Inflatable take-off and landing support quick assembly and disassembly mechanism for water take-off and landing unmanned aerial vehicle

文档序号:1424398 发布日期:2020-03-17 浏览:27次 中文

阅读说明:本技术 一种水上起降无人机充气式起降支架快速拆装机构 (Inflatable take-off and landing support quick assembly and disassembly mechanism for water take-off and landing unmanned aerial vehicle ) 是由 罗宗权 于 2019-12-07 设计创作,主要内容包括:本发明公开了一种水上起降无人机充气式起降支架快速拆装机构,包括580DT环保工作船,所述580DT环保工作船的上端外表面设置有起吊吊机,所述起吊吊机的下端一端外表面设置有回收器。本发明通过回收器,能满足母船在3-5节航速下,母船横倾20°/纵倾10°时安全平稳的收放水面无人航行器,系统设计有自动挂钩、遥控释放功能,智能波浪补偿功能,有效控制无人航行器在降放回收的震动和摇摆,120秒内完成无人航行器的降放、回收动作,可以有效的扩大无人航行器的工作范围,还可以保证回收器在高海况下的稳定性能与正常工作,保证对无人航行器的回收与释放,有效的提高了本机构的实用性,有利于人们的使用。(The invention discloses a quick dismounting mechanism for an inflatable lifting support of an overwater lifting unmanned aerial vehicle, which comprises a 580DT environment-friendly working ship, wherein a lifting crane is arranged on the outer surface of the upper end of the 580DT environment-friendly working ship, and a recoverer is arranged on the outer surface of one end of the lower end of the lifting crane. The unmanned underwater vehicle recovery device can safely and stably recover and release the unmanned underwater vehicle when the mother ship is at a transverse inclination angle of 20 degrees/a longitudinal inclination angle of 10 degrees at a navigational speed of 3-5 sections through the recovery device, the system is provided with an automatic hook, a remote control release function and an intelligent wave compensation function, the vibration and the swing of the unmanned underwater vehicle during the descending and the releasing are effectively controlled, the descending, the releasing and the recovering actions of the unmanned underwater vehicle are completed within 120 seconds, the working range of the unmanned underwater vehicle can be effectively expanded, the stable performance and the normal work of the recovery device under a high sea condition can be ensured, the recovery and the releasing of the unmanned underwater vehicle are ensured, the practicability of the recovery device is effectively improved, and the recovery device is beneficial to the use of people.)

1. The utility model provides a unmanned aerial vehicle inflatable take off and land support quick assembly disassembly mechanism takes off and land on water, includes 580DT environmental protection work ship (1), its characterized in that: the outer surface of the upper end of the 580DT environment-friendly working ship (1) is provided with a hoisting crane (2), and the outer surface of the lower end of the hoisting crane (2) is provided with a recoverer (3).

2. The quick dismounting mechanism of inflatable take-off and landing support of unmanned aerial vehicle on water of claim 1, characterized in that: the outer surface of the lower end of the recoverer (3) is provided with a recoverer shell (31), a V-shaped channel (34) is formed in the middle of the upper end of the recoverer shell (31), unhooking iron blocks (37) are arranged on the outer surfaces of the two sides of the V-shaped channel (34), a cable compensator (33) is arranged on the outer surface of the upper end of the V-shaped channel (34), a winch (35) is arranged at the lower end of the cable compensator (33), a hanging ring (32) is arranged at the upper end of the recoverer shell (31), and a V-shaped channel (34) is arranged on the outer surface of the front end of the V-.

3. The quick dismounting mechanism of inflatable take-off and landing support of unmanned aerial vehicle on water of claim 1, characterized in that: the outer surface of the front end of the recoverer (3) is provided with a compensation traction rope (5), and the outer surface of the middle part of the compensation traction rope (5) is provided with a direction control arm (4).

4. The quick dismounting mechanism of inflatable take-off and landing support of unmanned aerial vehicle on water of claim 1, characterized in that: the outer surface of the upper end of the V-shaped channel (34) is provided with a HW30 unmanned aerial vehicle (6), and the outer surface of the lower end of the HW30 unmanned aerial vehicle (6) is detachably connected with two sides of the upper end of the V-shaped channel (34) through unhooking iron resistors (37).

5. The quick dismounting mechanism of inflatable take-off and landing support of unmanned aerial vehicle on water of claim 1, characterized in that: and the HW30 unmanned aerial vehicle (6), the stay cable compensator (33) and the winch (35) are connected through a compensation traction rope (5).

6. The quick dismounting mechanism of inflatable take-off and landing support of unmanned aerial vehicle on water of claim 1, characterized in that: a rotary suspension arm is arranged between the lifting crane (2) and the 580DT environment-friendly working ship (1), and the outer surface of the lower end of the lifting crane (2) is movably connected with the outer surface of the upper end of the 580DT environment-friendly working ship (1) through the rotary suspension arm.

7. The quick dismounting mechanism of inflatable take-off and landing support of unmanned aerial vehicle on water of claim 1, characterized in that: be provided with movable gyro wheel between HW30 unmanned aerial vehicle (6) and V type channel (34), the lower extreme surface of HW30 unmanned aerial vehicle (6) passes through movable gyro wheel and the upper end surface swing joint of V type channel (34).

8. The quick dismounting mechanism of inflatable take-off and landing support of unmanned aerial vehicle on water of claim 1, characterized in that: the direction control arm (4) is positioned on one side of the upper end of the 580DT environment-friendly working ship (1), and the outer surface of one end of the direction control arm (4) is movably connected with the outer surface of the middle part of the environment-friendly working ship with the compensation traction rope (5).

Technical Field

The invention relates to the field of water unmanned aerial vehicle corollary equipment, in particular to a quick dismounting mechanism for an inflatable take-off and landing support of a water take-off and landing unmanned aerial vehicle.

Background

The utility model provides a take off and land unmanned aerial vehicle inflatable take off and land support quick assembly disassembly mechanism on water makes things convenient for people to take off and land unmanned aerial vehicle inflatable take off and land support quick disassembly and installation's mechanism on water, and its convenient to use has obtained the wide use, but along with the development of times science and technology, people also are higher and higher to the functional requirement of the unmanned aerial vehicle inflatable take off and land support quick assembly disassembly mechanism on water.

In the use, the operation of following form can be accomplished to a quick assembly disassembly mechanism of unmanned aerial vehicle inflatable take off and land support that takes off and land on water: the unmanned aerial vehicle that takes off and land on water does not need the support of taking off and land, but has transportation equipment to carry out the propelling movement and go into water and retrieve the action, has had a conception in earlier stage, uses the arm to come to follow the cabin propelling movement income water and retrieve on the large vessel, is called unmanned navigation ware recovery system on water.

Although the existing inflatable take-off and landing support quick dismounting mechanism for the water take-off and landing unmanned aerial vehicle is simple in structure and convenient to use, the function is single, the existing inflatable take-off and landing support quick dismounting mechanism for the water take-off and landing unmanned aerial vehicle cannot guarantee that the posture of the water take-off and landing support quick dismounting mechanism is stable when the water take-off and landing unmanned aerial vehicle slides to a dock to recover and arrange operation in the using process, certain disadvantages are achieved, the existing inflatable take-off and landing support quick dismounting mechanism for the water take-off and landing unmanned aerial vehicle is under the three-level sea condition in the working process, a ship sails in the sea wave and inevitably can swing under the action of the sea wave, particularly, the existing inflatable take-off and landing support quick dismounting mechanism for the water take-off and landing unmanned aerial vehicle is more violent under the high sea condition, the.

Disclosure of Invention

The invention aims to solve the technical problem of overcoming the existing defects, provides a quick dismounting mechanism for an inflatable take-off and landing support of an unmanned aerial vehicle, and can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the 580DT environment-friendly working ship comprises a 580DT environment-friendly working ship body, wherein a hoisting crane is arranged on the outer surface of the upper end of the 580DT environment-friendly working ship body, and a recoverer is arranged on the outer surface of one end of the lower end of the hoisting crane.

Preferably, a recoverer shell is arranged on the outer surface of the lower end of the recoverer, a V-shaped channel is formed in the middle of the upper end of the recoverer shell, unhooking iron blocks are arranged on the outer surfaces of two sides of the V-shaped channel, a pull rope compensator is arranged on the outer surface of the upper end of the V-shaped channel, a winch is arranged at the lower end of the pull rope compensator, a hanging ring is arranged at the upper end of the recoverer shell, and a V-shaped channel is arranged on the outer surface of the front end of the V-.

Preferably, the outer surface of the front end of the recoverer is provided with a traction rope with compensation, and the outer surface of the middle part of the traction rope with compensation is provided with a direction control arm.

Preferably, the outer surface of the upper end of the V-shaped channel is provided with a HW30 unmanned aerial vehicle, and the outer surface of the lower end of the HW30 unmanned aerial vehicle is detachably connected with two sides of the upper end of the V-shaped channel through unhooking iron resistors.

Preferably, the HW30 unmanned aerial vehicle, the cable compensator and the winch are connected through a belt compensation traction rope.

Preferably, a rotary type suspension arm is arranged between the lifting crane and the 580DT environment-friendly working ship, and the outer surface of the lower end of the lifting crane is movably connected with the outer surface of the upper end of the 580DT environment-friendly working ship through the rotary type suspension arm.

Preferably, be provided with movable roller between HW30 unmanned aerial vehicle and the V type channel, HW30 unmanned aerial vehicle's lower extreme surface passes through movable roller and the upper end surface swing joint of V type channel.

Preferably, the direction control arm is positioned on one side of the upper end of the 580DT environment-friendly workboat, and the outer surface of one end of the direction control arm is movably connected with the outer surface of the middle part with the compensation traction rope.

Compared with the prior art, the invention has the beneficial effects that:

1. the unmanned underwater vehicle can be safely and stably folded and unfolded when the parent ship transversely tilts by 20 degrees/longitudinally tilts by 10 degrees at the navigational speed of 3-5 sections through the recoverer; the system is provided with an automatic hook, a remote control release function and an intelligent wave compensation function, and effectively controls the vibration and swing of the unmanned aircraft during landing, releasing and recovering; and the lowering, releasing and recovering actions of the unmanned aircraft are finished within 120 seconds.

Drawings

FIG. 1 is a side view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a side view of the retriever of FIG. 1 according to the invention;

FIG. 5 is a top plan view of the retriever of FIG. 1 according to the invention;

FIG. 6 is a rear elevational view of the retriever of FIG. 1 according to the invention;

in the figure: 1. 580DT environment-friendly working ship; 2. hoisting a crane; 3. a recoverer; 31. a recycler housing; 32. a hoisting ring; 33. a guy rope compensator; 34. a V-shaped channel; 35. a winch; 36. capturing a recoverer; 37. unhooking the iron block; 4. a direction control arm; 5. a compensating haulage rope; 6. HW30 drone.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: the working ship comprises a 580DT environment-friendly working ship 1, a lifting crane 2 is arranged on the outer surface of the upper end of the 580DT environment-friendly working ship 1, and a recoverer 3 is arranged on the outer surface of one end of the lower end of the lifting crane 2.

In order to be convenient for people to retrieve and release the unmanned aerial vehicle, in this embodiment, preferably, the outer surface of the lower end of the recoverer 3 is provided with a recoverer shell 31, a V-shaped groove 34 is formed in the middle of the upper end of the recoverer shell 31, the outer surfaces of the two sides of the V-shaped groove 34 are both provided with unhooking iron blocks 37, the outer surface of the upper end of the V-shaped groove 34 is provided with a cable compensator 33, the lower end of the cable compensator 33 is provided with a winch 35, the upper end of the recoverer shell 31 is provided with a hanging ring 32, and the outer surface.

In order to control the direction, in this embodiment, preferably, the outer surface of the front end of the recoverer 3 is provided with a traction rope 5 with compensation, and the outer surface of the middle part of the traction rope 5 with compensation is provided with a direction control arm 4.

So that unmanned aerial vehicle's recovery is fixed, in this embodiment, preferably, the upper end surface of V type channel 34 is provided with HW30 unmanned aerial vehicle 6, and HW30 unmanned aerial vehicle 6's lower extreme surface all can be dismantled with the upper end both sides of V type channel 34 through unhook sear 37 and be connected.

In order to guarantee unmanned aerial vehicle's recovery and release, in this embodiment, it is preferable that all be connected through taking compensation haulage rope 5 between HW30 unmanned aerial vehicle 6, cable compensator 33 and the winch 35.

In order to control the lifting of the recoverer 3, in this embodiment, preferably, a rotary boom is disposed between the lifting crane 2 and the 580DT environmental protection work ship 1, and the outer surface of the lower end of the lifting crane 2 is movably connected with the outer surface of the upper end of the 580DT environmental protection work ship 1 through the rotary boom

In order to guarantee the smoothness of unmanned aerial vehicle recovery and release, in this embodiment, preferably, be provided with movable roller between HW30 unmanned aerial vehicle 6 and the V type channel 34, HW30 unmanned aerial vehicle 6's lower extreme surface is through the upper end surface swing joint of movable roller with V type channel 34.

In order to ensure the basic position of the direction control arm 4, so as to achieve the function of controlling the direction, in this embodiment, preferably, the direction control arm 4 is located at one side of the upper end of the 580DT environmental protection working ship 1, and the outer surface of one end of the direction control arm 4 is movably connected with the outer surface of the middle part of the compensation hauling rope 5.

The working principle and the using process of the invention are as follows: the function of this mechanism does: in order to ensure the reliable work of the recoverer 3, the stable posture of the recoverer during the recovery and distribution operation must be ensured; therefore, the system is subjected to shimmy damping system analysis and wave compensation system analysis; the working environment of the whole set of system is operated under 3-level sea conditions, and the ship sails in sea waves and is inevitably swung under the action of the sea waves, particularly under high sea conditions; the recovery system swings along with the mother ship (mainly rolling and pitching in the swinging process), so the system has to be provided with a shimmy damping device under the actual sea condition; wherein, the wave compensation process is analyzed, when the recoverer 3 of the recovery system is released to contact the sea surface, the recoverer 3 moves with the wave; the unmanned surface vehicle is divided into two working conditions of lifting and descending during actual work; the recoverer 3 always keeps a tight state with a compensating hauling rope 5 in the hoisting and downward processes; catch retriever 36 and autosegregation function: a capture recoverer 36 is arranged at the inlet of a recoverer 3 in the water surface unmanned aircraft recovery system, can capture an aircraft which is contacted with the water surface and has certain collision with the water surface, and can be lifted back through a remote control winch 35 in the recoverer 3 after being captured, so that the water surface aircraft and the recoverer 3 are combined into a whole to be integrally hoisted; directional control and hold functions: the direction control arm 4 is provided with a direction damper, so that the direction of the recoverer 3 is consistent with the axis of the ship during recovery and distribution, and the recoverer 3 and the 580DT environment-friendly working ship 1 can keep running at the same speed; remote control function: the control (hoisting, lowering, recovering and the like) of the whole system is manually controlled, and a wireless handle remote control function is added, so that the recovering and lowering of the HW30 unmanned aerial vehicle 6 can be completed by controlling a handle of a hand box.

The structure system comprises the following components: the water surface HW30 unmanned aerial vehicle 6 is a special device for recovering unmanned ground effect aircrafts, unmanned boats and other water surface unmanned aircrafts on ships, floating platforms or some fixed facilities, and the system mainly comprises a hoisting crane 2, a recoverer 3, a direction control arm 4 and a control system; an unmanned aircraft capturing recoverer 36 and a separating device are arranged in the direction control arm 4; the lifting crane 2 is provided with an integrated buffer, an automatic wave compensation system, a shimmy reduction system and the like, so that the rolling and pitching angles of the recoverer 3 can be reduced; the direction control arm 4 is provided with a direction damper so that the direction of the recoverer 3 is consistent with the axis of the ship during recovery and distribution.

Hoisting crane 2: the lowering and recovering device mainly comprises: the device comprises a rotary suspension arm, a damping buffer mechanism, a wave compensation winch, a sway reduction balance mechanism, a hook system, a hydraulic station, an intelligent electric control system, a deck base and the like; the wave compensation winch comprises: the winch controls the wave compensation of the cable wire of the boat crane, the cable wire is kept tensioned all the time in the boat reeling and unreeling process, when the platform leaves the water surface or just descends to the water surface, the platform is influenced by wind waves, relative heave motion exists between the platform and a mother ship, the compensation winch automatically activates a compensation function, the platform cannot shake violently, and the stability and safety of the platform reeling and unreeling process can be ensured; the winch has a manual function and can be used in an emergency under a power-off state; a rotary suspension arm: the suspension arm is swung out of the ship and retracted into the ship, is synchronous with the wave compensation winch, and has a manual function emergency when power is off; the sway reduction balance mechanism comprises: the anti-sway balancing mechanism consists of two damping oil cylinders which are vertically arranged, and are respectively used for reducing the transverse and longitudinal swaying of the platform; a buffer mechanism: the vibration of the boat crane caused by the outside world in the hoisting process of the platform is reduced; remote control lifting hook system: the platform adopts a single-lifting-point design, the release mechanism is arranged on the platform and is controlled in a wireless remote control mode, and the hooking and the release can be realized under the unmanned state on the platform; a hydraulic pump station: providing a boat davit power source, an oil tank with a hydraulic oil purification system and an oil temperature cooler system, wherein the motor is a marine motor; the hydraulic system selects high-quality brand hydraulic elements, and has the functions of high oil temperature, low liquid level, filter blockage fault alarm and automatic protection of over-low liquid level and motor overload; the control system is internally provided with a multi-core control system, an electrical element, a sensor and an encoder; automatically controlled cabinet includes ampere meter, button and pilot lamp, the internal connection: the flame-retardant, low-smoke and halogen-free marine electric wire is selected.

A recoverer 3: the recoverer 3 is provided with a vehicle capturing releaser which can do reciprocating motion on the framework of the recoverer 3 through a steel wire rope, a water vehicle entering the recoverer 3 is supported in a rolling V-shaped support in the framework and fixed, a slideway dock and the vehicle form a whole to prevent the vehicle from being influenced by severe environment, when the vehicle needs water surface release, the recoverer 3 descends to the floating position of the water surface through a wave compensation crane and controls the direction of the recoverer 3 through a damping direction control arm 4 to enable the recoverer 3 to be axially parallel to a mother ship, when the recoverer is lowered to the release position, a winch 35 in the recoverer 3 is remotely controlled to start lowering, and when a capturing recoverer 36 in the recoverer 3 reaches the position of a unhooking iron block 37, an HW 30.

Direction control arm 4: the direction control arm 4 controls the steel cable wave compensation of the traction aircraft, the axis of the recoverer 3 is kept parallel to the mother ship all the time in the retraction process, when the recoverer 3 leaves the water surface or is just lowered to the water surface, the recoverer 3 is influenced by wind waves, the axis of the recoverer 3 and the axis of the mother ship move relatively, the compensation winch automatically activates a compensation function, the recoverer 3 cannot shake violently, and the stability and the safety of the retraction process of the unmanned aircraft can be ensured.

The control system comprises: the water surface unmanned aircraft control system adopts a control system with two modes of manual control and wireless remote control, and the control system controls the rotation of the hoisting crane 2, the lowering and the recovery of the recoverer 3 and the lifting and the release of the capturing recoverer 36.

The working process of the unmanned surface vehicle collecting and releasing system comprises the following steps: laying work, namely, swinging a hoisting boom to move a recoverer 3 to the outboard of a ship, applying the recoverer 3 to the water surface by a hoisting cable, starting a wave compensation system to implement wave compensation control, controlling a winch 35 inside the recoverer 3 after the recoverer 3 stably moves along with waves, starting a capture recoverer 36 inside the recoverer 3 to slide down to the recoverer 3 along a track, unhooking a choke iron 37 inside, opening a hook of a vehicle capture release mechanism by the unhooking choke iron 37, and enabling the vehicle to enter the sea surface through a V-shaped channel 34 after the hook is released to realize the release of an HW30 unmanned aerial vehicle 6; and (3) recovery work: the front end capturing head of the HW30 unmanned aerial vehicle 6 collides with a rotary hook of a capturing recoverer 36, the capturing head enters the hook and is integrated with the capturing recoverer 36, the capturing recoverer 36 enables the HW30 unmanned aerial vehicle 6 to enter a V-shaped channel 34 through traction of a winch 35, the HW30 unmanned aerial vehicle 6 is integrated with the recoverer 3 when being pulled to the bow tip of the recoverer 3, a hoisting cable hoists the recoverer 3 away from the water surface and swings to the inboard through a hoisting arm, the recoverer 3 is placed on a support of a deck recoverer 3, and recovery work is finished.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

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