CN114194917B

CN114194917B - Power cable track transportation frame

Info

Publication number: CN114194917B
Application number: CN202111633971.6A
Authority: CN
Inventors: 李金文; 张婕
Original assignee: Chengde Petroleum College
Current assignee: Chengde Petroleum College
Priority date: 2021-12-29
Filing date: 2021-12-29
Publication date: 2024-01-26
Anticipated expiration: 2041-12-29
Also published as: CN114194917A

Abstract

The invention relates to the technical field of cable turnover, in particular to a power cable track transportation frame which comprises a transportation base station, wherein a spool disc, a positioning sleeve, a middle position supporting carrier, a correction assembly and a wire conveying supporting carrier are sequentially arranged on the transportation base station; a spool disk supported by the drive shaft and mounted at the start end of the transport base for unwinding the cable; the wire conveying support carrier is erected at the tail end of the conveying base and is used for outputting a cable; the positioning sleeve is arranged at the wire conveying end of the spool disc and is used for positioning the cable and sleeving the cable in the inner cavity of the positioning sleeve; the correction component is arranged at the input end of the wire conveying support carrier and used for guiding the cable to the carrier surface of the wire conveying support carrier; the middle position support carrier is arranged between the positioning sleeve and the correction component. The invention can correct the cable into a straight line state, reduce the conveying difficulty and avoid the risk of damaging the cable.

Description

Power cable track transportation frame

Technical Field

The invention relates to the technical field of cable turnover, in particular to a power cable track transportation frame.

Background

The power cable is a cable for transmitting and distributing electric energy, and is commonly used for urban underground power grids, power station outgoing lines, power supply in industrial and mining enterprises and power transmission lines under sea water passing through the river. In the electric power line, the proportion of the cable is gradually increasing. Power cables are cable products used in the main line of power systems to transmit and distribute high power electrical energy.

At present, the short-distance moving in the existing power cable is realized by pushing a spool disc of the power cable to move by a person, at least two persons are needed to move a spool of the power cable, and the spool of the power cable is inconvenient to turn when being moved, so that the time and the labor are wasted; and there is the low problem of security, and the cable is when exporting from the spool dish, and in the in-process of carrying, can not effectively expand to can cause the cable to carry inconveniently, the risk of easily damaging to cable itself simultaneously.

Disclosure of Invention

The invention aims to provide a power cable track transportation frame which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the power cable track transportation frame comprises a transportation base station, wherein a spool disc, a positioning sleeve, a middle position supporting carrier, a correction component and a wire conveying supporting carrier are sequentially arranged on the transportation base station;

a spool tray supported by the driving shaft and mounted at a start end of the transport base for unwinding the cable;

the wire conveying support carrier is erected at the tail end of the transportation base station through a first bearing frame and is used for outputting cables;

the positioning sleeve is arranged at the wire conveying end of the spool disc and is used for positioning the cable and sleeving the cable in the inner cavity of the positioning sleeve;

the correction component is arranged at the input end of the wire conveying support carrier and used for guiding the cable to the carrier surface of the wire conveying support carrier;

the middle position support carrier is erected on the transportation base station through the second bearing frame and is arranged between the positioning sleeve and the correction assembly.

As a further scheme of the invention: the locating sleeve piece is of a frame type structure, the outer frames of the locating sleeve piece are all provided with supporting frame plates, the supporting frame plates are installed through locating angle frames, the included angles of the adjacent locating angle frames are provided with inner supporting frames, the inner supporting frames are distributed at equal angles with the axis positions of the locating sleeve piece, and clamping cushion blocks are installed on the inner surfaces of the inner supporting frames.

As a further scheme of the invention: the support frame plate is provided with an inner support block at a positioning angle frame position, a middle position support spring is arranged between the inner support block and a corresponding inner support frame, two ends of the inner support frame are respectively erected between adjacent support frame plates, loading joints are arranged at two ends of the inner support frame, branch fixing rods are mounted on the loading joints, and the branch fixing rods are connected with a plate body of the support frame plates through elastic connecting pieces.

As a further scheme of the invention: the elastic connecting piece comprises a positioning sleeve arranged at the end of the branch fixing rod and a torsion spring arranged on the outer sleeve surface of the positioning sleeve, wherein butt joint protrusions are arranged on the plate body of the support frame plate and are assembled with the positioning sleeve, and two ends of the torsion spring are respectively arranged on the corresponding branch fixing rod and the support frame plate.

As a further scheme of the invention: the correction assembly comprises a correction frame and guide rollers arranged in the inner cavity of the correction frame, wherein the guide rollers are respectively arranged on two sides of the inner cavity of the correction frame and are arranged in a relative mirror image mode, each guide roller comprises positioning frame plates arranged at two ends of the guide roller and supporting rollers arranged between the positioning frame plates at two ends, the supporting rollers are arranged on the positioning frame plates through inserting sleeves at equal angles, and elastic sleeve surfaces are wrapped on the outer surfaces of the supporting rollers.

As a further scheme of the invention: the guide roller is characterized in that outer edge frames are arranged on two sides of the guide roller, the outer edge frames are arranged in an embedded mode through connecting grooves and positioning frame plates, the outer edge frames and the positioning frame plates can rotate relatively, sliding blocks are arranged on the outer edge frames, displacement tracks are arranged on two side edges of the correction frame, and the sliding blocks slide along the displacement tracks.

As a further scheme of the invention: the bottom edge of the correction frame is provided with a driving screw rod, the bottom of the outer edge frame is provided with an adjusting block, and the adjusting block moves through the driving screw rod.

As a further scheme of the invention: the wire conveying end of the spool disk is provided with an unfolding auxiliary piece, the unfolding auxiliary piece is provided with a supporting head, the supporting head is provided with an outer poking bracket towards the wire conveying opening of the spool disk, the outer poking bracket is provided with an abutting air bag towards one side of the spool disk, the abutting air bag is in tangential fit with the outer surface of the spool disk, and the outer end of the outer poking bracket is in contact with the surface of a cable through a smooth roll shaft and abuts against the cable.

As still further aspects of the invention: the outer shifting support is installed through the movable shaft, an outer support block is further arranged on the shell of the unfolding auxiliary piece, and an outer support spring is further arranged between the outer support block and the outer shifting support.

Compared with the prior art, the invention has the beneficial effects that:

the spool is designed to be a loading tool for cables, and the middle position supporting carrier and the line conveying supporting carrier are used for carrying the cables; therefore, the positioning sleeve and the correction assembly are arranged, the positioning sleeve can assist in converting the cable into a straight line condition on one hand, and the other side of the positioning sleeve is prevented from deviating from a track for transporting the cable; the correction component guides the cable in a clamping mode, on one hand, the cable is guided to a conveying belt of a follow-up cable conveying support carrier, on the other hand, the cable subjected to preliminary positioning treatment of the positioning sleeve is subjected to correction and straightening treatment again, and the problem that the cable is bent and deviated is avoided.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application. Meanwhile, these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to specific embodiments.

Fig. 1 is a schematic diagram of an overall structure of a power cable rail transportation frame according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a positioning sleeve according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of an inner support frame according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of the area a in fig. 3 according to the present invention.

Fig. 5 is a schematic structural diagram of a calibration assembly according to an embodiment of the present invention.

Fig. 6 is a schematic structural view of an expansion aid according to an embodiment of the present invention.

In the figure: 1. a transport base; 11. a drive shaft; 12. positioning the external member; 13. a second carrier; 14. a first carrier; 15. a correction assembly; 16. a spool disc; 17. a wire conveying support carrier; 18. a median support stage; 22. a support frame plate; 23. positioning the angle frame; 24. an inner support frame; 25. clamping the cushion block; 31. an inner support block; 32. a middle position supporting spring; 33. loading the joint; 34. a branch fixing rod; 35. an elastic connection member; 36. butt joint bulges; 37. a positioning sleeve; 38. a torsion spring; 40. a guide roller; 41. a positioning rack plate; 42. inserting and closing a sleeve; 43. a support roller; 44. an outer edge frame; 45. a sliding block; 46. a displacement rail; 47. a correction frame; 48. an adjusting block; 49. driving a screw rod; 51. a deployment aid; 52. a support head; 53. a movable shaft; 54. an outer dialing support; 55. an abutting air bag; 56. a smooth roll shaft; 57. an outer support block; 58. an outer branch spring.

Detailed Description

The technical solutions according to the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings, examples of which are shown in the accompanying drawings. When the following description refers to the accompanying drawings, like numerals in the various drawings refer to like or similar elements, unless otherwise specified.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

In one embodiment;

referring to fig. 1, a power cable track transportation frame is provided, which comprises a transportation base 1, wherein a spool disc 16, a positioning sleeve 12, a middle position supporting carrier 18, a correction component 15 and a wire conveying supporting carrier 17 are sequentially arranged on the transportation base 1;

a spool 16 supported by the drive shaft 11 and mounted to the start end of the transport base 1, the spool 16 being configured to unwind the cable;

a wire-feeding support carrier 17, which is erected at the tail end of the transportation base 1 through a first bearing frame 14, wherein the wire-feeding support carrier 17 is used for outputting cables;

the positioning sleeve 12 is arranged at the wire conveying end of the spool 16 and is used for positioning the cable and sleeving the cable in the inner cavity of the positioning sleeve 12;

the correction component 15 is arranged at the input end of the wire conveying support carrier 17 and used for guiding the cable to the carrier surface of the wire conveying support carrier 17;

the middle position support carrier 18 is erected on the transportation base 1 through the second bearing frame 13, and the middle position support carrier 18 is arranged between the positioning sleeve 12 and the correction component 15.

The embodiment designs the transportation base 1 as a bearing base of an integral cable track transportation frame, and the cable track transportation frame can be loaded on an equipment platform, a production line and other working places through the transportation base 1; the spool 16 is a loading tool for cables, the cables are wound on the spool 16, and the rotation of the spool 16 drives the cables to be unscrewed, so that the middle position support carrier 18 and the wire conveying support carrier 17 are used for carrying the cables, the middle position support carrier 18 and the wire conveying support carrier 17 are respectively arranged on the transportation base 1 through the second carrier 13 and the first carrier 14, and the carrying surfaces of the middle position support carrier 18 and the wire conveying support carrier 17 are respectively provided with conveyor belts for assisting the transportation of the cables;

because the cable is wound on the spool 16 and is bent in an inner winding manner, the cable is difficult to effectively restore to a straight state when the cable is conveyed, so that great difficulty in conveying and even risk of damaging the cable are necessarily caused; therefore, the embodiment is further provided with the positioning sleeve 12 and the correction assembly 15, after the cable is output from the spool 16, the cable passes through the positioning sleeve 12 and penetrates into the inner cavity of the positioning sleeve 12 to position the cable, so that on one hand, the cable can be assisted to be converted into a straight line condition, and on the other hand, the cable is prevented from deviating from a track for transporting the cable; subsequently, the cable is input onto the conveyor belt of the middle position support carrier 18, the middle position support carrier 18 achieves the effect of turnover support on the cable, the cable enters the correction assembly 15 again, the correction assembly 15 guides the cable in a clamping mode, on one hand, the cable is guided onto the conveyor belt of the subsequent cable conveying support carrier 17, on the other hand, the cable subjected to preliminary positioning treatment of the positioning sleeve member 12 is subjected to correction and straightening treatment again, and the problem of bending deviation of the cable is avoided.

In one embodiment;

referring to fig. 2, the positioning sleeve 12 is in a frame structure, the outer frames of the positioning sleeve 12 are respectively provided with a supporting frame plate 22, the supporting frame plates 22 are installed through positioning angle frames 23, the included angles of the adjacent positioning angle frames 23 are provided with inner supporting frames 24, the inner supporting frames 24 are distributed at equal angles with the axis position of the positioning sleeve 12, and the inner surfaces of the inner supporting frames 24 are provided with clamping cushion blocks 25.

In this embodiment, the positioning process is performed on the cable from multiple directions, as an example, fig. 2 shows a mechanism arrangement manner of the positioning sleeve 12, the positioning sleeve 12 is designed to be a quadrilateral frame structure in this embodiment, the inner supporting frames 24 are also provided with four channels respectively arranged at four corners of the positioning sleeve 12, the clamping cushion blocks 25 are attached to the cable, so that the cable is positioned and extruded, and for the specific implementation structure of the clamping cushion blocks 25, an airbag or a fillable supporting structure can be adopted, so that the supporting effect on cables with different sizes is ensured.

In one instance of the present embodiment,

referring to fig. 3, the supporting frame plates 22 are provided with inner supporting blocks 31 at the positioning angle frames 23, middle supporting springs 32 are disposed between the inner supporting blocks 31 and the corresponding inner supporting frames 24, two ends of the inner supporting frames 24 are respectively erected between the adjacent supporting frame plates 22, two ends of the inner supporting frames 24 are respectively provided with loading joints 33, the loading joints 33 are provided with branch fixing rods 34, and the branch fixing rods 34 are connected with the plate bodies of the supporting frame plates 22 through elastic connecting pieces 35.

To the mounting means of carriage plate 22, this application designs the relative perpendicular to mainboard body of carriage plate 22 of median position supporting spring 32, supports the middle region of carriage plate 22, and the both ends of its carriage plate 22 are connected with the plate body of carriage plate 22 through elastic connection piece 35 respectively to make carriage plate 22 have certain elasticity flexible space, be convenient for the inseparable laminating of centre gripping cushion 25 in the surface of cable like this, thereby reach the effect to cable location, can effectively adapt to the cable of unnecessary size.

In one instance of the present embodiment,

for the elastic mounting of the support frame plate 22, this embodiment is designed as follows:

referring to fig. 4, the elastic connecting member 35 includes a positioning sleeve 37 mounted on a rod end of the branch fixing rod 34, and a torsion spring 38 mounted on an outer surface of the positioning sleeve 37, wherein the plate body of the support frame plate 22 is provided with a butt joint protrusion 36, the butt joint protrusion 36 and the positioning sleeve 37 are assembled and mounted with each other, and two ends of the torsion spring 38 are respectively mounted on the corresponding branch fixing rod 34 and the support frame plate 22.

The middle area of the supporting frame plate 22 forms linear supporting force through the middle supporting spring 32, two ends of the supporting frame plate 22 are branched into a plurality of branch fixing rods 34, in the embodiment, each end of the supporting frame plate 22 is provided with two branch fixing rods 34, the rod ends of the branch fixing rods 34 are sleeved on the butt joint protrusions 36, torsion springs 38 are arranged on the outer sleeve surfaces of the positioning sleeves 37, and the two ends of the torsion springs 38 are respectively connected with the branch fixing rods 34 and the supporting frame plate 22, so that spiral elastic torsion is formed at the two ends of the supporting frame plate 22, and if a tendency of cable deviation occurs, the cable can be inclined necessarily; the change in tilt will only occur by overcoming the spring force described by torsion spring 38, which effectively prevents tilting of the cable.

In one embodiment;

referring to fig. 5, the correction assembly 15 includes a correction frame 47, and guide rollers 40 disposed in an inner cavity of the correction frame 47, wherein the guide rollers 40 are arranged on two sides of the inner cavity of the correction frame 47 in a split manner and are arranged in a mirror image manner, the guide rollers 40 include positioning frame plates 41 disposed at two ends of the guide rollers 40, and support rollers 43 mounted between the positioning frame plates 41 at two ends, the support rollers 43 are mounted on the positioning frame plates 41 through inserting sleeves 42 at equal angles, and an elastic sleeve surface is wrapped on an outer surface of the support rollers 43.

In this embodiment, the main body implementation structure of the correction assembly 15 is a guide roller 40 on two sides of the split row, the guide roller 40 is in a rotary structure, the support roller 43 is in contact with the surface of the cable, and friction is generated between the surface of the cable and the support roller 43 while the cable is conveyed, so that the guide roller 40 is driven to move, the guide roller 40 achieves the effect of clamping and limiting the cable, the cable is smoothly guided onto the carrying surface of the cable conveying support carrier 17, and the cable is further assisted to become a linear trend. The outer surface of the support roller 43 is wrapped with an elastic jacket surface, which enables the cable to closely fit the outer surface of the guide roller 40.

In one instance of the present embodiment,

the guide roll 40 is provided with an outer edge frame 44 on both sides, the outer edge frame 44 is mounted in an embedded manner with the positioning frame disc 41 through a connecting groove, the outer edge frame 44 and the positioning frame disc 41 can rotate relatively, a sliding block 45 is arranged on the outer edge frame 44, displacement rails 46 are arranged on both sides of the correction frame 47, and the sliding block 45 slides along the displacement rails 46.

The present embodiment designs that the guide rollers 40 on both sides can slidably displace along the displacement track 46 of the correction frame 47, so that the guide rollers 40 on both sides form a clamp for the cable, and the space between the guide rollers 40 is suitable for cables of different sizes.

For the driving mode of driving the guide roller 40 to move, the bottom edge of the correction frame 47 is provided with a driving screw rod 49, the bottom of the outer edge frame 44 is provided with an adjusting block 48, and the adjusting block 48 moves through the driving screw rod 49. The driving screw rod 49 is a bidirectional threaded rod, the external driving motor is used as a power end of the driving screw rod 49, and the guide rollers 40 on two sides are driven to move relatively through screw rod transmission.

In one embodiment;

since the cable is wound on the spool 16 and is in a curled state, and the cable still has a tendency to be recovered to a curled state when being pulled out, the unwinding auxiliary member 51 is arranged at the wire conveying end of the spool 16 in the embodiment;

referring to fig. 6, a supporting head 52 is disposed on the deployment auxiliary member 51, an outer pulling bracket 54 is disposed at a position of the supporting head 52 facing the wire feeding port of the spool disk 16, an abutting air bag 55 is disposed at a side of the outer pulling bracket 54 facing the spool disk 16, the abutting air bag 55 is tangentially attached to an outer surface of the spool disk 16, and an outer end of the outer pulling bracket 54 contacts with a surface of a cable through a smooth roller shaft 56 and abuts against the cable. The outer shifting support 54 is mounted through a movable shaft 53, an outer support block 57 is further arranged on the casing of the unfolding auxiliary piece 51, and an outer support spring 58 is further arranged between the outer support block 57 and the outer shifting support 54.

In the embodiment, the wire feeding port of the spool 16 is provided with the unfolding auxiliary piece 51, the outer dialing support 54 is inserted between the output cable and the spool body of the spool 16, so that the initial straightening treatment is carried out on the cable at the wire feeding port, one side of the cable is abutted against the air bag 55 to be tangentially attached to the outer surface of the spool 16, and the other side of the cable is abutted against the cable through the smooth roll shaft 56; therefore, the cable can be outwards stretched into a straight line in a bending manner, and damage to the cable is avoided.

The outer side of the outer dialing support 54 is also provided with an outer supporting spring 58 for providing supporting force for the outer dialing support 54, and the supporting force of the outer supporting spring 58 is elastic supporting force and is changed adaptively; the supporting effect is ensured, and meanwhile, the excessive outward stretching of the outward shifting support 54 is avoided, so that the quality of the cable is influenced.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The power cable track transportation frame comprises a transportation base station, wherein a spool disc, a positioning sleeve, a middle position supporting carrier, a correction component and a wire conveying supporting carrier are sequentially arranged on the transportation base station; it is characterized in that the method comprises the steps of,

the middle position supporting carrier is erected on the transportation base station through the second bearing frame and is arranged between the positioning sleeve and the correction component;

the positioning sleeve is of a frame type structure, the outer frames of the positioning sleeve are provided with supporting frame plates, the supporting frame plates are installed through positioning angle frames, the included angles of the adjacent positioning angle frames are provided with inner supporting frames, the inner supporting frames are distributed at equal angles in the axial position of the positioning sleeve, and clamping cushion blocks are installed on the inner surfaces of the inner supporting frames;

the support frame plates are provided with inner support blocks at the positioning angle frames, middle position support springs are arranged between the inner support blocks and the corresponding inner support frames, two ends of each inner support frame are respectively erected between the adjacent support frame plates, two ends of each inner support frame are respectively provided with a loading joint, the loading joints are provided with branch fixing rods, and the branch fixing rods are connected with the plate bodies of the support frame plates through elastic connecting pieces;

the elastic connecting piece comprises a positioning sleeve arranged at the end of the branch fixing rod and a torsion spring arranged on the outer sleeve surface of the positioning sleeve, the plate body of the support frame plate is provided with a butt joint bulge, the butt joint bulge and the positioning sleeve are assembled and arranged with each other, and two ends of the torsion spring are respectively arranged on the corresponding branch fixing rod and the support frame plate;

the correcting component comprises a correcting frame and guide rollers arranged in the inner cavity of the correcting frame, wherein the guide rollers are respectively arranged at two sides of the inner cavity of the correcting frame and are in opposite mirror image arrangement, each guide roller comprises positioning frame plates arranged at two ends of the guide roller and supporting rollers arranged between the positioning frame plates at two ends, the supporting rollers are arranged on the positioning frame plates through inserting sleeves at equal angles, and the outer surfaces of the supporting rollers are wrapped with elastic sleeve surfaces;

the guide roller is characterized in that outer edge frames are arranged on two sides of the guide roller, the outer edge frames are arranged in an embedded mode through connecting grooves and positioning frame plates, the outer edge frames and the positioning frame plates can rotate relatively, sliding blocks are arranged on the outer edge frames, displacement tracks are arranged on two side edges of the correction frame, and the sliding blocks slide along the displacement tracks.

2. The power cable track transportation frame according to claim 1, wherein a bottom edge of the correction frame is provided with a driving screw, and an adjusting block is mounted on the bottom of the outer edge frame and is mounted on the driving screw.

3. The power cable track transportation frame according to claim 1, wherein the wire conveying end of the spool disc is provided with an unfolding auxiliary piece, the unfolding auxiliary piece is provided with a supporting head, the position, facing the wire conveying opening of the spool disc, of the supporting head is provided with an outer poking bracket, one side, facing the spool disc, of the outer poking bracket is provided with an abutting air bag, the abutting air bag is in tangential fit with the outer surface of the spool disc, and the outer end of the outer poking bracket is in contact with the surface of the cable through a smooth roll shaft and abuts against the cable.

4. A power cable track transportation frame according to claim 3, wherein the outer deflector bracket is mounted by a movable shaft, an outer support block is further provided on the housing of the deployment aid, and an outer support spring is further provided between the outer support block and the outer deflector bracket.