CN209623766U - A kind of miniature crusing robot of cable duct of substation - Google Patents

Abstract

The utility model discloses a kind of miniature crusing robot of cable duct of substation, including fuselage, the two sides of fuselage are connected separately with traveling arm, are connected between traveling arm and fuselage by link mechanism, and link mechanism is for adjusting the distance between traveling arm and fuselage；The both ends of traveling arm are provided with Athey wheel；U-shaped lifting frame is provided with below fuselage, U-shaped lifting frame is for being lifted and settling crusing robot；Fuselage is connected with detection arm, detection arm is connected with detector, above-mentioned apparatus disclosed by the utility model solves the problems, such as to belong to inspection blind area in cable duct, alleviate operation maintenance personnel workload, guarantee personal equipment safety, above-mentioned apparatus, for main path of travel, and has deformation function with gutter, fireproof blocking in ditch can be passed through, work on the spot requirement is adapted to.

Description

A kind of miniature crusing robot of cable duct of substation

Technical field

The utility model relates to cable duct inspection machine more particularly to a kind of miniature inspection machines of cable duct of substation People.

Background technique

Currently, detection relies on temperature sensing cable or optical fiber in cable duct of substation, information content is single, and fault location precision is low. But fireproof blocking is arranged every fixed range in cable duct inner cable cluster laying, narrow space, and traditional crusing robot is discontented The such work on the spot requirement of foot.Main cause is with a varied topography in cable duct, cable cluster laying, narrow space and fire prevention envelope Stifled blocking causes traditional intelligent inspection robot that can not carry out effectively being patrolled in above-mentioned cable duct with a varied topography Inspection, can not in effective monitoring cable duct cable working condition.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of miniature crusing robots of cable duct of substation.

The utility model is to solve above-mentioned technical problem by the following technical programs:

A kind of miniature crusing robot of cable duct of substation, including fuselage, the two sides of the fuselage are connected separately with traveling Arm is connected between the traveling arm and fuselage by link mechanism, and the link mechanism is for adjusting between traveling arm and fuselage Distance；

The both ends of the traveling arm are provided with Athey wheel；

U-shaped lifting frame is provided with below the fuselage, the U-shaped lifting frame is for being lifted and settling crusing robot；

The fuselage is connected with detection arm, and the detection arm is connected with detector.

Preferably, the link mechanism includes first connecting rod, second connecting rod, third connecting rod and fourth link

The first connecting rod and fourth link are hinged with the first sliding block, and one end of the second connecting rod and third connecting rod is hinged There is the second sliding block, first sliding block and the second sliding block are connected with two-way lead screw, and first sliding block and the second sliding block are located at double To the both ends of lead screw；

The two-way lead screw is connected with deformation driving motor；

The other end of the first connecting rod and third connecting rod is carried out with one end of fuselage two sides traveling arm hingedly respectively, and second Connecting rod and third connecting rod carry out with the other end of fuselage two sides traveling arm hinged respectively.

Preferably, first sliding block is located at the left-handed portion on the left of two-way lead screw, and the second sliding block is located on the right side of two-way lead screw Dextrorotation portion.

Preferably, the traveling arm that the link mechanism can adjust two sides carries out 0-250mm distance with fuselage respectively and stretches With contraction.

Preferably, the U-shaped lifting frame includes drive rod, support plate and follower lever, and drive rod is connected with lifting driving Motor, the lifting driving motor are fixed in one end of fuselage, one end connection lifting driving motor of the drive rod, the drive One end of the other end hinged support plate of lever, the hinged follower lever of the other end of the support plate, the follower lever are hinged on machine The other end of body, the drive rod, support plate, follower lever and fuselage group quadrangularly height adjustment geometry.

Preferably, the lifting driving motor is used to drive the height adjustment geometry for changing quadrangle, realizes machine The lifting and sedimentation of people's entirety.

Preferably, the detection arm connects fuselage main body top left side, and the detection arm can be with the coplanar progress of fuselage 0-180 ° of angle rotation.

The utility model has the advantage that compared with prior art

1. above-mentioned apparatus disclosed by the utility model solves the problems, such as to belong to inspection blind area in cable duct, O&M is alleviated Person works' amount guarantees personal equipment safety.

2. traditional crusing robot relies on dedicated track or road more, the utility model is logical mainly to advance with gutter Road, and have deformation function, fireproof blocking in ditch can be passed through, work on the spot requirement is adapted to.

Detailed description of the invention

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

Fig. 2 is the structural schematic diagram of link mechanism in the utility model embodiment；

Fig. 3 is the structural schematic diagram of U-shaped lifting frame in the utility model embodiment；

Fig. 4 is the state diagram of crusing robot when U-shaped lifting frame is opened in the utility model embodiment；

Fig. 5 is the state diagram that traveling arm stretches out crusing robot in the utility model embodiment；

Fig. 6 is the state diagram of crusing robot when U-shaped lifting frame is slowly closed in the utility model embodiment；

Fig. 7 is the state diagram that crusing robot is turned in the utility model embodiment；

Fig. 8 is the state diagram that crusing robot passes through fireproof blocking in the utility model embodiment.

Specific embodiment

It elaborates below to the embodiments of the present invention, the present embodiment before being with technical solutions of the utility model It puts and is implemented, the detailed implementation method and specific operation process are given, but the protection scope of the utility model is unlimited In following embodiments.

As shown in figures 1-8, the miniature crusing robot of cable duct of substation, including fuselage 6, the front and rear sides difference of fuselage 6 It is connected with traveling arm 4, the left and right end of each traveling arm 4 is provided with Athey wheel 5, and the fortune of fuselage 6 is realized by Athey wheel 5 It is dynamic that (it is usual manner disclosed in the prior art that Athey wheel 5, which drives the mode of fuselage 6, and those skilled in the art pass through access technology Handbook or technology dictionary are you can learn that the working principle and work structuring that Athey wheel 5 drives fuselage 6 to move).Traveling arm 4 with It is attached between fuselage 6 by link mechanism 2, link mechanism 2 is for adjusting the distance between traveling arm 4 and fuselage 6.Pass through Link mechanism 2, traveling arm 4 and fuselage 6 are able to carry out the stretching, extension of 0-250mm distance and shrink.

The specific structure of link mechanism 2 are as follows: link mechanism 2 include link mechanism 21, second connecting rod 22, third connecting rod 23 with And fourth link 24, one end of link mechanism 21 and fourth link 24 are hinged with the first sliding block 26 (link mechanism 21 and the 4th company Bar 24 is respectively hinged at the top of the first sliding block 26), meanwhile, it is sliding that one end of second connecting rod 22 and third connecting rod 23 is hinged with second Block 27 (top that second connecting rod 22 is respectively hinged at the second sliding block 27 with third connecting rod 23).

First sliding block 26 and the second sliding block 27 are connected with two-way lead screw 25, and (two-way lead screw 25 is connected with deformation driving motor 28, deformation driving motor 28 drives two-way lead screw 25 to rotate), two-way lead screw 25 includes (having lead screw positioned at the left-handed portion of left end Screw thread), and positioned at the dextrorotation portion (have threads of lead screw) of right end, the first sliding block 26 and the second sliding block 27 respectively at left-handed portion and Dextrorotation portion is cooperatively connected in left-handed portion and dextrorotation portion.

After link mechanism 21 and hinged first sliding block 26 in one end of fourth link 24, link mechanism 21 and fourth link 24 The other end is respectively hinged at 4 left position of traveling arm positioned at 6 front and rear sides of fuselage, similarly, second connecting rod 22 and third connecting rod After hinged second sliding block 27 in 23 one end, the other end of second connecting rod 22 and third connecting rod 23 is respectively hinged at before fuselage 6, 4 right end position of two sides traveling arm afterwards.

The lower section of fuselage 6 is provided with U-shaped lifting frame 7, U-shaped lifting frame 7 is for being lifted and settling crusing robot, U-shaped The specific structure of lifting frame 7 are as follows:

U-shaped lifting frame 7 includes drive rod 72, support plate 73 and follower lever, and lifting driving motor connects drive rod 72, lift Rise the right end that driving motor is fixed in fuselage 6, one end connection lifting driving motor of drive rod 72, the other end hinge of drive rod 72 The top right end of support plate 73, the hinged follower lever in top left end of support plate 73 are connect, follower lever is hinged on 6 bottom of a fuselage left side End.Drive rod 72, support plate 73,6 groups of quadrangularlies of follower lever and fuselage height adjustment geometry, specifically, the lift It rises driving motor to be used to drive the height adjustment geometry for changing quadrangle, realizes the lifting and sedimentation of robot entirety.

The top left side of fuselage 6 is connected with detection arm 3, and the top end part of detection arm 3 is connected with detector 1, and (detector 1 is existing Have the conventional equipment that cable duct inner cable state is able to detect disclosed in technology, such as infrared camera), detection arm 3 can be with machine 0-180 ° of angle rotation of the coplanar progress of body 6, specifically, realizing that detection arm 3 and fuselage 6 carry out 0-180 ° of folder of coplanar progress Angle rotation mode is usual manner disclosed in the prior art, and the bottom that such as detection arm 3 will test arm 3 is connected to turning for driving motor On axis, driving motor rotates 180 degree, and detection arm 3 follows rotation 180 degree.

Traveling arm 4 and the process that fuselage 6 is able to carry out stretching, extension and contraction are as follows:

Deformation driving motor 28 drives two-way lead screw 25 to rotate (left-handed portion and dextrorotation portion), and first connect with left-handed portion is sliding Horizontal sliding occurs for block 26, and horizontal sliding occurs for the second sliding block 27 connecting with dextrorotation portion, at this point, because of link mechanism 21 and the 4th Connecting rod 24 and the first sliding block 26 is hinged and the traveling arm 4 of two sides hingedly, second connecting rod 22 and third connecting rod 23 and the second sliding block 27 Hinged and two sides traveling arms 4 are hinged, traveling arm 4 and link mechanism 21, fourth link 24, second connecting rod 22 and third connecting rod 23 Angle change, and then traveling arm 4 and the spacing of fuselage 6 change, and realize stretching, extension and shrink.

The lifting of U-shaped lifting frame 7 and the process of sedimentation crusing robot are as follows:

Drive rod 72, support plate 73,6 groups of quadrangularlies of follower lever and fuselage height adjustment geometry, when lifting drive When the dynamic rotation of motor 71 (one end of drive rod 72 is connected on lifting driving motor 71), drive rod 72 rotates, because of driving Bar 72 and support plate 73 are hinged, and drive rod 72 and the angle of support plate 73 change, so by drive rod 72, support plate 73, The geometry for the height adjustment geometry that follower lever 74 and fuselage 6 form changes (i.e. because the shape of quadrangle occurs Change, the changing of high yield of quadrangle, i.e. fuselage 6 and the vertical spacing of support plate 73 change), and then realize the lift of robot entirety It rises and settles.

Mode of texturing is as follows when crusing robot inspection:

(1) conventional inspection: detection arm 3 stretches, and link mechanism 2 and U-shaped lifting frame 7 remain retracted state, crusing robot It is traveling in gutter, acquires data information in cable duct using the detector 1 on detection arm 3；

(2) pass through closure: detection arm 3 settles, and robot is contracted to section minimum state, complete by reserved gutter hole At passing through；

(3) the lesser gutter position of turning radius, ditch internal congestion position and emphasis inspection position are passed through: being located at fuselage 6 lower section U-shaped lifting frame 7 are opened, and entire crusing robot is made integrally to be lifted the outer ground of ditch；

Then, link mechanism 2 flexes outward, and makes traveling arm 4 and Athey wheel 5 and gutter other places face contact, U-shaped lifting frame 7 slow closures, four Athey wheels 5 support robots work and the outer ground in gutter, and completion works out of ditch to work to outside ditch Deformation；

When working outside ditch, crusing robot completes turning according to site environment, detours or act close to emphasis monitoring device, It completes after working outside ditch, back to gutter top；

Finally, U-shaped lifting frame 7 is opened, from gutter inner support crusing robot, link mechanism 2 is to contract, survey monitor Device people restores to original operating states in ditch, continues inspection work.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (7)

1. a kind of miniature crusing robot of cable duct of substation, which is characterized in that including fuselage, the two sides of the fuselage connect respectively Be connected to traveling arm, between the traveling arm and fuselage by link mechanism connect, the link mechanism for adjust traveling arm with The distance between fuselage；

The both ends of the traveling arm are provided with Athey wheel；

U-shaped lifting frame is provided with below the fuselage, the U-shaped lifting frame is for being lifted and settling crusing robot；

The fuselage is connected with detection arm, and the detection arm is connected with detector.

2. the miniature crusing robot of cable duct of substation according to claim 1, which is characterized in that the link mechanism packet Include first connecting rod, second connecting rod, third connecting rod and fourth link

The first connecting rod and fourth link are hinged with the first sliding block, and one end of the second connecting rod and third connecting rod is hinged with the Two sliding blocks, first sliding block and the second sliding block are connected with two-way lead screw, and first sliding block and the second sliding block are located at two-way silk The both ends of thick stick；

The two-way lead screw is connected with deformation driving motor；

The other end of the first connecting rod and third connecting rod carries out hinged, second connecting rod with one end of fuselage two sides traveling arm respectively It is carried out respectively with the other end of fuselage two sides traveling arm with third connecting rod hinged.

3. the miniature crusing robot of cable duct of substation according to claim 2, which is characterized in that first sliding block position Left-handed portion on the left of two-way lead screw, the second sliding block are located at the dextrorotation portion on the right side of two-way lead screw.

4. the miniature crusing robot of cable duct of substation according to claim 3, which is characterized in that the link mechanism energy The traveling arm for enough adjusting two sides carries out the stretching, extension of 0-250mm distance respectively and is shunk with fuselage.

5. the miniature crusing robot of cable duct of substation according to claim 1, which is characterized in that the U-shaped lifting frame Including drive rod, support plate and follower lever, drive rod is connected with lifting driving motor；

The lifting driving motor is fixed in one end of fuselage, one end connection lifting driving motor of the drive rod, the drive One end of the other end hinged support plate of lever, the hinged follower lever of the other end of the support plate, the follower lever are hinged on machine The other end of body, the drive rod, support plate, follower lever and fuselage group quadrangularly height adjustment geometry.

6. the miniature crusing robot of cable duct of substation according to claim 5, which is characterized in that the lifting driving electricity Machine is used to drive the height adjustment geometry for changing quadrangle, realizes the lifting and sedimentation of robot entirety.

7. the miniature crusing robot of cable duct of substation according to claim 1, which is characterized in that the detection arm connection Fuselage main body top left side, the detection arm can be rotated with the coplanar 0-180 ° of angle of progress of fuselage.