CN202320571U - Movement mechanism for wall-climbing robot - Google Patents

Abstract

The utility model relates to a movement mechanism for a wall-climbing robot, wherein an upper suction disc and a lower suction disc of the movement mechanism for a wall-climbing robot disclosed by the utility model are hinged with each other via a master support and a slave support; a telescopic push rod is installed on the master support, an output screw rod of the telescopic push rod is matched with a thread on a slide sleeve, and thus the slide sleeve can be driven to slide on a master support rod; an extension spring and a thrust spring are connected to an upper pitching push rod and a lower pitching push rod in parallel as well as used for providing assistant power when the robot climbs upwards; the upper pitching push rod is installed between the slave support and the upper suction disc via a hinge support seat; and the lower pitching push rod is installed between the master support and the lower suction disc via a hinge support seat. The movement mechanism for a wall-climbing robot, disclosed by the utility model, can imitate the action of inchworm, realize telescoping, pitching and lifting actions, flexibly face various bulges, pipelines and ditches on wall surfaces, and conveniently realize transition among the wall surfaces. The mechanism can realize rapid movement due to the movement amplification action of a link mechanism.

Description

A kind of kinematic mechanism of climbing robot

Technical field

The utility model relates to a kind of kinematic mechanism of climbing robot, particularly a kind ofly adopts composite rod mechanism to add screw mandrel to drive and realize the bionical mobile mechanism of the Inchworm type of climbing robot on various metope obstacles.

Background technology

The robot that on metope, moves at present generally has following several kinds of kinematic mechanisms and mode: 1, wheeled.Below main sucker, load onto wheel, generally adopt differential mode to turn to.Simple in structure, but can't pass through basically for the metope obstacle, only limit to smooth smooth metope and move, belong to dynamic seal (packing), cannot say for sure to demonstrate,prove the continous-stable of adsorption affinity; 2, crawler type.Suitable with wheeled situation, increase but cross the barrier ability; 3, bionic leg, sufficient formula.Sucker generally all is housed on every leg, and the step of imitation animal can overcome the obstacle on most of metopes, but the leg multiple degree of freedom is also many during motion, the control more complicated, and cost is also very high; 4, rail mounted.Adopt claw hook also to utilize fixing one or two guide rail of convexity of metope, about robot is done along guide rail, sway.This structure has utilized the metope convexity to make stress point, can carry bigger load, can obtain higher speed when moving in orbit, but receive the restriction of the metope convex tendon bar and the regularity of distribution thereof, is of limited application, and comformability is relatively poor; 5, Inchworm type.Adopting the action of multi-joint type of drive imitation looper worm to realize climbing the wall motion, can overcome most metope obstacles, is a kind of comparatively advanced move mode.Mostly its used drive form is joint motor (a kind of reducing motor that is installed on the joint) direct drive at present; Require the power and the moment of torsion of joint motor all very big; The transmission gear stressing conditions is more abominable; The joint generally can not self-locking, realize that the joint locking needs realize through special braking or electrical power, and mechanism is complicated and heavy.Because each joint is big retarding than driving, improve comparatively difficulty of moving velocity.

The utility model content

What the utility model will solve is the existing existing above-mentioned deficiency of wall-climbing device robot movement mechanism; Provide a kind of structure lightly succinct, driving power is little, and the composite rod formula of high efficiency is imitated the looper actuating mechanism; Be intended to improve the work efficiency of existing Inchworm type wall-climbing device robot movement mechanism; Assemble the power consumption that the climbing robot of this mechanism can be lower and realize imitative looper action, and can realize quick travel, make climbing robot more near practical.

The purpose of the utility model will realize through following technical scheme: a kind of kinematic mechanism of climbing robot, it is characterized in that comprising main support, from support, down sucker, go up sucker, flexible push rod, down the pitching push rod, go up pitching push rod, extension spring, thrust spring, sliding sleeve, connecting rod; Main support and pass through hinge-coupled from support upper end; The sliding sleeve that is enclosed within on the main support forms the moving sets with locking position function with the flexible push rod that is fixed on the main support; The connecting rod cross-over connection is in sliding sleeve with from also connecting through articulated joint between the support; Following sucker is installed on the main support lower end, and last sucker is installed on from the support lower end; Following pitching push rod will descend sucker and main support through hinged-support be linked together, last pitching push rod with pass through from support hinged-support be linked together; Thrust spring is placed between main support and the following sucker parallelly connected with following pitching push rod, and extension spring is placed in from parallelly connected with last pitching push rod between support and the last sucker.

Adopt the climbing robot of the said mechanism of the utility model; Its kinematic mechanism can imitate the action of looper worm; Realize flexible, pitching and lifting action, can face various convexities, pipeline and the groove on the metope more flexibly, also can easily between each metope, realize transition.Because the motion amplification of connecting rod mechanism, mechanism can realize quick travel.

The utility model compared with prior art has the following advantages and effect: 1, can imitate looper worm motion, thereby can be implemented in great-leap-forward obstacle detouring and the transition between metope on the metope; 2, owing to settled energy-storage travelling wave tube---the spring that can play the power-assisted effect at driving part, make driving power and energy consumption decline to a great extent, drive part weight is able to alleviate; 3, adopt composite rod mechanism, compare the overall weight that when keeping the structure stiffness, has further reduced robot with gear mechanism; 4, with having stronger load capacity and longer work-hours under the weight class; 5, join sucker and adopt static sealing, adapt to complicated metope more easily; 6, has moving velocity faster.

Description of drawings

Fig. 1 is the schematic diagram of mechanism of the utility model.

Fig. 2 (a)-Fig. 2 (h) is the mechanism kinematic state sketch of the utility model.

Fig. 3 is an embodiment scheme drawing of the utility model.

The specific embodiment

Below in conjunction with accompanying drawing, specify the embodiment of the utility model.

1, with reference to Fig. 1, the kinematic mechanism of a kind of climbing robot of the utility model comprises main support 7, from support 9 be installed on the following sucker 1 and the last sucker 2 of their lower ends respectively, and hinge-coupled is passed through in said master and slave support 7,9 upper ends.Pitching push rod 11 is two repetitives with following pitching push rod 4 on said upward sucker 2 and following sucker 1 and the connector thereof, and different is that the spring that is connected on the pitching push rod 11 is an extension spring 8, and the spring that is connected to down on the pitching push rod 4 is a thrust spring 3.The sliding sleeve 5 that is enclosed within on the main support 7 forms a screw pair with the flexible push rod 10 that is fixed on the main support 7, is used to promote sliding sleeve 5 and does to move along the straight line of main support 7 guide rods; Connecting rod 6 cross-over connections are in sliding sleeve 5 with from connecting between the support 9 and through articulated joint, and the action that is used to conduct sliding sleeve 5 makes extension and the folding done with respect to main support 7 from support 9.Following pitching push rod 4 will descend sucker 1 and main support 7 through hinged-support be linked together, last pitching push rod 11 will go up sucker 2 with from support 9 through hinged-support be linked together, the length of adjusting the pitching push rod can change the angle of sucker with respect to support; The said pitching push rod 11 of going up is made up of reducing motor and screw mandrel with following pitching push rod 4, and driven by motor screw mandrel rotation energy in silk braid changes the relative position of silk braid and then realizes length variations.Thrust spring 3 is placed between main support 7 and the following sucker 1 and is parallelly connected with following pitching push rod 4, is used to alleviate the stressed of pitching push rod 4 down; Extension spring 8 is placed in between support 9 and the last sucker 2 and parallelly connected with last pitching push rod 11, is used to alleviate go up the stressed of pitching push rod 11.

Said extension spring 8 is vital parts of realizing low energy consumption of the present invention with thrust spring 3, and its stiffness characteristics just can produce a desired effect after need doing accurate adjustment according to load.What be worth to remind is, as elastic element, it is a kind of that its form is not limited to coil spring, and it also can wait with gas spring, wind spring and replace.

Said flexible push rod 10, the effect of going up pitching push rod 11 and following pitching push rod 4 are output and control straight line and move; Adopted electric pushrod in the present embodiment, but this do not represent other form such as hydraulic pressure, that the compressed-air controlled straight line moves mode is invalid in the present invention.

Fig. 2 is the service condition scheme drawing of kinematic mechanism under various wall states of a kind of climbing robot of the utility model.

Rounding state (a); If be initial condition this moment; Flexible push rod 10 pulling sliding sleeves 5 are bottom; Last pitching push rod 11 is the moderate punctured bit with following pitching push rod 4, is in half compressive state with following pitching push rod 4 parallelly connected thrust springs 3, then is in the semi-drawing state with last pitching push rod 11 parallelly connected extension springs 8.

Deployed condition (b); Set sucker 1 and be fixed end, last sucker 2 moves up as movable pin, and this moment, flexible push rod 10 promoted to move on the sliding sleeve 5; Last pitching push rod 11 launches with following pitching push rod 4, and thrust spring 3 stretches and releases energy to assist down pushes to sucker 2 on the pitching push rod 4; Extension spring 8 energy storage that also is stretched this moment, but be in vacant state owing to go up sucker 2 this moment, last pitching push rod 11 overcomes mainly is the pulling force of extension spring 8 and the last weight of sucker 2 on a small quantity.

Swash state (e), (g), when last sucker 2 stable be adsorbed on the metope after, following sucker 1 discharges and becomes movable pin.Pitching push rod 11 and following pitching push rod 4, flexible push rod 10 all begin to shrink on this moment.And the extension spring 8 that the is loaded on pitching push rod 11 auxiliary pitching push rod 4 of going up that releases energy shrinks pulling and moves on the sucker 1 down; Thrust spring 3 then begins compressed energy-storage under the effect of following pitching push rod 4; Same since this at present sucker 1 be in vacant state, what following pitching push rod 4 overcame mainly is the elastic force and a small amount of gravity of sucker 1 down of thrust spring 3.

Accomplish the back when the state that swashes and just got into rounding state again, imitative looper of alternately promptly the having realized robot like this action of swashing.

All the other obstacle detourings and metope transitional movement can be referring to decomposition diagram (c), (d), (f), (h) of Fig. 2; Everything all is through last pitching push rod 11, the folding and unfolding of pitching push rod 4 and 10 3 push rods of flexible push rod realizes down, the ratio and time difference of stroke between different just three push rods.

The concrete application that is based on Fig. 1 embodiment illustrated in fig. 3.

Should be clear and definite be: the foregoing description is just to the explanation of the utility model, rather than to the restriction of the utility model, any innovation and creation that do not exceed in the utility model connotation scope all fall within the protection domain of the utility model.

Claims (3)

1. the kinematic mechanism of a climbing robot, it is characterized in that comprising main support (7), from support (9), down sucker (1), go up sucker (2), flexible push rod (10), down pitching push rod (4), go up pitching push rod (11), extension spring (8), thrust spring (3), sliding sleeve (5), connecting rod (6); Main support (7) and pass through hinge-coupled from support (9) upper end; The sliding sleeve (5) that is enclosed within on the main support (7) forms the moving sets with locking position function with the flexible push rod (10) that is fixed on the main support (7); Connecting rod (6) cross-over connection is in sliding sleeve (5) with from also connecting through articulated joint between the support (9); Following sucker (1) is installed on main support (7) lower end, and last sucker (2) is installed on from support (9) lower end; Following pitching push rod (4) will descend sucker (1) and main support (7) through hinged-support be linked together, last pitching push rod (11) with pass through from support (9) hinged-support be linked together; Thrust spring (3) is placed between main support (7) and the following sucker (1) parallelly connected with following pitching push rod (4), and extension spring (8) is placed in from parallelly connected with last pitching push rod (11) between support (9) and the last sucker (2).

2. the kinematic mechanism of a kind of climbing robot according to claim 1 is characterized in that flexible push rod (10), last pitching push rod (11) and following pitching push rod (4) can adopt electronic screw mandrel, also can adopt hydraulic pressure or air-actuator to replace.

3. the kinematic mechanism of a kind of climbing robot according to claim 1 is characterized in that used thrust spring (3) and extension spring (8) also can use coil spring, gas spring and volute spring to realize.

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