CN204183544U - Hot line robot platform under a kind of complicated line environment - Google Patents
Hot line robot platform under a kind of complicated line environment Download PDFInfo
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- CN204183544U CN204183544U CN201420653261.9U CN201420653261U CN204183544U CN 204183544 U CN204183544 U CN 204183544U CN 201420653261 U CN201420653261 U CN 201420653261U CN 204183544 U CN204183544 U CN 204183544U
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Abstract
The utility model discloses hot line robot platform under a kind of complicated line environment, comprise a left side, right mechanical arm, control module, insulating supporting, platform support, shell, telescoping mechanism and little arm, wherein, the action of control module driving machine mechanical arm, insulating supporting is fixed main hand, telescoping mechanism comprises a left side, right telescoping mechanism, be individually fixed in the two ends of platform support, respectively with a left side, right mechanical arm is connected by insulating supporting, shell parcel said mechanism, little arm is fixed on shell upper end, platform support is connected with bucket arm vehicle end by backing, 360 degree of rotations can be carried out.Adopt this robot manipulating task platform, under actual complex circuit homework environment, robot is substituted and manually completes whole live working of distribution network project, comprise: broken string, wiring, replacing fall insurance, transformer, cross-arm etc., reduce operating personnel's quantity, significantly alleviate the labour intensity of operating personnel, ensure the safety of operating personnel to greatest extent.
Description
Technical field
The utility model relates to robot for high-voltage hot-line work platform field, hot line robot platform under especially a kind of complicated line environment.
Background technology
In order to the gentle security of the Automated water improving livewire work, the labour intensity and the strong-electromagnetic field that alleviate operating personnel threaten the person of operating personnel, and from the eighties, many countries have all successively carried out the research of hot line robot.Hot line robot is through years of researches and practice, complete the development of laboratory prototype, by a large amount of field trials, demonstrate the demand of robot in live working of distribution network and value, also demonstrate the feasibility of research approach, the reasonability of design simultaneously.But robot manipulating task content is comparatively single, can not contain whole live working of distribution network project, robot can not carry out operation under complicated line environment, therefore with the production physical presence gap of live working of distribution network.
The Chinese patent ZL201020278798 of applicant's application discloses a kind of insulation system for high-voltage live-working robots.The robot for high-voltage hot-line work that it can make relatively is insulated by aerial lift device with insulated arm, realizes the insulation of high-voltage line to people by fiber optic communication, and mechanical arm outsourcing fiberglass, insulated platform outsourcing fiberglass, limit are added mask and carry out phase insulation system.This patent just simply proposes a kind of insulation system for high-voltage live-working robots, but fail to carry out specifically insulating protection system again, in depth study and explore, more fail to provide a kind of embodiment for robot for high-voltage hot-line work platform under complicated line environment, make robot for high-voltage hot-line work cannot give full play to its advantage, more cannot expand frontier, new opplication.
The Chinese patent ZL201210095860.9 of applicant's application discloses a kind of high-voltage hot-line work master & slave control robot manipulating task platform, comprises robot manipulating task platform frame, hydraulic elevating platform control integration, robot control system and insulation bucket.Robot manipulating task platform frame is L-type structure, is bolted bucket arm vehicle insulated lift arm end; For hydraulic elevating platform control integration, robot operating system and insulation bucket provide secure support; Hydraulic elevating platform control integration is positioned at insulation bucket right side, and operating personnel, by control lever and lever, for robot manipulating task platform provides ascending, descending and rotary motion, and supply the hydraulic oil source needed for master & slave control robot motion; Robot operating system comprises manipulation main hand, hydraulic press mechanical arm and corresponding control module, and adopt master & slave control hydraulic-driven, mechanical arm can follow main hands movement completely; Operating personnel stand in insulation bucket, manipulate main hand and can complete various high-voltage hot-line work by Remote mechanical arm clamping specific purpose tool contact circuit.This patent just simply proposes a kind of robot for high-voltage hot-line work job platform, mechanical arm base does not add insulating telescopic mechanism yet, the isolation and whole mechanical arm electric-control system and robot manipulating task platform frame do not insulate, there is safety issue, live working of distribution network under complicated line environment can not be completed.
As can be seen here, still there is larger techno-absence in existing application technology middle-high pressure electrification Work robot job platform, and this kind of present situation has seriously govern the practical application of hot line robot in electrical network and popularization.
Utility model content
The utility model is in order to solve the problem, and propose hot line robot platform under a kind of complicated line environment, whole platform is connected with bucket arm vehicle end by backing, can carry out 360 degree of rotations; Platform support adopts duralumin, hard alumin ium alloy material, lightweight, intensity is high; Platform support whole outsourcing profiled insulation shell, good insulation preformance; The support structure height of main hand, mechanical arm, people's sitting block chair is adjustable, carries out human oriented design; 6DOF mechanical arm basis increases pedestal insulating telescopic redundant degree of freedom, can not adjust in bucket arm vehicle pose situation, enable mechanical arm enter complicated line environment and carry out operation; Add panoramic shooting crane monitoring system, the state of robot platform can be watched on ground.Under whole complicated line environment, hot line robot platform adopts modular design, and technique is attractive in appearance, and industrial degree is high.
To achieve these goals, the utility model adopts following technical scheme:
Hot line robot platform under a kind of complicated line environment, comprise a left side, right mechanical arm, control module, insulating supporting, platform support, shell, telescoping mechanism and little arm, wherein, the action of control module driving machine mechanical arm, insulating supporting is fixed main hand, telescoping mechanism comprises a left side, right telescoping mechanism, be individually fixed in the two ends of platform support, respectively with a left side, right mechanical arm is connected by insulating supporting, shell parcel said mechanism, little arm is fixed on shell upper end, platform support is connected with bucket arm vehicle end by backing, drag tail band moving platform can clockwise or counterclockwise bidirectional rotation.
Described little arm is the hydraulic press mechanical arm with Three Degree Of Freedom, is fixed on the ceiling of shell upper end, and described ceiling is arch.
Described left and right mechanical arm is connected with insulating supporting, and left and right mechanical arm and insulating supporting are all height adjustable device.
Described telescoping mechanism comprises oil cylinder, telescoping tube and flexible pipe box, oil cylinder one end is hingedly fixed in flexible pipe box one end and is hingedly fixed in telescoping tube, telescoping tube and flexible pipe box relative motion is driven by oil cylinder stretching motion, flexible pipe box is fixed on platform, mechanical arm is fixed on telescoping tube, therefore mechanical arm can carry out flexible relative motion by opposed platforms, thus increases pedestal to bilateral force feedback hydraulic press mechanical arm and to stretch redundant degree of freedom.
Described main hand, comprises the main hand in left and right, is fixed on the insulating supporting of left and right, and is fixed with camera.
Described platform support is that duralumin, hard alumin ium alloy is welded.
Described shell is insulating properties material.
Described ceiling is used for keeping the sun off and sleet, and material is insulating resin.
Described platform support is provided with seat, and the height adjustable of seat, front and back position are adjustable.
Described seat has tool box.
The effect of left and right drag chain is: due to mechanical arm with platform relative motion, therefore fluid pressure line and optical fiber are also relative motions, and for the ease of pipeline and fiber arrangement, the mode of drag chain inside walked by convenient and employing pipeline attractive in appearance and pipeline.Drag chain one end is fixed on platform, and one end is fixed on above mechanical arm seat.
Described control module, comprises left control pedal and right control pedal, and wherein, left control pedal drives left telescoping mechanism, and right control pedal drives right telescoping mechanism, to realize respectively driving left and right mechanical arm.
Described left control pedal and right control pedal give two redundancy telescoping mechanism input position instruction, the feedback position data that input instruction and grating scale return compare, input to proportional amplifier, proportional amplifier exports Analog control signal, the openings of sizes of control ratio valve core, output hydraulic pressure oil drives the stretching motion of hydraulic cylinder, back and forth carries out exact position motion with insulating telescopic mechanism.
The beneficial effects of the utility model are:
(1) this robot manipulating task platform is adopted, under actual complex circuit homework environment, robot is substituted and manually completes whole live working of distribution network project, comprise: broken string, wiring, replacing fall insurance, transformer, cross-arm etc., reduce operating personnel's quantity, significantly alleviate the labour intensity of operating personnel, ensure the safety of operating personnel to greatest extent;
(2) master-slave operation redundant degree of freedom bilateral force feedback hydraulic press mechanical arm is adopted, first this technology is applied to hot line robot, 6DOF mechanical arm basis increases pedestal to stretch redundant degree of freedom, enable mechanical arm enter complicated line environment and carry out operation, the force feedback function of mechanical arm enables robot complete elaborate work simultaneously;
(3) adopt prudent greatly/from the little arm of anharmonic ratio hydraulic pressure, little arm designs prudent 200kg, design deadweight 70kg, first this technology is applied to hot line robot, under the constraints meeting robot jacking system dead weight, realize the lifting to the heave-load device such as transformer, cross-arm;
(4) adopt three-mechanical arm Coordinated Control under complicated line environment, robot system uses two force feedback manipulators, and an auxiliary mechanical arm fulfils assignment task.By the research of mechanical arm working space interference region Dynamic controlling, the research that the three arm coordinated movements of various economic factors control, ensures the operating efficiency that robot is higher and safety in utilization.
Accompanying drawing explanation
Fig. 1 is that the utility model hot line robot platform axle surveys view;
Fig. 2 is the utility model hot line robot platform isometric front view;
Fig. 3 is the two redundancy telescoping mechanism hydraulic control figure of the utility model;
Wherein, 1, right mechanical arm, 2, right main hand controls, 3, ceiling, 4, right main hand, 5, right handheld terminal, 6, little arm hand, 7, the right main hand insulating supporting of height adjustable, 8, left main hand, 9, left handheld terminal, 10, the left main hand insulating supporting of height adjustable, 11, insulate shaping outsourcing housing, 12, robot platform support, 13, right control pedal, 14, left control pedal, 15 left drag chains, 16, left flexible pipe box, 17, left mechanical arm three module, 18, left telescoping tube, 19, the left mechanical arm insulating supporting of height adjustable, 20, right drag chain, 21, left mechanical arm, 22, right flexible pipe box, 23, right telescoping tube, 24, the right mechanical arm insulating supporting of height adjustable, 25, right mechanical arm three module, 26, tool box, 27, insulation seat, 28, camera, 29, camera supports, 30, with bucket arm vehicle jockey.
Detailed description of the invention:
Below in conjunction with accompanying drawing and embodiment, the utility model is described in further detail.
Hot line robot platform under a kind of complicated line environment, it comprises mechanical arm and each operation thereof, control module insulating supporting, and platform support, insulate shaping outsourcing housing, mechanical arm stretching mechanism, little arm, height adjustable seat, ceiling.It is characterized in that, mechanical arm and each annex thereof to be insulated insulation blocking with being ensured operating personnel by height adjustable insulating supporting; The shaping outsourcing housing that insulate ensures that operating platform insulate with ground; Mechanical arm stretching mechanism adds the redundant degree of freedom of mechanical arm, and the little arm added makes robotic arm manipulation more flexible, meets the requirements at the higher level of operation under complicated line environment; Height adjustable seat and ceiling alleviate the labour intensity of operating personnel, improve operating environment; Whole platform is connected with bucket arm vehicle end by backing, can carry out 360 degree of rotations.
Mechanical arm and each annex thereof of robot platform are connected with platform with by insulating supporting, mechanical arm and main hand insulating supporting are all height adjustable device, and this design is added the applicability of operating platform and can be improved the comfortableness of operator by the adjustment of main hand height.
The mechanical arm stretching mechanism of robot platform is made up of oil cylinder, telescoping tube and flexible pipe box.Increase pedestal to bilateral force feedback hydraulic press mechanical arm to stretch redundant degree of freedom, first this technology is applied to hot line robot, 6DOF mechanical arm basis increases this flexible redundant degree of freedom, enable mechanical arm enter complicated line environment and carry out operation, the force feedback function of mechanical arm enables robot complete elaborate work simultaneously.
The little Lifting device of robot platform has the hydraulic press mechanical arm of Three Degree Of Freedom, mechanical arm designs prudent 200kg, design deadweight 70kg, first this technology is applied to hot line robot, under the constraints meeting robot jacking system dead weight, realize the lifting to the heave-load device such as transformer, cross-arm.
Robot platform adopts three-mechanical arm Coordinated Control under complicated line environment, and robot system uses two force feedback manipulators, and an auxiliary mechanical arm fulfils assignment task.By the research of mechanical arm working space interference region Dynamic controlling, the research that the three arm coordinated movements of various economic factors control, ensures the operating efficiency that robot is higher and safety in utilization.
The platform support of robot platform is that duralumin, hard alumin ium alloy is welded, and its quality is light, and intensity is high, can better meet requirement aerial lift device with insulated arm filled to quality.The shaping outsourcing housing entirety that insulate comprises main platform support and reaches insulation object, and fiberglass is covered with insulating glass steel and is welded, and fiberglass has the premium properties such as the little and intensity of good insulating properties, density is large.
Robot platform seat is highly and fore-aft adjustable is energy-conservation meets different platform operator use; Ceiling can keep the sun off and sleet, and ceiling insulating resin is made, and can play a protective role to operator.The interpolation of seat and ceiling greatly improves the operating environment of operator, improves work comfort and has certain reduction to labour intensity.
Robot platform is connected with bucket arm vehicle end by backing, it is characterized in that: platform can carry out 360 degree and rotate the requirement that better can adapt to complicated line environment, increases work efficiency.
Embodiment one:
As shown in Figure 1-Figure 3, robot for high-voltage hot-line work platform mainly comprises ceiling 3, little arm hand 6, and insulate shaping outsourcing housing 7, right control pedal 13, left control pedal 14, left drag chain 15, left flexible pipe box 16, tool box 26, insulation seat 27, camera 28, with bucket arm vehicle jockey 30.
Wherein robot platform support 12 reaches platform insulation object by the shaping outsourcing housing 7 of insulation through row parcel.Robot platform support 12 is welded by duralumin, hard alumin ium alloy rectangular tube, has quality light, the advantage that intensity is high.The shaping outsourcing housing 7 that insulate has fiberglass to make, and good insulating, intensity is high.Ceiling 3 is connected with the shaping outsourcing housing 7 of insulation, plays the effect of sun-shading rain-proof, is greatly improved to operator's working environment.
Its medium and small Lifting device is the hydraulic press mechanical arm with Three Degree Of Freedom, and mechanical arm designs prudent 200kg, and design deadweight 70kg, under the constraints meeting robot jacking system dead weight, can realize the lifting to the heave-load device such as transformer, cross-arm.
Wherein the mechanical arm stretching mechanism of robot platform is by oil cylinder, 1 left telescoping tube 8, right telescoping tube 23, and the flexible pipe box in left flexible pipe box 16,22 right side, right control pedal 13, left control pedal 14 forms.Control oil cylinder by control pedal to stretch, oil cylinder one end is connected with flexible pipe box, and one end is connected with telescoping tube, and flexible pipe box is fixed on robot platform support 12, therefore makes telescoping tube and robot platform support 12 relative motion by oil cylinder is flexible.Telescoping tube is connected by pedestal and height adjustable left mechanical arm insulating supporting 19, the right mechanical arm insulating supporting 24 of height adjustable with mechanical arm 1,25, so the stretching motion driving mechanical arm motion of telescoping tube.The control system of telescoping mechanism is as Fig. 3.On 6DOF mechanical arm basis, increase this flexible redundant degree of freedom like this, enable mechanical arm enter complicated line environment and carry out operation, the force feedback function of mechanical arm enables robot complete elaborate work simultaneously.
Tool box 26 is connected with robot platform support 12 by welding, and insulation seat 27 is fixed on above tool box 26.Such layout takes full advantage of the space of platform, ensure that the compactedness of hot line robot platform.
Camera 28 supports 29 by insulation camera and is connected on the shaping outsourcing housing 7 of insulation.Can the duty of monitoring equipment mechanical arm easily.
Left mechanical arm three module 17, right mechanical arm three module 25 comprise a Hydraulic servo drive device module respectively, and a DC24V conversion AC220V module and DC24V change DC ± 12V and DC ± 5V module.
Be connected with aerial lift device with insulated arm end with bucket arm vehicle jockey 30, and make hot line robot platform can carry out 360 degree of rotations by hydraulic motor driven gear transmission mechanism.
Wherein operating personnel give two redundancy telescoping mechanism input position instruction by pedal left-hand tread plate 14, right-hand tread plate 13, the feedback position data that input instruction and grating scale return compare, input to proportional amplifier, proportional amplifier exports Analog control signal, the openings of sizes of control ratio valve core, output hydraulic pressure oil drives the stretching motion of hydraulic cylinder, back and forth carries out exact position motion with insulating telescopic mechanism.
By reference to the accompanying drawings detailed description of the invention of the present utility model is described although above-mentioned; but the restriction not to the utility model protection domain; one of ordinary skill in the art should be understood that; on the basis of the technical solution of the utility model, those skilled in the art do not need to pay various amendment or distortion that creative work can make still within protection domain of the present utility model.
Claims (10)
1. hot line robot platform under a complicated line environment, it is characterized in that: comprise a left side, right mechanical arm, control module, insulating supporting, platform support, shell, telescoping mechanism and little arm, wherein, the action of control module driving machine mechanical arm, insulating supporting is fixed main hand, telescoping mechanism comprises a left side, right telescoping mechanism, be individually fixed in the two ends of platform support, respectively with a left side, right mechanical arm is connected by insulating supporting, shell parcel said mechanism, little arm is fixed on shell upper end, platform support is connected with bucket arm vehicle end by backing, drag tail band moving platform can clockwise or counterclockwise bidirectional rotation.
2. hot line robot platform under a kind of complicated line environment as claimed in claim 1, is characterized in that: described little arm is the hydraulic press mechanical arm with Three Degree Of Freedom, and be fixed on the ceiling of shell upper end, described ceiling is arch.
3. hot line robot platform under a kind of complicated line environment as claimed in claim 1, is characterized in that: described left and right mechanical arm is connected with insulating supporting, and left and right mechanical arm and insulating supporting are all height adjustable device.
4. hot line robot platform under a kind of complicated line environment as claimed in claim 1, it is characterized in that: described telescoping mechanism comprises oil cylinder, telescoping tube and flexible pipe box, oil cylinder one end is hingedly fixed in flexible pipe box one end and is hingedly fixed in telescoping tube, telescoping tube and flexible pipe box relative motion is driven by oil cylinder stretching motion, flexible pipe box is fixed on platform, mechanical arm is fixed on telescoping tube, therefore mechanical arm can carry out flexible relative motion by opposed platforms, thus increases pedestal to bilateral force feedback hydraulic press mechanical arm and to stretch redundant degree of freedom.
5. hot line robot platform under a kind of complicated line environment as claimed in claim 1, is characterized in that: described main hand, comprises the main hand in left and right, be fixed on the insulating supporting of left and right, and be fixed with camera.
6. hot line robot platform under a kind of complicated line environment as claimed in claim 1, is characterized in that: described platform support is that duralumin, hard alumin ium alloy is welded.
7. hot line robot platform under a kind of complicated line environment as claimed in claim 1, is characterized in that: described shell is insulating properties material.
8. hot line robot platform under a kind of complicated line environment as claimed in claim 2, it is characterized in that: described ceiling is used for keeping the sun off and sleet, material is insulating resin.
9. hot line robot platform under a kind of complicated line environment as claimed in claim 1, it is characterized in that: described platform support is provided with seat, and the height adjustable of seat, front and back position is adjustable.
10. hot line robot platform under a kind of complicated line environment as claimed in claim 9, is characterized in that: described seat has tool box.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201420653261.9U CN204183544U (en) | 2014-11-04 | 2014-11-04 | Hot line robot platform under a kind of complicated line environment |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201420653261.9U CN204183544U (en) | 2014-11-04 | 2014-11-04 | Hot line robot platform under a kind of complicated line environment |
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| CN204183544U true CN204183544U (en) | 2015-03-04 |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104325454A (en) * | 2014-11-04 | 2015-02-04 | 国家电网公司 | Live working robot platform for complex line environment |
| CN109763472A (en) * | 2019-03-14 | 2019-05-17 | 天津海科信达石油技术有限公司 | Lifting self-elevating platform control system |
-
2014
- 2014-11-04 CN CN201420653261.9U patent/CN204183544U/en active Active
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104325454A (en) * | 2014-11-04 | 2015-02-04 | 国家电网公司 | Live working robot platform for complex line environment |
| CN109763472A (en) * | 2019-03-14 | 2019-05-17 | 天津海科信达石油技术有限公司 | Lifting self-elevating platform control system |
| CN109763472B (en) * | 2019-03-14 | 2023-08-18 | 天津海科信达石油技术有限公司 | Lifting control system of self-elevating platform |
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| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CP03 | Change of name, title or address |
Address after: 100031 Xicheng District West Chang'an Avenue, No. 86, Beijing Co-patentee after: Electric Power Research Institute of State Grid Shandong Electric Power Company Patentee after: State Grid Corporation of China Co-patentee after: National Network Intelligent Technology Co., Ltd. Address before: Wang Yue Central Road Ji'nan City, Shandong province 250002 City No. 2000 Co-patentee before: Electric Power Research Institute of State Grid Shandong Electric Power Company Patentee before: State Grid Corporation of China Co-patentee before: Shandong Luneng Intelligent Technology Co., Ltd. |
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| CP03 | Change of name, title or address | ||
| TR01 | Transfer of patent right |
Effective date of registration: 20201028 Address after: 250101 Electric Power Intelligent Robot Production Project 101 in Jinan City, Shandong Province, South of Feiyue Avenue and East of No. 26 Road (ICT Industrial Park) Patentee after: National Network Intelligent Technology Co.,Ltd. Address before: 100031 Xicheng District West Chang'an Avenue, No. 86, Beijing Patentee before: STATE GRID CORPORATION OF CHINA Patentee before: ELECTRIC POWER RESEARCH INSTITUTE OF STATE GRID SHANDONG ELECTRIC POWER Co. Patentee before: National Network Intelligent Technology Co.,Ltd. |
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| TR01 | Transfer of patent right |