CN113889899B - Wire replacing system for wire frame and construction method using same - Google Patents

Abstract

The utility model relates to a wire frame system of changing traditional thread binding putting in another place, including electric wire frame and elevating gear, the electric wire frame is including a body and support, the frame body is installed subaerial, the support is kept away from a body one end and is installed the insulator, the insulator is kept away from support one end and has been set firmly the mount table, the mount table back of the body has set firmly the mounting panel from insulator one side, the mounting panel has two to install respectively at mount table length direction both ends, the mounting groove has been seted up on the mounting panel, the mounting groove runs through mounting panel width direction one end, it is provided with the pivot to rotate between two mounting panels, the pivot is placed in the mounting groove, the wire wheel has set firmly in the pivot, elevating gear includes base and elevating platform, the base is placed in ground, the elevating platform is installed on the base and the orientation is close to or keeps away from base direction lift, the backup pad is installed at the length direction both ends of base one side from the back of the body away from the back of the body to the backup pad lifting makes the laminating of the body one side in opposite direction one side in the backup pad. This application has the effect that can improve the construction safety nature.

Description

Wire replacing system for wire frame and construction method using same

Technical Field

The application relates to the field of line erection, in particular to a line changing system of a wire frame and a construction method using the system.

Background

The wire frame is a steel structure frame body and mainly used as an aerial supporting point for supporting and erecting wires.

The existing Chinese utility model patent with publication number CN205777795U discloses a high-tension electric wire rack, which comprises an upper rack, fixing devices, windproof racks, diagonal rods, a base and a lighting device, wherein a lightning arrester is installed on the left side of the upper rack, a connector is installed at the center of the surface of the upper rack, the connector is connected with the fixing devices through a support, a cross rack is installed between the adjacent fixing devices, the windproof racks are arranged on two sides of the fixing devices, binding posts are installed below two sides of the windproof racks, the lighting devices are installed inside the binding posts, the lighting devices are connected with a connector through hanging wires, an insulating hanging wire is installed above the lighting devices, a fixed net rack is installed below the windproof racks, diagonal rods are installed below the fixed net rack, danger signs are installed below the diagonal rods, the base is installed below the diagonal rods, supporting legs are installed on the right side of the base, an aluminum substrate is installed on the left side inside the base, a shock-proof device is installed on the right side of the aluminum substrate, and a ground post is installed on the right side inside the base; when the electric wire damages appear on the wire frame, support the terminal through elevating gear, then climb up the wire frame through the manual work and unscrew the bolt that terminal and wire frame are fixed, dismantle whole terminal, later adopt elevating gear to raise the terminal to the height aloft after subaerial change electric wire, install the terminal in the electric wire by the workman again.

Aiming at the related technologies, the inventor thinks that workers need to climb on a wire rack to perform high-altitude operation in the whole installation process, and potential safety hazards exist.

Disclosure of Invention

In order to improve the construction safety, the application provides a wire replacing system of a wire frame and a construction method using the same.

The application provides a wire frame system of changing wire:

the utility model provides a wire frame system of changing stitches, is including installing in subaerial electric wire frame and elevating gear, the electric wire frame is including a body and support, the frame body is installed in subaerial, the support has a plurality of, and a plurality of support sets firmly respectively at a body width direction both ends, and the support is kept away from a body one end and is installed the insulator, the insulator is kept away from support one end and has set firmly the mount table, the mount table deviates from insulator one side and has set firmly the mounting panel, the mounting panel has two to be installed respectively at mount table length direction both ends, the mounting groove has been seted up on the mounting panel, the mounting groove runs through mounting panel width direction one end, rotates between two mounting panels and is provided with the pivot, and the pivot is placed in the mounting groove, has set firmly a plurality of wire wheels in the pivot, elevating gear includes base and elevating platform, the base is placed on ground, the elevating platform is installed on the base and towards being close to or keeping away from base direction lift, the length direction both ends of base one side are installed at the elevating platform back of the body, and the elevating platform lifting makes the laminating mounting panel of the back of the body one side in opposite direction.

Through adopting above-mentioned technical scheme, shift out the mounting groove with the pivot through backup pad cooperation elevating platform to the wire wheel that will have the electric wire is dismantled from the electric wire frame and is got off, conveniently changes the electric wire, dismantles the leading wheel and gets off and change on ground, can improve the construction security.

Optionally, the mounting groove includes insertion groove and restriction groove, the insertion groove runs through mounting panel width direction one side, the restriction groove is kept away from in the insertion groove and runs through mounting panel one side and set up on the mounting panel, and the restriction groove is perpendicular to the vertical ground setting towards of insertion groove.

By adopting the technical scheme, the probability that the rotating shaft is separated from the mounting groove under the action of external force can be reduced by arranging the limiting groove.

Optionally, the butt groove has been seted up at the restriction groove top, the butt inslot slides and is provided with the butt piece, the butt piece orientation is close to or keeps away from restriction groove tank bottom direction and slides.

Through adopting above-mentioned technical scheme, the pivot can be blockked in the setting of butt joint piece, further reduces the pivot and breaks away from the probability of mounting groove under the exogenic action.

Optionally, the side of the abutting block facing the opening is chamfered.

By adopting the technical scheme, the rotating shaft can be conveniently arranged in the limiting groove by arranging the chamfer.

Optionally, a stop block is rotatably arranged on the side wall of one end, close to the through mounting plate, of the insertion groove, the stop block is stopped in the insertion groove, and the stop block leaves the insertion groove through rotation.

Through adopting above-mentioned technical scheme, the setting of baffle can further restrict the breaking away from of pivot, further reduces the probability that the pivot breaks away from the mounting groove under the exogenic action.

Optionally, a push block is fixedly arranged at one end of the stop block, the push block penetrates through the opposite end of the mounting plate, and a torsion spring is arranged between the stop block and the mounting plate.

Through adopting above-mentioned technical scheme, the setting of ejector pad can cooperate backup pad drive baffle to rotate and leave the insertion groove, conveniently opens the insertion groove through the cooperation backup pad.

Optionally, the lifting device further comprises a fork frame and a driving piece, two ends of the fork frame are respectively rotatably arranged on the base and the lifting platform, the driving piece is installed between the base and the lifting platform, and the driving piece drives the lifting platform to slide towards the direction close to or far away from the base.

Through adopting above-mentioned technical scheme, realize the stable lifting of elevating platform on the base through scissors fork frame cooperation driving piece.

Optionally, a rodless cylinder is installed on one side, away from the base, of the lifting platform, the rodless cylinder is arranged along the length direction of the lifting platform, a supporting platform is arranged on the rodless cylinder in a sliding mode, and the supporting plate is fixedly arranged on the supporting platform.

Through adopting above-mentioned technical scheme, the setting of rodless cylinder can make things convenient for the drive backup pad to drive the pivot and break away from the mounting groove.

A construction method for changing lines comprises the following steps:

step 1: cutting off the power supply of the wire when the power is cut off;

and 2, step: loosening the electric wire, and loosening the electric wire on the electric wire frame;

and step 3: taking down the electric wire, and taking down the rotating shaft, the wire guide wheel and the fault electric wire from the mounting groove by adopting a lifting device;

and 4, step 4: replacing the wire, namely replacing the fault wire on the ground;

and 5: installing the electric wire, and installing the replaced electric wire, the rotating shaft and the wire guide wheel in the installation groove through the lifting device;

and 6: tensioning the electric wire, and tensioning the electric wire on the electric wire frame;

and 7: and electrifying to switch on the power supply of the wire.

By adopting the technical scheme, the wire guide wheel with the wires is taken down from the wire frame through the lifting device, the fault wires are replaced on the ground, and the replaced wires are communicated with the wire guide wheel through the lifting device and are installed back to the wire frame, so that aerial operation is reduced, and safety is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

the supporting plate is matched with the lifting platform to move the rotating shaft out of the mounting groove, so that the wire guide wheel with the wires is detached from the wire frame, the wires are convenient to replace, the guide wheel is detached to replace on the ground, and the construction safety can be improved;

the limiting groove is formed, so that the probability that the rotating shaft is separated from the mounting groove under the action of external force can be reduced;

the arrangement of the abutting block can block the rotating shaft, and the probability that the rotating shaft is separated from the mounting groove under the action of external force is further reduced;

the setting of baffle can further restrict the breaking away from of pivot, further reduces the probability that the pivot breaks away from the mounting groove under the exogenic action.

Drawings

Fig. 1 is a schematic view of the overall structure of the present embodiment.

Fig. 2 is a schematic view of the structure at the installation stage of the present embodiment.

Fig. 3 is a schematic structural diagram of the lifting device of the embodiment.

Fig. 4 is a flow chart of the construction method of the embodiment.

Description of reference numerals: 1. a wire rack; 101. a rack body; 102. a support; 2. a lifting device; 21. a base; 22. a lifting platform; 23. a fork shearing frame; 24. a drive member; 3. an insulator; 4. an installation table; 5. mounting a plate; 6. mounting grooves; 61. inserting the groove; 62. a limiting groove; 7. a rotating shaft; 8. a wire guide wheel; 9. a support plate; 10. a butt joint groove; 11. a butting block; 12. chamfering; 13. a stopper; 14. a push block; 15. a torsion spring; 16. a rodless cylinder; 17. and (7) supporting the table.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a wire frame changing system, referring to fig. 1 and fig. 2, comprising a wire frame 1 and a lifting device 2 which are arranged on the ground, wherein the wire frame comprises a frame body 101 which is arranged on the ground and a plurality of brackets 102 which are fixedly arranged at the two ends of the frame body 101 in the width direction respectively, one end of each bracket 102 far away from the frame body 101 is provided with an insulator 3, the insulator 3 can reduce the probability of current on a circuit being transmitted to the frame body, one end of each insulator 3 far away from the bracket 102 is fixedly provided with an installation platform 4, one side of the installation platform 4, which is far away from the insulator 3, is fixedly provided with an installation plate 5, the installation plate 5 is provided with two blocks which are respectively arranged at the two ends of the installation platform 4 in the length direction, the installation plate 5 is provided with an installation groove 6, and the installation groove 6 penetrates through one end of the installation plate 5 in the width direction, rotate between two mounting panels 5 and be provided with pivot 7, pivot 7 is placed in mounting groove 6, a plurality of wire wheels 8 have set firmly in pivot 7, elevating gear 2 is including placing in the base 21 on ground with install on base 21 and the orientation is close to or keep away from the elevating platform 22 that the base 21 direction goes up and down, the backup pad 9 is installed at the length direction both ends that elevating platform 22 deviates from base 21 one side, set up in the backup pad 9 and accomodate the groove, elevating platform 22 lifting makes backup pad 9 laminating mounting panel 5 one side in opposite directions in the back of the body one side of mutually, shift out mounting groove 6 with pivot 7 through supporting plate cooperation elevating platform 22, thereby the wire wheel 8 that will have the electric wire is dismantled from electric wire frame 1, conveniently change the electric wire, dismantle the leading wheel and change on ground, can improve construction safety.

Referring to fig. 1 and 2, the mounting groove 6 includes an insertion groove 61 penetrating one side of the mounting plate 5 in the width direction and a restriction groove 62 formed on the mounting plate 5 at a side of the insertion groove 61 away from the penetrating mounting plate 5, the restriction groove 62 is vertically disposed toward the ground perpendicular to the insertion groove 61, the insertion groove 61 is used for the rotation shaft 7 to enter or leave the mounting groove 6, the restriction groove 62 is formed to restrict the rotation shaft 7 from being disengaged after the rotation shaft 7 enters through the insertion groove 61, and is formed on the mounting plate 5 at a side of the insertion groove 61 away from the penetrating mounting plate 5; the top of the limiting groove 62 is provided with a butting groove 10, a butting block 11 is arranged in the butting groove 10 in a sliding manner, the butting block 11 slides towards the direction close to or away from the bottom of the limiting groove 62, the butting block 11 slides towards the direction close to the bottom of the limiting groove 62 through gravity in a normal state, an anti-falling block is fixedly arranged at one end, inserted into the butting groove 10, of the butting block 11, the anti-falling block can prevent the butting block 11 from being separated from the butting groove 10, the butting block 11 can block the rotating shaft 7, and the probability that the rotating shaft 7 is separated from the mounting groove 6 under the action of external force is further reduced; one side of the abutting block 11 facing the opening is provided with a chamfer 12, and the chamfer 12 can facilitate the installation of the rotating shaft 7 into the limiting groove 62.

Referring to fig. 1 and 2, a stop block 13 is rotatably disposed on a side wall of the insertion groove 61 near one end penetrating through the mounting plate 5, the stop block 13 is stopped in the insertion groove 61, the stop block 13 is separated from the insertion groove 61 by rotation, the insertion groove 61 is opened after the stop block 13 is separated from the insertion groove 61, the rotating shaft 7 can enter the mounting groove 6 or leave the mounting groove 6 from the insertion groove 61, the stop block is disposed to further limit the separation of the rotating shaft 7, and further reduce the probability that the rotating shaft 7 is separated from the mounting groove 6 under the action of external force; dog 13 one end sets firmly ejector pad 14, ejector pad 14 runs through mounting panel 5 one end in opposite directions, and when backup pad 9 was dismantled or installation pivot 7, backup pad 9 promoted ejector pad 14, made dog 13 rotate and break away from insertion groove 61, and pivot 7 can be more convenient installation and dismantlement this moment, is provided with torsional spring 15 between dog 13 and the mounting panel 5, and setting up of torsional spring 15 can make dog 13 reset after backup pad 9 breaks away from mounting panel 5 to guarantee the effect of blockking of dog 13.

Referring to fig. 1 and 3, the lifting device 2 further includes a fork shearing frame 23 with two ends respectively rotatably disposed on the base 21 and the lifting platform 22, and a driving member 24 installed between the base 21 and the lifting platform 22, the fork shearing frame 23 is used for supporting and guiding the lifting platform 22, the driving member 24 is an air cylinder, the driving member 24 drives the lifting platform 22 to slide towards or away from the base 21, and the fork shearing frame 23 cooperates with the driving member 24 to enable the lifting platform 22 to be stably lifted; lift platform 22 deviates from base 21 one side and installs rodless cylinder 16, and rodless cylinder 16 sets up along lift platform 22 length direction, and rodless cylinder 16 slides on the sliding is provided with brace table 17, and backup pad 9 sets firmly on brace table 17, and rodless cylinder 16 drives brace table 17 and slides along lift platform 22 length direction to make things convenient for pivot 7 to take out also make things convenient for pivot 7 to install to the mounting groove 6 in from mounting groove 6.

A construction method for changing lines, referring to FIG. 4, includes the following steps: step 1: the power is cut off, and the power supply of the electric wire is cut off, so that the probability of safety accidents such as electric shock and the like during subsequent construction is reduced; step 2: the electric wire is loosened, so that the electric wire on the electric wire frame 1 is loosened, and the subsequent electric wire is convenient to take down; and step 3: taking off the electric wire, and taking off the rotating shaft 7, the wire guide wheel 8 and the fault electric wire from the mounting groove 6 by adopting the lifting device 2; and 4, step 4: replacing the wire, and replacing the fault wire on the ground; and 5: installing wires, namely installing the replaced wires, the rotating shaft 7 and the wire guide wheel 8 in the wire installation groove 6 through the lifting device 2; and 6: tensioning the electric wire, namely tensioning the electric wire on the electric wire frame 1 to enable the electric wire to be normally used; and 7: electrifying, switching on a power supply of the electric wire, and finishing the wire replacement of the electric wire; the wire guide wheel 8 with the wires is taken down from the wire frame 1 through the lifting device 2, the fault wires are replaced on the ground, and the replaced wires are communicated with the wire guide wheel 8 and are installed back to the wire frame 1 through the lifting device 2, so that aerial operation is reduced, and safety is improved.

The implementation principle of the embodiment of the application is as follows: when the electric wire on the electric wire frame 1 has a fault, the electric wire is first powered off, the fault electric wire is loosened, the lifting device 2 is then placed below the electric wire to be replaced, the driving piece 24 is started to lift the lifting table 22, the supporting plate 9 moves towards the direction close to the rotating shaft 7 until the rotating shaft 7 is placed in the accommodating groove on the supporting plate 9, the supporting plate 9 pushes the push block 14 to enable the stop block 13 to rotate away from the insertion groove 61, the supporting plate 9 is then lifted to drive the rotating shaft 7 to disengage from the limiting groove 62, the rodless cylinder 16 is then started to drive the supporting plate 9 to enable the rotating shaft 7 to disengage from the insertion groove 61, then the lifting table 22 is lowered to the ground, the electric wire with the fault is replaced on the ground, the lifting table 22 lifts the rotating shaft 7 to the opening of the insertion groove 61 after the replacement is completed, the supporting block is abutted to the push block 14 to enable the push block 14 to drive the stop block 13 to rotate, the stop block 13 disengages from the insertion groove 61, the rodless cylinder 16 drives the supporting plate 9 to enable the rotating shaft 7 to enter the insertion groove 61, the rotating shaft 7 to abut against the chamfer 12 of the abutting block 11, the abutting block 11 to enable the rotating shaft 7 to enter the limiting groove 62, the rotating shaft 7 to drive the insertion groove 61, the lifting table 22 to enable the rotating shaft to disengage from the insertion groove to be lifted to be abutted to be detached from the electric wire, the electric wire to be tensioned, the electric wire 5, the electric wire to be tensioned, and the electric wire is reset, and the electric wire 15, and the electric wire is reset of the electric wire is reset plate 15, and the electric wire is completed.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a wire frame system of relining, includes wire frame (1) and elevating gear (2) of installing on ground, its characterized in that: the wire rack (1) comprises a rack body (101) and supports (102), the rack body (101) is installed on the ground, the supports (102) are provided with a plurality of supports (102) which are respectively fixedly arranged at two ends of the width direction of the rack body (101), one ends of the supports (102) far away from the rack body (101) are provided with insulators (3), one ends of the insulators (3) far away from the supports (102) are fixedly provided with mounting tables (4), one sides of the mounting tables (4) far away from the insulators (3) are fixedly provided with mounting plates (5), two mounting plates (5) are respectively installed at two ends of the length direction of the mounting tables (4), mounting grooves (6) are formed in the mounting plates (5), the mounting grooves (6) penetrate through one ends of the width direction of the mounting plates (5), rotating shafts (7) are rotatably arranged between the two mounting plates (5), the rotating shafts (7) are arranged in the mounting grooves (6), a plurality of lead wheels (8) are fixedly arranged on the rotating shafts (7), the lifting device (2) comprises a base (21) and a lifting table (22), the base (21) is arranged on one side of the lifting table (22) far away from the lifting table (21) or close to one sides of the lifting table (21) and the lifting table (9), the lifting platform (22) is lifted to enable the back side of the supporting plate (9) to be attached to the opposite side of the mounting plate (5).

2. A wire racking system according to claim 1, wherein: mounting groove (6) are including insertion groove (61) and restriction groove (62), insertion groove (61) run through mounting panel (5) width direction one side, restriction groove (62) are kept away from in insertion groove (61) and are run through mounting panel (5) one side and set up on mounting panel (5), and restriction groove (62) perpendicular to insertion groove (61) are vertical to be set up towards ground.

3. A wire racking system according to claim 2, wherein: the butt groove (10) have been seted up at restriction groove (62) top, the sliding is provided with butt piece (11) in butt groove (10), butt piece (11) towards being close to or keeping away from restriction groove (62) tank bottom direction and slide.

4. A wire racking system according to claim 3, wherein: the side, facing the opening of the insertion groove (61), of the abutting block (11) is provided with a chamfer (12).

5. A wire racking system as defined in claim 4, wherein: the insertion groove (61) is provided with a stop block (13) in a rotating mode close to one end side wall penetrating through the installation plate (5), the stop block (13) stops in the insertion groove (61), and the stop block (13) leaves the insertion groove (61) through rotating.

6. An electrical rack change system as defined in claim 5, wherein: dog (13) one end sets firmly ejector pad (14), ejector pad (14) run through mounting panel (5) one end in opposite directions, be provided with torsional spring (15) between dog (13) and mounting panel (5).

7. A wire racking system as defined in claim 6, wherein: the lifting device (2) further comprises a fork shearing frame (23) and a driving piece (24), two ends of the fork shearing frame (23) are respectively and rotatably arranged on the base (21) and the lifting platform (22), the driving piece (24) is installed between the base (21) and the lifting platform (22), and the driving piece (24) drives the lifting platform (22) to slide towards the direction close to or far away from the base (21).

8. A wire racking system as defined in claim 7, wherein: lift platform (22) deviate from base (21) one side and install rodless cylinder (16), rodless cylinder (16) set up along lift platform (22) length direction, and rodless cylinder (16) slide on is provided with brace table (17), backup pad (9) set firmly on brace table (17).

9. A construction method for changing a wire, using the wire changing system of claim 8, comprising the steps of:

step 1: cutting off the power supply of the wire when the power is cut off;

step 2: loosening the electric wire, namely loosening the electric wire on the electric wire frame (1);

and step 3: taking off the electric wire, and taking the rotating shaft (7), the wire guide wheel (8) and the fault electric wire down from the mounting groove (6) by adopting the lifting device (2);

and 4, step 4: replacing the wire, and replacing the fault wire;

and 5: installing wires, namely installing the replaced wires together with the rotating shaft (7) and the wire guide wheel (8) back into the installation groove (6) through the lifting device (2);

step 6: tensioning the electric wire, namely tensioning the electric wire on the electric wire frame (1);

and 7: and electrifying to switch on the power supply of the wire.

Images