CN204328335U

CN204328335U - Surge creeping type pipeline robot traction gear

Info

Publication number: CN204328335U
Application number: CN201420331321.5U
Authority: CN
Inventors: 曹建树; 徐宝东; 张义; 姬保平; 曹振
Original assignee: Beijing Institute of Petrochemical Technology
Current assignee: Beijing Institute of Petrochemical Technology
Priority date: 2014-06-20
Filing date: 2014-06-20
Publication date: 2015-05-13
Anticipated expiration: 2024-06-20

Abstract

The utility model relates to a kind of hydraulic driving creeping type pipeline robot traction gear, can be the pipeline operations such as oil and gas pipes, sewage conduct robot and provides powerful tractive force.This device is primarily of stretching out storehouse, advancing storehouse and propelling cylinder composition, wherein: stretch out storehouse primarily of stretching out storehouse warehouse, Cang Gai before stretching out storehouse, stretch out storehouse supporting leg, stretch out bin bracket, stretch out storehouse strut, stretch out storehouse support oil cylinder, synchronous disk, synchronous disk sliding axle, stretch out Cang Gai composition behind storehouse; Advance storehouse primarily of propelling storehouse warehouse, advance storehouse before Cang Gai, advance storehouse supporting leg, advance bin bracket, advance storehouse strut, advance storehouse support oil cylinder, synchronous disk, synchronous disk sliding axle, advance storehouse after Cang Gai composition.The utility model adopts hydraulic pressure as power source, can provide sufficient tractive force for pipeline operations robot, ensures that pipeline robot is walked in the duct smoothly.The utility model has the advantages such as structure is simple, load capacity is strong, reliability is high, adaptive capacity to environment is strong.

Description

Surge creeping type pipeline robot traction gear

Technical field

The utility model relates to a kind of traction gear, under being particularly useful for the particular job such as oil and gas pipes, sewage conduct environment, for pipeline robot walks to provide sufficient power at pipeline internal, ensure that robot walks smoothly in the duct and completes the creeping type pipeline robot traction gear that surges of pipeline operations.

Background technique

In modern society and engineering practice, pipeline, as a kind of important material charge transmission means, plays an important role in All aspects of such as oil, rock gas, industrial chemicals and domestic sewages.Pipeline docking, repaired mouth in pipe-laying process, weld seam detection etc. all the more rely on pipeline robot and have come.Defect inspection, reparation in conduit running maintenance process, the pipework problems such as pipeline cleaning increase thereupon, and it can not be ignored more to the degree of dependence of pipeline robot.

Pipeline robot develops rapidly with the extensive use of pipeline in engineering as crawling equipment in the pipe of a kind of high intelligence, high automation.Pipeline robot is the Intelligent mobile equipment being operated in particular space in pipeline, and it can carry one or more equipment and device completes tasks such as processing in defect inspection, anticorrosive coat coating, foreign matter cleaning, pipe, pipeline docking repaired mouths.Wherein initiatively pipeline robot is a kind of pipeline robot be most widely used, and is divided into the forms such as wheeled, creeping type, crawler, pin formula and step-by-step movement.

Initiatively pipeline robot walks in process to need traction gear to provide tractive force for robot body at pipeline internal, ensures that robot walks smoothly in pipeline.Wheeled pipeline robot travelling speed is fast, it is convenient to control, but wheel and pipeline wall area of contact is little, obstacle climbing ability is poor, easily skidding occurs.Crawler belt type pipeline robot bearing capacity is large, to the adaptable of pipeline wall but crawler belt is easy to wearing and tearing and complex structure.Leg formula pipeline robot obstacle climbing ability is comparatively strong, mobility is good, pipeline adaptive capacity is also very strong, but its sufficient number is with pass joint number is many, control procedure is complicated, travelling speed is also relatively slow, is not easy to practical implementation.Creeping type pipeline robot because load capacity is strong, stable movement, control is easy, adaptable to pipeline, is widely used in the pipeline practise area not high to rate request.

Summary of the invention

The technical problem that the utility model solves is: adopting hydraulic power system to drive supporting leg to compress tube wall mode provides pipeline robot to move in pipeline required counter-force and countertorque, overcome existing robot traction apparatus load capacity weak, the deficiencies such as complex structure, environmental suitability difference, provide the creeping type pipeline robot traction gear that a kind of strong band loading capability, structure are simple, safe and reliable.

The technical solution adopted in the utility model is:

Surge creeping type pipeline robot traction gear, by stretching warehouse exit system, push away warehouse-entering system for raw and propelling cylinder forms, wherein: stretch warehouse exit system comprise stretch out storehouse before Cang Gai (1), stretch out bin bracket (2), stretch out storehouse supporting leg (3), stretch out storehouse strut (4), stretch out storehouse warehouse (5), stretch out storehouse synchronous disk (6), stretch out storehouse after Cang Gai (7), stretch out storehouse support oil cylinder fixed base (8), stretch out storehouse support oil cylinder (9) and stretch out storehouse synchronous disk slide-bar (10); Push away warehouse-entering system for raw comprise advance Cang Gai (12) before storehouse, advance bin bracket (13), advance storehouse supporting leg (14), advance storehouse strut (15), advance storehouse warehouse (16), advance storehouse after Cang Gai (17), synchronous disk slide-bar (18), advance storehouse synchronous disk (19), advance storehouse support oil cylinder (20) and propelling storehouse support oil cylinder fixed base (21); Cang Gai (1) and before Cang Gai (7) is fixed on is stretched out storehouse warehouse (5) by screw bolt and nut after stretching out storehouse before stretching out storehouse, rear two ends, stretch out storehouse support oil cylinder fixed base (8) to be fixed on by socket head screw and to stretch out Cang Gai (1) inner side surface before storehouse, the outer side surface stretching out Cang Gai (7) behind storehouse is fixed by screws in behind Cang Gai (7) center hole location after synchronous disk slide-bar (10) relies on and stretches out storehouse, stretch out storehouse support oil cylinder (9) one end and stretch out that storehouse support oil cylinder fixed base (8) is upper forms hinged revolute pair by pin with being connected in, the other end piston rod end ladder helical thread portion is fixedly tightened by nut through after synchronous disk (6), synchronous disk (6) and synchronous disk slide-bar (10) form sliding pair and retrain, stretch out storehouse support oil cylinder drive under can along synchronous disk slide-bar (10) slide anteroposterior, stretch out bin bracket (2) two ends to form respectively by bearing pin and be movably hinged revolute pair and be fixedly hinged revolute pair with stretching out storehouse supporting leg (3) and stretch out storehouse warehouse (5), stretch out storehouse strut (4) two ends then respectively with stretch out storehouse supporting leg (3) and synchronous disk (6) and form and be movably hinged revolute pair, ream and stretch out storehouse warehouse (5) and form the revolute pair that is fixedly hinged in centre, system is using oil hydraulic cylinder as system dynamic source.

Described stretching out bin bracket (2), stretch out storehouse supporting leg (3), stretch out storehouse strut (4) and stretch out storehouse warehouse (5) forms one group of parallel-crank mechanism, along stretching out parallel-crank mechanism described in uniform three groups of storehouse warehouse (5) circumferential interval 120 o.

Described synchronous disk (6) and synchronous disk slide-bar (10) form sliding pair, synchronous disk (6) is along synchronous disk slide-bar (10) slide anteroposterior, and drive the stretch out storehouse strut (4) hinged with synchronous disk (6) to move, driving parallel-crank mechanism moves, and stretches out storehouse supporting leg (3) contact and compresses inner-walls of duct or leave inner-walls of duct.

Described stretch out storehouse support oil cylinder fixed base (8), advance storehouse support oil cylinder fixed base (21) by oil cylinder fixing base positioning spigot (22) respectively with stretch out storehouse before Cang Gai (1), advance storehouse before Cang Gai (12) reliably locate, and to be tightened to through screw via hole (23) by hexagon socket head cap screw and to stretch out before storehouse Cang Gai (1) and before advancing storehouse on Cang Gai (12), pin hole (24) is used for realization and stretches out storehouse oil cylinder fixing base (8) and stretch out storehouse support oil cylinder (9) and advances storehouse oil cylinder fixing base (21) to form hinged revolute pair with propelling storehouse support oil cylinder (20).

Described stretches out storehouse support oil cylinder (9) and advances the piston rod end thread section in storehouse support oil cylinder (20) respectively by stretching out storehouse synchronous disk (6) and advancing the synchronous disk screw thread via hole (25) in storehouse synchronous disk (19) to use nut screwing clamping afterwards, fixing between oil cylinder and synchronous disk, stretch out storehouse synchronous disk slide-bar (10) and advance storehouse synchronous disk slide-bar (18) by synchronous disk slide-bar hole (26) respectively with stretch out storehouse synchronous disk (6) and advance storehouse synchronous disk (19) to form sliding pair, stretch out storehouse synchronous disk (6) and advance storehouse synchronous disk (19) respectively along stretching out storehouse synchronous disk slide-bar (10) and advancing storehouse synchronous disk slide-bar (18) to slide, on synchronous disk three body cradles (27) respectively with stretch out storehouse and advance three groups of uniform parallelogram lindages of storehouse circumference to be connected, realize the driving of synchronous disk to parallelogram lindage.

It is identical that propelling chamber structure composition and working principle thereof stretch out together storehouse, no longer describes.

Compress tube wall when propelling storehouse supporting leg stretches out, stretch out after storehouse supporting leg retracts, propelling cylinder piston rod stretches out, and promotes to stretch out storehouse and moves forward one section of work distance along pipeline; Next under stretching out storehouse hydraulic jack and advancing storehouse hydraulic jack effect, stretch out storehouse supporting leg stretch out compression tube wall, advance storehouse supporting leg to retract; After two storehouse supporting leg actions complete, propelling cylinder piston rod is retracted to pull and is advanced storehouse to move forward identical work distance, and so far robot traction apparatus completes a work cycle.Circulate and so forth, the creeping type pipeline robot traction gear that surges can drive other parts of pipeline robot to complete it along the wriggling walking in pipeline.

The principle of such scheme is: the powerful storehouse support oil cylinder that stretches out ensure that with propelling storehouse support oil cylinder the support force that each supporting leg and tube wall are enough large, under stretching out storehouse support oil cylinder and advancing storehouse support oil cylinder to drive, stretch out storehouse supporting leg and can extend radially with propelling storehouse supporting leg and contact compression tube wall.Frictional force between supporting leg and tube wall is that robot wriggling walking and pipeline cleaning provide required counter-force and reaction torque, when advance storehouse supporting leg stretch out contact compress tube wall, stretch out storehouse supporting leg retract time, propelling cylinder piston rod stretches out, and promotes to stretch out storehouse and to travel forward a segment distance.After stretching out storehouse stop motion, stretch out storehouse supporting leg and stretch out contact compression tube wall, advance storehouse supporting leg to retract, propelling cylinder piston rod is retracted and is pulled robot to push away warehouse-entering system for raw and travels forward.Circulate and so forth, robot realizes walking of wriggling.

The utility model advantage is compared with prior art: the utility model adopts hydraulic system as robot power system, ensure that robot has enough strong load capacity, overcomes the defect of weak, the easy skidding of wheeled robot load capacity.Supporting mechanism adopts three groups to ensure that the adaptive capacity of robot to different tube diameters pipeline along the parallel-crank mechanism that warehouse is uniform.Under synchronous disk keeps, three groups of in-parallel quadrangular mechanisms can realize robot self-alignment, ensure robot axis and conduit axis automatic reclosing, without the need to extra centring adjustment mechanisms.This robot architecture's principle is simple, is easy to realize system closed loop control, strong to adaptive capacity to environment, can be the pipeline operations robots such as pigging, repaired mouth, maintenance and provides powerful tractive force.

Accompanying drawing explanation

Fig. 1 is the utility model traction gear overall structure schematic diagram;

What Fig. 2 a was the utility model technical solution stretches warehouse exit system and advances the parallel-crank mechanism master involved by the system architecture of storehouse to look three-dimensional structure schematic diagram;

What Fig. 2 b was the utility model technical solution stretches warehouse exit system and advances the parallel-crank mechanism three-dimensional structure schematic diagram involved by the system architecture of storehouse;

Fig. 3 a is stretching out storehouse support oil cylinder fixed base and advancing storehouse support oil cylinder fixed base master to look three-dimensional structure schematic diagram of the utility model technical solution;

Fig. 3 b is stretching out storehouse support oil cylinder fixed base and advancing storehouse support oil cylinder fixed base to overlook three-dimensional structure schematic diagram of the utility model technical solution;

What Fig. 4 a was the utility model technical solution stretches warehouse exit system and advances the synchronous disk involved by the system architecture of storehouse to overlook three-dimensional structure schematic diagram;

What Fig. 4 b was the utility model technical solution stretches warehouse exit system and advances the synchronous disk involved by the system architecture of storehouse to look up three-dimensional structure schematic diagram;

Fig. 5 is stretching out storehouse warehouse and advancing storehouse warehouse three-dimensional structure schematic diagram of the utility model technical solution.

Embodiment

As shown in Figure 1, the utility model primarily of stretching warehouse exit system, push away warehouse-entering system for raw and propelling cylinder composition, wherein:

Stretch warehouse exit system comprise stretch out front storehouse, storehouse lid 1, stretch out bin bracket 2, stretch out storehouse supporting leg 3, stretch out storehouse strut 4, stretch out storehouse warehouse 5, stretch out storehouse synchronous disk 6, stretch out storehouse after storehouse lid 7, stretch out storehouse support oil cylinder fixed base 8, stretch out storehouse support oil cylinder 9 and stretch out storehouse synchronous disk slide-bar 10; Push away warehouse-entering system for raw comprise advance front storehouse, storehouse lid 12, advance bin bracket 13, advance storehouse supporting leg 14, advance storehouse strut 15, advance storehouse warehouse 16, advance storehouse after storehouse lid 17, advance storehouse synchronous disk slide-bar 18, advance storehouse synchronous disk 19, advance storehouse support oil cylinder 20 and advance storehouse support oil cylinder fixed base 21.

After stretching out front storehouse, storehouse lid 1 and stretching out storehouse, storehouse lid 7 is fixed on the rear and front end of stretching out storehouse warehouse 5 by screw bolt and nut, stretch out storehouse support oil cylinder fixed base 8 to be fixed on by socket head screw and to stretch out front storehouse, storehouse and cover 1 inner side surface, after synchronous disk slide-bar 10 relies on and stretches out storehouse, storehouse is fixed by screws in the outer side surface stretching out storehouse lid 7 behind storehouse after covering 7 center holes location.Stretch out storehouse support oil cylinder 9 one end by pin with stretch out storehouse support oil cylinder fixed base 8 and form hinged revolute pair, the other end piston rod end ladder helical thread portion is fixedly tightened by nut after stretching out storehouse synchronous disk 6.Synchronous disk 6 and synchronous disk slide-bar 10 form sliding pair, stretch out storehouse support oil cylinder 9 drive under can along stretching out storehouse synchronous disk slide-bar 10 slide anteroposterior.Stretch out bin bracket 2, stretch out storehouse supporting leg 3, stretch out storehouse strut 4 with stretching out together with storehouse warehouse 5 and form three groups along stretching out three groups of uniform parallel-crank mechanisms of storehouse warehouse circumference, and compress inner-walls of duct in company with the sliding contact of stretching out storehouse synchronous disk 6 or inner-walls of duct is left in withdrawal.Push away warehouse-entering system for raw composition and working principle thereof with to stretch warehouse exit system identical, repeat no more here.

As shown in Figure 1, under stretching out storehouse support oil cylinder 9 and advancing storehouse support oil cylinder 20 to drive, stretch out storehouse supporting leg 3 and can extend radially with propelling storehouse supporting leg 14 and contact compression tube wall.Frictional force between supporting leg and tube wall is that robot wriggling walking and pipeline operations provide required counter-force and reaction torque.When advance storehouse supporting leg 14 stretch out contact compress tube wall, stretch out storehouse supporting leg 3 retract time, propelling cylinder 11 piston rod stretches out, and promotes to stretch warehouse exit system and to travel forward a segment distance.After stretching warehouse exit system stop motion, stretch out storehouse supporting leg 3 and stretch out contact and compress tube wall, advance storehouse supporting leg 14 to retract, propelling cylinder 11 piston rod is retracted and is pulled robot to push away warehouse-entering system for raw and to travel forward same distance.Circulate and so forth, walking of wriggling, for pipeline operations robot provides tractive force.

Fig. 2 is for stretching warehouse exit system and advancing parallel-crank mechanism three-dimensional structure schematic diagram involved by the system architecture of storehouse in the utility model.To stretch warehouse exit system, stretch out bin bracket 2, stretch out storehouse supporting leg 3, stretch out storehouse strut 4 and stretch out storehouse warehouse 5 and be connected common composition along stretching out three groups of uniform parallel-crank mechanisms of storehouse warehouse 5 circumference by pin.In parallel-crank mechanism, stretch out storehouse strut 4 for driving part, stretching out storehouse supporting leg 3 is the workpiece with tube contacts.

Fig. 3 a be stretch out storehouse support oil cylinder fixed base 8 in the utility model and advance storehouse support oil cylinder fixed base 21 look up three-dimensional structure schematic diagram, Fig. 3 b be stretch out storehouse support oil cylinder fixed base 8 in the utility model and advance storehouse support oil cylinder fixed base 21 overlook three-dimensional structure schematic diagram.Stretch out storehouse support oil cylinder fixed base 8, advance storehouse support oil cylinder fixed base 21 by oil cylinder fixing base positioning spigot 22 respectively with stretch out front storehouse, storehouse and cover 1, advance front storehouse, storehouse cover 12 reliably to locate, and by hexagon socket head cap screw through screw via hole 23 be tightened to stretch out front storehouse, storehouse cover 1 and front storehouse, propelling storehouse cover on 12.Pin hole 24 is used for realization and stretches out storehouse oil cylinder fixing base 8 and stretch out storehouse support oil cylinder 9 and advances storehouse oil cylinder fixing base 21 to form hinged revolute pair with propelling storehouse support oil cylinder 20.

Fig. 4 a be stretch out storehouse synchronous disk 6 in the utility model and advance storehouse synchronous disk 19 overlook three-dimensional structure schematic diagram; Fig. 4 b be stretch out storehouse synchronous disk 6 in the utility model and advance storehouse synchronous disk 19 look up three-dimensional structure schematic diagram.Stretch out storehouse support oil cylinder 9 as shown in the figure and advance the piston rod end thread section of storehouse support oil cylinder 20 respectively by the rear nut screwing clamping of synchronous disk screw thread via hole 25 stretching out storehouse synchronous disk 6 and propelling storehouse synchronous disk 19, realize fixing between oil cylinder and synchronous disk.Stretch out storehouse synchronous disk slide-bar 10 and advance storehouse synchronous disk slide-bar 18 then by synchronous disk slide-bar hole 26 respectively with stretch out storehouse synchronous disk 6 and advance storehouse synchronous disk 19 to form sliding pair, ensure to stretch out storehouse synchronous disk 6 and propelling storehouse synchronous disk 19 reliably can slide along synchronous disk slide-bar 10 and 18 respectively.On synchronous disk three body cradles 27 respectively with stretch out storehouse and advance three groups of uniform parallelogram lindages of storehouse circumference to be connected, realize the driving of synchronous disk to parallelogram lindage.

Fig. 5 is the three-dimensional structure schematic diagram stretching out storehouse warehouse 5 in the utility model and advance storehouse warehouse 16.On it, fixing hinge stent 28 provides fixed-hinged support for stretching warehouse exit system with the parallelogram lindage pushing away warehouse-entering system for raw; End cover connecting bolt by the screw via hole 29 on warehouse and with nut check, realize warehouse cover with forward and backward storehouse between sealing be connected.

In a word, the creeping type pipeline traction device that surges described in the utility model can provide powerful tractive force for pipeline operations robot, ensure that pipeline robot completes pipeline operations task smoothly, have that load capacity is strong, pipeline strong adaptability, safe and reliable, advantages of simple structure and simple.

The above is only preferred implementation of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims

1. surge creeping type pipeline robot traction gear, by stretching warehouse exit system, push away warehouse-entering system for raw and propelling cylinder forms, it is characterized in that: stretch warehouse exit system comprise stretch out storehouse before Cang Gai (1), stretch out bin bracket (2), stretch out storehouse supporting leg (3), stretch out storehouse strut (4), stretch out storehouse warehouse (5), stretch out storehouse synchronous disk (6), stretch out storehouse after Cang Gai (7), stretch out storehouse support oil cylinder fixed base (8), stretch out storehouse support oil cylinder (9) and stretch out storehouse synchronous disk slide-bar (10); Push away warehouse-entering system for raw comprise advance Cang Gai (12) before storehouse, advance bin bracket (13), advance storehouse supporting leg (14), advance storehouse strut (15), advance storehouse warehouse (16), advance storehouse after Cang Gai (17), synchronous disk slide-bar (18), advance storehouse synchronous disk (19), advance storehouse support oil cylinder (20) and propelling storehouse support oil cylinder fixed base (21); Cang Gai (1) and before Cang Gai (7) is fixed on is stretched out storehouse warehouse (5) by screw bolt and nut after stretching out storehouse before stretching out storehouse, rear two ends, stretch out storehouse support oil cylinder fixed base (8) to be fixed on by socket head screw and to stretch out Cang Gai (1) inner side surface before storehouse, the outer side surface stretching out Cang Gai (7) behind storehouse is fixed by screws in behind Cang Gai (7) center hole location after synchronous disk slide-bar (10) relies on and stretches out storehouse, stretch out storehouse support oil cylinder (9) one end and stretch out that storehouse support oil cylinder fixed base (8) is upper forms hinged revolute pair by pin with being connected in, the other end piston rod end ladder helical thread portion is fixedly tightened by nut through after synchronous disk (6), synchronous disk (6) and synchronous disk slide-bar (10) form sliding pair and retrain, stretch out storehouse support oil cylinder drive under can along synchronous disk slide-bar (10) slide anteroposterior, stretch out bin bracket (2) two ends to form respectively by bearing pin and be movably hinged revolute pair and be fixedly hinged revolute pair with stretching out storehouse supporting leg (3) and stretch out storehouse warehouse (5), stretch out storehouse strut (4) two ends then respectively with stretch out storehouse supporting leg (3) and synchronous disk (6) and form and be movably hinged revolute pair, ream and stretch out storehouse warehouse (5) and form the revolute pair that is fixedly hinged in centre, system is using oil hydraulic cylinder as system dynamic source.

2. the creeping type pipeline robot traction gear that surges according to claim 1, it is characterized in that: described stretching out bin bracket (2), stretch out storehouse supporting leg (3), stretch out storehouse strut (4) and stretch out storehouse warehouse (5) forms one group of parallel-crank mechanism, along stretching out parallel-crank mechanism described in uniform three groups of storehouse warehouse (5) circumferential interval 120 o.

3. the creeping type pipeline robot traction gear that surges according to claim 1, it is characterized in that: described synchronous disk (6) and synchronous disk slide-bar (10) form sliding pair, synchronous disk (6) is along synchronous disk slide-bar (10) slide anteroposterior, and drive the stretch out storehouse strut (4) hinged with synchronous disk (6) to move, driving parallel-crank mechanism moves, and stretches out storehouse supporting leg (3) contact and compresses inner-walls of duct or leave inner-walls of duct.

4. the creeping type pipeline robot traction gear that surges according to claim 1, it is characterized in that: described stretches out storehouse support oil cylinder fixed base (8), advance storehouse support oil cylinder fixed base (21) by oil cylinder fixing base positioning spigot (22) respectively with stretch out Cang Gai (1) before storehouse, before advancing storehouse, Cang Gai (12) reliably locates, and to be tightened to through screw via hole (23) by hexagon socket head cap screw and to stretch out before storehouse Cang Gai (1) and before advancing storehouse on Cang Gai (12), pin hole (24) be used for realization stretch out storehouse oil cylinder fixing base (8) with stretch out storehouse support oil cylinder (9) and advances storehouse oil cylinder fixing base (21) with propelling storehouse support oil cylinder (20) form hinged revolute pair.

5. the creeping type pipeline robot traction gear that surges according to claim 1, it is characterized in that: described stretches out storehouse support oil cylinder (9) and advance the piston rod end thread section in storehouse support oil cylinder (20) respectively by stretching out storehouse synchronous disk (6) and advancing the synchronous disk screw thread via hole (25) in storehouse synchronous disk (19) to use nut screwing clamping afterwards, fixing between oil cylinder and synchronous disk, stretch out storehouse synchronous disk slide-bar (10) and advance storehouse synchronous disk slide-bar (18) by synchronous disk slide-bar hole (26) respectively with stretch out storehouse synchronous disk (6) and advance storehouse synchronous disk (19) to form sliding pair, stretch out storehouse synchronous disk (6) and advance storehouse synchronous disk (19) respectively along stretching out storehouse synchronous disk slide-bar (10) and advancing storehouse synchronous disk slide-bar (18) to slide, on synchronous disk three body cradles (27) respectively with stretch out storehouse and advance three groups of uniform parallelogram lindages of storehouse circumference to be connected, realize the driving of synchronous disk to parallelogram lindage.