CN207983369U - A kind of high stability exquisiteness operation explosive-removal robot - Google Patents

Abstract

The utility model discloses a kind of high stability exquisiteness operation explosive-removal robots, including mobile platform, manipulator, mechanical arm and visual monitoring device；Mobile platform includes outer case, mechanical arm fixed seat, Mobile Slide, support device and running gear, running gear is set to the bottom of outer case, Mobile Slide is slidingly disposed in outer case, and mechanical arm fixed seat is fixed on Mobile Slide, and support device is set to the quadrangle of the inside of outer case；The lower end of mechanical arm is connected to mechanical arm fixed seat, and manipulator is then set to the upper end of mechanical arm；Support device includes the retractable driving device that retractable support arm and driving retractable support arm stretch up and down, and the bottom of outer case is equipped with the through-hole for the flexible disengaging of retractable support arm；It is additionally provided with the laser range finder of the distance for measuring suspicious explosive；Further include having remote control terminal.The utility model has cross-country traveling ability, high stability, ease for operation, exquisite work capacity and pinpoint advantage.

Description

A kind of high stability exquisiteness operation explosive-removal robot

Technical field

The utility model is related to explosive-removal robot technical fields, and in particular to a kind of explosive machine of high stability exquisiteness operation People.

Background technology

Explosive-removal robot can assist in People's Armed Police, public security executes the tasks such as anti-terrorism excludes explosive, dangerous material are destroyed.In intelligence Under auxiliary or manual control, the place where suspicious explosive can be reached by general ground completes to detect suspicious item It examines, shift or Exclusion Tasks, it is explosive efficient, greatly reduce the injures and deaths of personnel.

In recent years, anti-terrorism situation is more and more severeer in the world, and more and more law-breakers hold explosive, various The attack of terrorism of means often occurs, and brings serious hazard analysis and HACCP, causes ill effect.

In order to maintain social stability, the research and development of the technology and equipment explosion-proof to anti-terrorism give greatly developed countries Attention and larger input, explosive-removal robot is just developed early in the 1960s, especially after " 9.11 event ", various countries More strengthen the research to anti-terror explosive removing robot.In recent years, reached again for the research of anti-terror explosive removing robot and application It in one new stage, quickly grows, in reliability and intelligent etc. the raising having largely again.U.S., moral, English, Fa Deng states have been developed that various types of anti-terror explosive removing robots, have equipped and have used in army and police department extensively.

Compared with foreign countries, starting is studied than later in terms of explosive-removal robot by China, and explosive-removal robot type is also very limited, Although late 1980s, explosive-removal robot is included in 863 Program by China, by development in 20 years, has been studied and has been developed A variety of explosive-removal robots, they have the function of detection and several work, but undeniably there are still many gaps with foreign countries.

Currently, explosive-removal robot mobile platform mainly has wheeled, crawler type and wheel to carry out convolution etc..Since explosive scene is made Industry environment is complicated and changeable, in order to have preferable adaptive capacity to environment, stronger obstacle detouring and climbing capacity is obtained, so in the market Explosive-removal robot mobile platform is mostly based on crawler body.

No matter wheeled, crawler type or wheel carry out the explosive-removal robot combined, and drive system principle is mostly similar, are all to slow down Driving motor positive and negative rotation drives driving wheel rotation or driving wheel to drive crawler belt to realize that explosive-removal robot movement is flat by connecting shaft Platform moves forward and backward.When explosive-removal robot executes explosive operation, the reasons such as mechanical arm gravity center shift and component assembling gap Explosive-removal robot can be caused to shake, increase task difficulty, in some instances it may even be possible to ignite suspicious explosive in advance.When adjusting mechanical arm can not When being close to suspicious explosive, need by mobile explosive-removal robot position compensation manipulator at a distance from suspicious explosive, together Sample can cause explosive-removal robot to shake, and increase task difficulty, while extending the activity duration, inefficiency.

CN105758271A (publication date：2016-07-13) disclose a kind of explosive-removal robot machine that wheel leg arm tank combines People.It is fast under complicated landform to greatly improve explosive-removal robot by the way of wheel leg combination for the mobile platform of the robot Speed arrives at the ability of suspicious explosive.Pedipulator and the contact position on ground are discrete simultaneously, can pass through the flexible tune of leg The posture of whole robot, makes car body be kept upright, and good operating condition is provided for mechanical arm.But its is complicated, cost With operation difficulty height.

CN104669275A (publication date：2015-06-03) disclose a kind of intelligent explosive-removal robot.The machine of the robot Tool arm is a kind of current typical mechanical arm, is fixed on a mobile platform by Rotatable base, the position of pedestal is immutable It is dynamic.Mechanical arm is made of level-one principal arm, two level secondary arm and manipulator for explosion eliminating, and when operation passes through constantly regulate level-one principal arm position, two Grade secondary arm and manipulator reach desired location, and the activity duration is long, and efficiency is low, do not meet quickly explosive requirement.In addition, when adjusting When the position of mechanical arm is unable to reach expected job position, it is also necessary to be made to compensate by the integral position of mobile explosive-removal robot Industry distance, not only complicated for operation, the consuming time is long, can also explosive-removal robot be caused to shake, be unfavorable for safety work.

To sum up, existing explosive-removal robot mainly has the disadvantage that：

1, explosive-removal robot its stability in operation is poor mostly at present, since gravity center shift and modular construction gap etc. are former Cause easily causes explosive-removal robot shaking, increases task difficulty, in some instances it may even be possible to ignite suspicious explosive in advance.Partial solution There is certain effect but unobvious, and complicated, of high cost and operation difficulty is high；

2, the mechanical arm precision of current explosive-removal robot is low, and malfunction, the activity duration is long, is not easy to reach predetermined operation Position generally requires, by mobile explosive-removal robot position compensation operation distance, to cause explosive-removal robot to shake, it is difficult to increase operation Degree extends the activity duration, inefficiency.

3, existing explosive-removal robot is the image passed back using the experience or camera of operator mostly, judges explosive machine People at a distance from suspicious explosive, gripper at a distance from suspicious explosive and the position of the suspicious explosive of identification, expend the time Long, efficiency is low, and accurate work capacity is poor；

4, existing explosive-removal robot remote control terminal button is more, complicated for operation, is unfavorable for training and quick, accurate and peace The requirement of the complete suspicious explosive of disposition.

Utility model content

In view of the deficiencies of the prior art, the utility model is intended to provide a kind of high stability exquisiteness operation explosive-removal robot, With cross-country traveling ability, high stability, ease for operation, exquisite work capacity and pinpoint advantage.

To achieve the goals above, the utility model adopts the following technical solution：

A kind of high stability exquisiteness operation explosive-removal robot, including mobile platform, manipulator, mechanical arm and visual surveillance dress It sets；The mobile platform includes outer case, mechanical arm fixed seat, Mobile Slide, support device and running gear, it is described walk luggage It is arranged in the bottom of the outer case, the Mobile Slide is slidingly disposed in the outer case, the mechanical arm fixed seat It is fixed on the Mobile Slide, the support device is set to the quadrangle of the inside of the outer case；The lower end of the mechanical arm It is connected to the mechanical arm fixed seat, the manipulator is then set to the upper end of the mechanical arm；The support device includes flexible The retractable driving device that support arm and the driving retractable support arm stretch up and down, the bottom of the outer case are equipped with described in confession The through-hole of the flexible disengaging of retractable support arm；It is additionally provided with the laser range finder of the distance for measuring suspicious explosive；Further include having It is electrically connected at the remote control terminal of the laser range finder, mobile platform, manipulator, mechanical arm and visual monitoring device.

Further, the retractable driving device includes driving motor, two intermeshing reduction gearing, lead screws, institute The one of reduction gearing of output shaft drive connection of driving motor is stated, the upper end of the lead screw is then sequentially connected in another Reduction gearing, the retractable support arm screw thread are socketed on the lead screw.

Further, the lower end of the retractable support arm is sharp cone distal, and outer surface is equipped with external screw thread.

Further, the lead screw and retractable support arm are set in fixed arm, and the inner wall of the fixed arm, which is equipped with, to be slided Dynamic rail road, the retractable support arm are slidably mounted on the sliding rail.

Further, the running gear includes two groups, and is divided into the both sides of the outer case；Every group of running gear is equal Including main drive motor, active travelling wheel, driven travelling wheel, driving crawler belt and guide plate, the both ends difference of the driving crawler belt It is sheathed on the active travelling wheel and driven travelling wheel, middle section is then sheathed on the guide plate；The active travelling wheel passes The dynamic output shaft for being connected to main drive motor.

Further, the running gear further includes having swing arm, is symmetrically arranged at the front end of babinet both sides with after It holds and is sequentially connected in the swing arm drive motor.

Further, the Mobile Slide includes mobile sliding block, shifting sledge, slide unit, firm banking, mobile lead screw, institute State that mobile sliding block is slidably mounted on the shifting sledge and screw thread is socketed on the mobile lead screw；The firm banking is fixed It is fixed on the slide unit and with the mobile sliding block, the mechanical arm fixed seat is fixed on the firm banking；The shifting Dynamic screw rod transmission is connected to mobile decelerating motor.

Further, the mechanical arm includes principal arm, secondary arm and forearm, before the manipulator is fixed on the forearm End, the principal arm, secondary arm and forearm are rotatably connected successively, and the lower end of the principal arm is rotatably connected at the mechanical arm and consolidates Reservation.

Further, intelligent oblique angle tester is provided in the middle part of the inside of the outer case.

Further, the visual monitoring device includes binocular camera and full-view camera, wherein the binocular camera shooting Head is fixed on the rear of the manipulator, and the full-view camera is fixed on the outer case by lifting holder.

The beneficial effects of the utility model are：

1) support device, the intelligent oblique angle tester of bottom setting is arranged in explosive-removal robot mobile platform surrounding.Explosive operation When, support device stretches out support arm stabilization and supports robot, ensures that explosive-removal robot is integrally honest, it is steady to greatly increase its operation Qualitative and safety, support arm lower end can install different attachmentes and adapt to Different Ground；

2) Mobile Slide is set inside explosive-removal robot mobile platform, and mechanical arm fixes Mobile Slide by rotating base On, mechanical arm can be moved forward and backward along Mobile Slide for compensating operation distance, worked in coordination with mechanical arm, improved explosive-removal robot Operation stability and mechanical arm exquisiteness work capacity improve working efficiency, increase stationarity；

3) laser range finder is arranged in explosive-removal robot mobile platform front end, and binocular camera is arranged on manipulator, can be accurate It positions the position of suspicious explosive and judges operation distance, reduce the activity duration, improve working efficiency.

Description of the drawings

Fig. 1 is the general structure schematic diagram of the utility model embodiment；

Fig. 2 is status diagram of the utility model embodiment when retractable support arm stretches out；

Fig. 3 is the support device structure diagram of the utility model embodiment；

Fig. 4 is the driving structure schematic diagram of running gear in the utility model embodiment；

Fig. 5 is the structural schematic diagram of the Mobile Slide of the utility model embodiment.

Specific implementation mode

Below with reference to attached drawing, the utility model will be further described, it should be noted that following embodiment is with this Premised on technical solution, detailed embodiment and specific operating process are given, but the scope of protection of the utility model is simultaneously It is not limited to the present embodiment.

As shown in Figs. 1-5, a kind of high stability exquisiteness operation explosive-removal robot includes mobile platform, manipulator 1, mechanical arm 5 and visual monitoring device；The mobile platform includes outer case 12, mechanical arm fixed seat 3, Mobile Slide 7,8 and of support device Running gear, the running gear are set to the bottom of the outer case 12, and the Mobile Slide 7 is slidingly disposed at the outer container In body 12, the mechanical arm fixed seat 3 is fixed on the Mobile Slide 7, and the support device 8 is set to the outer case 12 Internal quadrangle；The lower end of the mechanical arm 5 is connected to the mechanical arm fixed seat 3, and the manipulator 1 is then set to the machinery The upper end of arm 5；The support device 8 includes retractable support arm 806 and drives about the 806 retractable support arm is flexible to stretch Contracting driving device, the bottom of the outer case 12 are equipped with the through-hole for the flexible disengaging of the retractable support arm；It is additionally provided with for surveying Measure the laser range finder of the distance of suspicious explosive；Further include being electrically connected at the laser range finder, mobile platform, machinery The remote control terminal of hand, mechanical arm and visual monitoring device.

The operation principle of above-mentioned high stability exquisiteness operation explosive-removal robot is：Luggage is walked by remote control terminal control Startup is set, running gear drives mobile platform, manipulator, mechanical arm and visual monitoring device to move integrally, until the row of being moved to Quick-fried setting.At this point, remote control terminal control retractable driving device drives the retractable support arm to move downward stretching through-hole, prop up Entire mobile platform is propped up, ensures stabilization of the mobile platform in explosive operation.It is controlled by remote control terminal in explosive operation Mobile Slide moves, and realizes the back-and-forth motion of mechanical arm and manipulator, and passes through remote control terminal control machinery arm and machinery The processing of suspicious explosive is realized in the movement of hand.Laser range finder is used to measure the distance of suspicious explosive and is transmitted to long-range control End processed, the visual monitoring device is then used to obtain the image at explosive setting scene or audio-visual data is transmitted to remote control End controls the basis for estimation of robot as operating personnel.

Further, as shown in figure 3, the retractable driving device includes 802, two intermeshing decelerations of driving motor Gear 801, lead screw 803, the one of reduction gearing 801 of output shaft drive connection of the driving motor 802, the lead screw 803 upper end is then sequentially connected in another reduction gearing 801, and 806 screw thread of retractable support arm is socketed on the lead screw 803。

When needing to support the mobile platform explosive operation of progress, driving motor 802 drives the reduction gearing 801 being attached thereto Rotation, the reduction gearing 801 drive the rotation of another reduction gearing 801, to drive lead screw 803 to rotate.Screw thread is socketed on The retractable support arm 806 of the lead screw 803 is stretched down along lead screw 803, and the bottom of outer case is stretched out by through-hole, is supported Mobile platform.When not needing support movable platform, driving retractable support arm is shunk upwards.

Further, the lower end of the retractable support arm 806 is sharp cone distal, and outer surface is equipped with external screw thread.By outer The setting of screw thread can install corresponding Holder Fasteners according to different terrain, to adapt to different ground, realize preferably support.

Further, the lead screw 803 and retractable support arm 806 are set in fixed arm 804, the fixed arm 804 Inner wall be equipped with sliding rail 805, the retractable support arm 806 is slidably mounted on the sliding rail 805.It is described flexible Support arm moves up and down along the sliding rail.

Further, as shown in figure 4, the running gear includes two groups, and the both sides of the outer case are divided into；Every group Running gear includes main drive motor 16, active travelling wheel 13, driven travelling wheel 14, driving crawler belt 10 and guide plate 11, institute The both ends for stating driving crawler belt 10 are sheathed on the active travelling wheel 13 and driven travelling wheel 14 respectively, and middle section is then sheathed on institute State guide plate 11；The active travelling wheel 13 is sequentially connected in the output shaft of main drive motor 16.In the present embodiment, the master Dynamic driving motor 16 is sequentially connected by driving wheel 17 in travelling wheel wheel shaft 15, and the travelling wheel wheel shaft 15 is sequentially connected in described Active travelling wheel 13.The end of travelling wheel wheel shaft 15 is assemblied in mounting base 18.

When work, the main drive motor 16, driving wheel 17, travelling wheel wheel shaft 15 are driven step by step, and the active is driven to walk 13 rotation of row wheel, the active travelling wheel 13 are mobile flat to realize by driving crawler belt 10 that driven travelling wheel 14 is driven to rotate Platform is whole to move forward and backward.

In the present embodiment, as Figure 1 and Figure 4, the running gear further includes having swing arm 9 (to have four in the present embodiment It is a), it is symmetrically arranged at the front-end and back-end of babinet both sides and is sequentially connected in the swing arm drive motor 19.In this implementation In example, as shown in figure 4, the swing arm 9 is sequentially connected by swing arm driving wheel 20 in swing arm control shaft 21, the swing arm control shaft 21 are sequentially connected in the swing arm 9.In the present embodiment, the swing arm control shaft 21 is hollow tubular structure and rotationally covers Outside the travelling wheel wheel shaft 15.

When work, swing arm drive motor 19, swing arm driving wheel 20, swing arm control shaft 21 are driven step by step, before and after control swing arm 9 Rotation.The effect of swing arm is to stablize the direction of mobile platform forward or backward.

Further, as shown in figure 5, the Mobile Slide 7 include mobile sliding block 706, shifting sledge 703, slide unit 705, Firm banking 702, mobile lead screw 704, the mobile sliding block 706 are slidably mounted on the shifting sledge 705 and thread bush It is connected to the mobile lead screw 704；The firm banking 702 is fixed on the slide unit 705 and consolidates with the mobile sliding block 706 Fixed, the mechanical arm fixed seat 3 is fixed on the firm banking 702；The mobile lead screw 704 is sequentially connected to slow down in mobile Motor (not shown).When work, the mobile mobile lead screw rotation of decelerating motor driving, the mobile sliding block is along the shifting Dynamic lead screw is moved forward and backward, and shifting sledge plays guiding role to the movement of mobile sliding block.Firm banking is together with slide unit and mechanical arm Fixed seat is slided together with the mobile sliding block, realizes sliding back and forth for mechanical arm and manipulator.

In the present embodiment, the Mobile Slide 7 further includes transverse slat 701, and transverse slat 701 described in the transverse slat 701 passes through institute Firm banking 702 is stated, both ends are fixed in outer case 12, with 12 surface of outer case level.

Further, as shown in Figure 1, the mechanical arm 5 includes principal arm 51, secondary arm 52 and forearm 53, the manipulator 1 It is fixed on the front end of the forearm 53, the principal arm 51, secondary arm 52 and forearm 53 are rotatably connected successively, under the principal arm 51 End is rotatably connected at the mechanical arm fixed seat 3.

In the present embodiment, the principal arm 51 is driven by principal arm motor (not shown) and is rotated, and secondary arm 52 is by secondary arm motor (not shown) driving rotation, the forearm 53 is driven by forearm motor (not shown) to be rotated.The manipulator includes driving Rotation motor, lead screw and the gripper of manipulator rotation, the laser range finder are set to the front end of the manipulator.

Further, intelligent oblique angle tester is provided in the middle part of the inside of the outer case 12.Intelligent oblique angle tester Effect be test mobile platform whether have tilt (such as due to landform etc.), for operating personnel control reference, The extension elongation of retractable support arm, ensures mobile platform integrally straight operation in support device to control four angles.

Further, the visual monitoring device includes binocular camera 2 and full-view camera 4, wherein the binocular is taken the photograph The rear for being fixed on the manipulator 1 as first 4, the full-view camera 4 are fixed on the outer case 12 by lifting holder 6.

In the front end of mechanical arm, fixed binocular camera 2 is used to be accurately positioned the position of object, monitoring car body front Road conditions.

The lifting holder 6 can be made of rotating base and the lifting arm that can be stretched, and the lower end of lifting arm passes through axis It connect and can be vertically rotated along axis with rotating base, the full-view camera 4 that the upper end fixation of lifting arm can rotate horizontally is used for Detect mobile platform surrounding, mechanical arm and Mobile Slide operating condition.The upper end of the lifting arm can also install intense light source with Light is provided in insufficient light.

The remote control terminal may include rocking bar, button, display screen, integrated system and power supply；The integrated system packet Include data receiver transmission module and control integration module；The data receiver transmission module is for receiving visual monitoring device, swashing The data and the control signal transmission of integration module will be controlled to laser range finder, mobile platform, machinery that optar obtains Hand, mechanical arm and visual monitoring device, in the present embodiment data receiver transmission module primary communications be connected to laser range finder, Driving motor 802, main drive motor 16, swing arm drive motor 19, mobile decelerating motor, principal arm motor, secondary arm motor, forearm horse It reaches, rotation motor, intelligent oblique angle tester, binocular camera 2, full-view camera 4, lifting holder 6 etc..Controlling integration module can To be accurately controlled to above-mentioned corresponding region module by order handover module, control signal can pass through rocking bar and button hand Dynamic output, the rocking bar and button are electrically connected at the control integration module；The display screen is also electrically connected at the control Integration module processed；The power supply provides electric energy for entire remote control terminal.

For those skilled in the art, it can be provided various corresponding according to above technical solution and design Change and distortion, and all these change and distortions, should be construed as being included in the utility model claims protection domain it It is interior.

Claims (10)

1. a kind of high stability exquisiteness operation explosive-removal robot, which is characterized in that including mobile platform, manipulator, mechanical arm and Visual monitoring device；The mobile platform includes outer case, mechanical arm fixed seat, Mobile Slide, support device and running gear, The running gear is set to the bottom of the outer case, and the Mobile Slide is slidingly disposed in the outer case, the machine Tool arm fixed seat is fixed on the Mobile Slide, and the support device is set to the quadrangle of the inside of the outer case；The machine The lower end of tool arm is connected to the mechanical arm fixed seat, and the manipulator is then set to the upper end of the mechanical arm；The support dress Set the retractable driving device stretched up and down including retractable support arm and the driving retractable support arm, the bottom of the outer case Equipped with the through-hole for the flexible disengaging of the retractable support arm；It is additionally provided with the laser ranging of the distance for measuring suspicious explosive Instrument；Further include having to be electrically connected at the remote of the laser range finder, mobile platform, manipulator, mechanical arm and visual monitoring device Process control end.

2. high stability exquisiteness operation explosive-removal robot according to claim 1, which is characterized in that the telescopic drive dress It sets including driving motor, two intermeshing reduction gearing, lead screws, the output shaft drive connection wherein one of the driving motor The upper end of a reduction gearing, the lead screw is then sequentially connected in another reduction gearing, the retractable support arm screw thread socket In the lead screw.

3. high stability exquisiteness operation explosive-removal robot according to claim 2, which is characterized in that the retractable support arm Lower end be sharp cone distal, and outer surface be equipped with external screw thread.

4. high stability exquisiteness operation explosive-removal robot according to claim 2, which is characterized in that the lead screw and flexible Support arm is set in fixed arm, and the inner wall of the fixed arm is equipped with sliding rail, and the retractable support arm slideably assembles In the sliding rail.

5. high stability exquisiteness operation explosive-removal robot according to claim 1, which is characterized in that the running gear packet Two groups are included, and is divided into the both sides of the outer case；Every group of running gear include main drive motor, active travelling wheel, driven The both ends of travelling wheel, driving crawler belt and guide plate, the driving crawler belt are sheathed on the active travelling wheel and driven traveling respectively Wheel, middle section is then sheathed on the guide plate；The active travelling wheel is sequentially connected in the output shaft of main drive motor.

6. high stability exquisiteness operation explosive-removal robot according to claim 5, which is characterized in that the running gear is also Include swing arm, is symmetrically arranged at the front-end and back-end of babinet both sides and is sequentially connected in swing arm drive motor.

7. high stability exquisiteness operation explosive-removal robot according to claim 1, which is characterized in that the Mobile Slide packet Mobile sliding block, shifting sledge, slide unit, firm banking, mobile lead screw are included, the mobile sliding block is slidably mounted on the movement Simultaneously screw thread is socketed on the mobile lead screw to sliding rail；The firm banking is fixed on the slide unit and consolidates with the mobile sliding block Fixed, the mechanical arm fixed seat is fixed on the firm banking；The mobile lead screw is sequentially connected in mobile decelerating motor.

8. high stability exquisiteness operation explosive-removal robot according to claim 1, which is characterized in that the mechanical arm includes There are principal arm, secondary arm and forearm, the manipulator to be fixed on the front end of the forearm, the principal arm, secondary arm and forearm can turn successively Dynamic connection, the lower end of the principal arm is rotatably connected at the mechanical arm fixed seat.

9. high stability exquisiteness operation explosive-removal robot according to claim 1, which is characterized in that the outer case it is interior Intelligent oblique angle tester is provided in the middle part of portion.

10. high stability exquisiteness operation explosive-removal robot according to claim 1, which is characterized in that the visual surveillance Device includes binocular camera and full-view camera, wherein the binocular camera is fixed on the rear of the manipulator, it is described Full-view camera is fixed on the outer case by lifting holder.