one, and the other end is folded with the extension set arm 2.3 by the fold mechanism 2.4 and connected.

Refering to fig. 13,4 and 15, the fold mechanism includes the first folded piece, the second folded piece and sleeve, second folding The relatively described first folded piece rotary folding of overlapping piece；It is formed after first folded piece and the rotation docking of the second folded piece complete Cylinder, 2.45 screw set of sleeve is on first folded piece, the second folded piece；It is set on the first folded piece outer wall There is the first half-thread, the second folded piece outer wall is equipped with the second half-thread, first half-thread and the second half-thread shape At whole circle screw thread, the sleeve lining is equipped with internal screw thread corresponding with the whole circle screw thread.

First folded piece is fixedly connected with host arm, and the second folded piece is connect with extension set arm, and connection type is unlimited, can be with glue It connects.Sleeve 2.45 is used to rotate the first folded piece of docking and the second folded piece is fixedly connected.

The first folded piece outer wall is outward extended with mounting base 2.42, is equipped with rotation slot 2.44, institute in the mounting base The one end for stating the second folded piece is rotatably connected in the rotation slot.

Preferably, first folded piece includes the first tubular portion 2.41, and one end outer wall of first tubular portion is outside It is extended with first connecting portion 2.43；Second folded piece includes the second tubular portion 2.49 and the second connecting portion on the outside of it 2.50, complete cylinder is formed after the first connecting portion 2.43 and the rotation docking of second connecting portion 2.50, the first half spiral shell Line is set to 2.41 outer wall of the first tubular portion, and second half-thread is set to 2.50 outer wall of second connecting portion.Unmanned plane One end of host arm be plugged in the first tubular portion 2.41 of first folded piece, the other end is connect with fuselage, described point One end of horn is plugged in the second tubular portion 2.49 of second folded piece, since host arm, extension set arm are respectively with first Folded piece, the second folded piece are fixedly connected, by rotating the second folded piece relative to the first folded piece, so that extension set arm Opposite host arm rotary folding.One end of the second connecting portion 2.50 is outward extended with rotation section and the end and described second is managed The one end in shape portion 2.49 connects, and the rotation section is rotationally connected in rotation slot by shaft.

Horn is folded provided by the present embodiment, folding convenient can be realized host arm and extension set arm by fold mechanism Between 90 degree of folding angles.In addition, RTK antenna 2.47 can only be installed on fuselage in the prior art, mounting structure is complicated, two Distance is relatively small between RTK antenna, influences difference accuracy, and the present embodiment is equipped with solid in the mounting base of the fold mechanism Reservation is fixed with RTK antenna in the fixing seat, and the fixing seat includes retaining collar 2.48, and the RTK antenna bottom is equipped with One circle chuck, the retaining collar top open part extend internally the retainer ring matched with chuck.The fixing seat was by RTK days It is covered on the RTK antenna at the top of line, fixing seat bottom is fixed in mounting base, and retainer ring is arranged in chuck, avoids RTK antenna Deviate from by retaining collar.The bottom outer wall of retaining collar is outward extended with boss, and boss is equipped with mounting hole, and retaining collar passes through The connector being arranged in mounting hole is fixed in mounting base, and connector can be screw, screw or bolt etc..Unmanned plane includes Four horns, wherein optional two spaced folding horns are to install RTK antenna, mounting base be equipped with through-hole for The signal wire of the bottom RTK passes through to be connect with the flight controller carried on unmanned plane afterwards.

In order to avoid motor is shaken during transportation and causes to damage, fold mechanism provided by the present embodiment is also wrapped Supporting element 2.46 is included, the supporting element is " ⊥ " type, and a side surface of the supporting element is and the first folded piece outer wall phase Matched arcwall face, the arcwall face are connected in the first folded piece outer wall and are fixed thereon by connector；The branch The another side of support member is L shape, which is provided with cushion.Cushion can be rubber pad.Folded horn, power dress The motor set is placed on that " on " ⊥ " type supporting element, " ⊥ " type supporting element plays upward supporting role, cushion to motor The damping effect to motor can be further strengthened, the probability being damaged in transportational process is reduced.

Embodiment 4:

Since electronic component can generate more heat transfer in the process of running in fuselage, if these heats cannot give out in time It goes, electronic component can be damaged and influence unmanned plane normal flight, the opposite two sides of lower casing described in the present embodiment point Air inlet 1.24 and gas outlet 1.25 are not offered, and the ipsilateral setting of air inlet 1.24 exists in heading, the setting of gas outlet 1.25 Tail direction is flowed from there through gas and take heat outside fuselage out of, reduces the failure rate of electronic component, extend using the longevity Life.

Rack provided in the present embodiment further includes the undercarriage 4 for being supported in 1 bottom of fuselage, and the undercarriage includes At least two side frames, the side frame include two support frames 4.1 disposed in parallel, for support frame to be fixed on unmanned aerial vehicle body Installation part and connect two support frames first connecting rod 4.2；The installation part includes being fixedly connected with unmanned aerial vehicle body Mounting plate and the first pipe clamp 4.3 being fixedly connected with the mounting plate, first pipe clamp 4.3 is for gripping the support Frame 4.4；Described first pipe clamp, 4.3 one end is connect by the mounting plate with the unmanned aerial vehicle body, and the other end is for described in confession The insertion of support frame 4.1 is fixed；The central axis of plane and first pipe clamp 4.3 where the mounting plate, and the installation Plate includes extending to except the outer wall of first pipe clamp 4.3 along the direction with 4.3 central axis of the first pipe clamp Extension 4.4.In the present embodiment, the contact area of support frame and unmanned aerial vehicle body is increased by mounting plate, mounting plate includes Extension 4.4, support frame are connected by mounting plate, increase the contact area with unmanned aerial vehicle body, when unmanned plane landing and ground When face is collided, the impact force suffered by itself can be reduced；In addition, support frame by be connected to one with mounting plate first Pipe clamp 4.4 is connect after gripping with unmanned aerial vehicle body, on the one hand can reinforce the stability that support frame is connect with fuselage, another For aspect when undercarriage is by ground shock power, installation part can disperse the suffered external force of undercarriage itself, reduce impaired.

In order to improve the integrally-built stability of side frame, the side frame further includes chassis 4.6, and the chassis 4.6 is connected to Side frame bottom, two support frames of the side frame pass through connector respectively and connect with the chassis；The both ends of the chassis are socketed There is bumper and absorbing shock pad 4.7.Bumper and absorbing shock pad is set to improve the stability of unmanned plane landing at chassis both ends, improves damping effect Fruit, external force suffered by unmanned plane when droping to ground.The connector is " ⊥ " shape tee tube 4.8, " ⊥ " the shape threeway Pipe 4.8 is connected to each other by two semicanals, and two be connected to each other semicanal is fixedly clamped by bolt.Pass through " ⊥ " shape tee tube 4.8 is fixed by support frame and chassis 4.6, since two semicanals form the full circle pipe matched with horn shape, support frame bottom It is inserted in it, is fixedly clamped after two semicanal docking by bolt, so that support frame is fixedly connected on " ⊥ " shape tee tube It is interior, be conveniently replaceable maintenance, when in undercarriage a wherein support frame or chassis damage when, can be individually replaced, without whole Replacement, is greatly saved cost.

In the present embodiment, in order to further increase the stability of undercarriage and body connection structure, so that nobody Machine can grease it in, the mounting plate by pass through fuselage bolt connect with the I-shaped bracket in the fuselage, bolt It sequentially passes through to screw after mounting plate, fuselage and be screwed into I-shaped bracket, be conducive to increase the intensity that mounting plate is connect with fuselage, increasing The strong ability for bearing external force, to improve the stationarity of gear support.

Preferably, it is set on the mounting plate there are two mounting hole, including the first mounting hole 4.9 and the second mounting hole 4.10, First mounting hole 4.9 is opened on the extension 4.4 of the mounting plate, the second mounting hole and first pipe clamp 4.3 Inside communicates.Mounting plate is connect by two mounting holes with unmanned aerial vehicle body, and the second mounting hole 4.10 is located in the first pipe clamp 4.3 Portion, bolt or screw inside the first pipe clamp 4.3 by being screwed into, on the one hand, be conducive to the stability that mounting plate is connect with fuselage, it is another Aspect is conducive to improve aesthetics.

In the present embodiment, the side frame further includes second connecting rod 4.5, and the both ends of the second connecting rod 4.5 are separately connected folder Hold the second pipe clamp 4.11 of fixing support rack；The second connecting rod 4.5 is located at the middle part of the side frame, and its both ends is separately connected Two support frames.The both ends of the second connecting rod 4.5 pass through the second pipe clamp 4.11 respectively and are fixedly connected with support frame as described above, and first Connecting rod and second connecting rod can enhance the integrally-built stability of side frame and intensity, improve stationarity when landing, are conducive to prolong Long undercarriage service life.

Unmanned plane needs to configure remote controler use, does not have to place the position of remote controler on existing unmanned plane, is not easy to nobody Machine storage, the remote controler that a unmanned plane is configured are unique, if separately storage, it is more likely that cause erroneous matching and shadow Ring unmanned plane normal operation.Therefore, in the present embodiment, the structure of installation remote controler is provided on undercarriage, it is specifically, described It is set on second connecting rod 4.5 there are two hangers 4.12, two hangers are arranged at intervals on the second connecting rod.It needs to store remote controler When, the hook on remote controler is directly hung on the hangers of the pendant.

In addition, needing to be equipped with magnetic compass on existing unmanned plane, it is typically mounted on inside unmanned aerial vehicle body, but due to Fuselage components are more, larger to magnetic compass interference, in the present embodiment, magnetic compass are installed on undercarriage, in the connection Frame medial surface is equipped with mounting blocks, and container is equipped in the mounting blocks, magnetic compass transmitter is fixed in the container, by magnetic Compass detector is mounted on undercarriage, around interfere it is less, be conducive to improve measurement accuracy.

Embodiment 5:

On the basis of the above embodiments, refering to Fig. 8-12, the provided rack of the present embodiment further includes being installed on the undercarriage On medicine-chest 3, set the first fixed part on the second connecting rod, first fixed part by the first connector be set on medicine-chest The second fixed part connection.In some embodiments, the connection type between the first medicine-chest and undercarriage is provided, described One fixed part is the first fixed block 4.51 for protruding from the second connecting rod 4.5, and is offered on first fixed block 4.51 One fixation hole, the second fixed part on the medicine-chest 3 is the second fixed block 3.1 for protruding from the medicine-chest, and described second is fixed It is solid by being successively arranged in first that the second fixation hole, first fixed block 4.51 and the second fixed block 3.1 are offered on block 3.1 Determine hole, the first connector of the second fixation hole is fixedly connected.Specifically, medicine-chest includes cabinet, and cabinet upper lateral part extends upward Medicine-pouring port 3.2, when medicine-chest is installed on undercarriage, medicine-chest medicine-pouring port is located therein between two support frames of a side frame, and second is solid Determine block to be extended downwardly by medicine-pouring port bottom wall, position is corresponding with the first fixed block position that second connecting rod protrudes above, the two It is affixed after the first connector of merga pass screws and fixes, such as bolt.In addition, second connecting rod is supported in medicine-pouring port bottom wall, second Connecting rod plays supporting role to medicine-chest, avoids the medicine-chest heavier-weight due to being mounted with medical fluid and makes the first fixed block and second Being not connected firmly between fixed block is leaned on.It should be noted that medicine-chest and another side frame can also use above-mentioned connection type.

In some other embodiment, the connection type between second of medicine-chest and undercarriage is provided, described first is fixed Portion is the erecting bed 4.13 extended inwardly by the pipe clamp, and second fixed part is by internally recessed outside the medicine-chest Sunken groove 3.3, two grooves are arranged on medicine-chest, and the erecting bed is fixedly installed in the groove by connector.Groove Setting medical fluid can also be prevented to shake and influence unmanned plane during flying stability during unmanned plane during flying in medicine-chest.It should The connection type of medicine-chest and undercarriage can be used in combination with the first connection type, i.e., the medicine-chest side with medicine-pouring port is adopted It is connect with the first connection type with undercarriage, the other side is connect using second of connection type with undercarriage.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of rack for unmanned plane, including fuselage (1), which is characterized in that the fuselage (1) include upper casing (1.1) and The company of being fixed to each other after the compatible lower casing (1.2) with the upper casing (1.1), the upper casing (1.1) and lower casing (1.2) dock up and down It connects, and forms accommodating space between the upper casing (1.1) and lower casing (1.2)；The lower casing (1.2) be equipped with the first cabin (1.21) and The hatch of second cabin (1.22), first cabin (1.21) and the second cabin (1.22) is sealedly connected with hatch door respectively (1.23).

2. the rack according to claim 1 for unmanned plane, which is characterized in that further include being set to the fuselage in parallel (1) horn that upper mounted plate (1.3), bottom plate (1.4), bracket (1.5) and four spacer rings in are arranged around the fuselage (2), the bracket (1.5) is supported between fixed plate (1.3), bottom plate (1.4)；The horn (2) includes side Shape tubular head (2.1), the rectangular tubular head protrude into the fuselage and are fixed on fixed plate (1.3) He Xiagu Between fixed board (1.4).

3. the rack according to claim 2 for unmanned plane, which is characterized in that pass through on fixed plate (1.3) Rubber connector (6) is equipped with GPS(5), the GPS(5) it is equipped with circle outer rim (5.1)；The rubber connector (6) includes Damping portion (6.3), upper stopper section (6.1) and lower stopper section (6.2), the damping portion (6.3) are stopped with upper stopper section (6.1), down Installation detent (6.4) is respectively equipped between stopper (6.2)；The upper stopper section (6.1), lower stopper section (6.2) are each passed through outside GPS Mounting hole on edge (5.1), upper mounted plate (1.4), accordingly install detent (6.4) be arranged in respectively GPS outer rim (5.1) and on At fixed plate (1.4).

4. the rack according to claim 2 for unmanned plane, which is characterized in that the horn further includes host arm (2.2), extension set arm (2.3) and fold mechanism (2.4), one end of the host arm (2.2) and the rectangular tubular head (2.1) It is connected as one, the other end is folded by the fold mechanism (2.4) and the extension set arm (2.3) and connected.

5. the rack according to claim 4 for unmanned plane, which is characterized in that the fold mechanism includes the first folding Part, the second folded piece and sleeve (2.45), the relatively described first folded piece rotary folding of second folded piece；First folding Complete cylinder is formed after overlapping piece and the rotation docking of the second folded piece, sleeve (2.45) screw set is set to described first and folds On part, the second folded piece；The first folded piece outer wall is equipped with the first half-thread, and the second folded piece outer wall is equipped with the Two half-threads, first half-thread and the second half-thread form whole circle screw thread, and the sleeve lining is equipped with and the whole circle spiral shell The corresponding internal screw thread of line.

6. the rack according to claim 1 for unmanned plane, which is characterized in that the upper casing inner wall is protruding with multiple One connecting column, is equipped with the first connecting hole in first connecting column, and the lower casing inner wall is protruding with multiple to be connect with described first Corresponding second connecting column (1.26) in column position, second connecting column (1.26) is interior to be equipped with the second connecting hole, the upper casing With lower casing by by being successively arranged in the first connecting hole at the top of upper casing, the connector in the second connecting hole is fixedly connected.

7. the rack according to claim 1 for unmanned plane, which is characterized in that the opposite two sides difference of the lower casing Offer air inlet (1.24) and gas outlet (1.25).

8. the rack according to claim 1 for unmanned plane, which is characterized in that further include being supported in the fuselage bottom Undercarriage (4), the undercarriage (4) include at least two side frames, the side frame include two support frames disposed in parallel (4.1), for support frame (4.1) to be fixed on unmanned aerial vehicle body

Installation part and the first connecting rod for connecting two support frames；The installation part includes the peace being fixedly connected with unmanned aerial vehicle body Loading board and the first pipe clamp (4.3) being fixedly connected with the mounting plate, first pipe clamp is for gripping support frame as described above； First pipe clamp one end is connect by the mounting plate with the unmanned aerial vehicle body, and the other end is used to be inserted into for support frame as described above It is fixed；The central axis of plane and first pipe clamp (4.3) where the mounting plate, and the mounting plate include along with The direction of first pipe clamp (4.3) central axis extends to the extension except the outer wall of first pipe clamp (4.3) (4.4).

9. a kind of unmanned plane, which is characterized in that including rack described in claim 1-8 any one, the upper casing (1.1) It is formed by accommodating space between lower casing (1.2) and is fixed with second circuit board (7) and flight controller (8), first cabin It is equipped in body (1.21) and flies control functional module, first circuit board (9) are installed in second cabin (1.22).

10. unmanned plane according to claim 9, which is characterized in that further include being supported in rising and falling for the fuselage (1) bottom Frame (4) and the medicine-chest (3) being installed on the undercarriage (4), the undercarriage (4) include at least two side frames, the side Frame includes two support frames (4.1) disposed in parallel and the second connecting rod (4.5) for connecting two support frames, the second connecting rod (4.5) both ends are connected on two support frames (4.1)；The second connecting rod (4.1) is equipped with the first fixed part, described First fixed part is connect by the first connector with the second fixed part being set on medicine-chest.