CN117175437A - Cable laying equipment for power construction - Google Patents

Abstract

The invention discloses cable laying equipment for power construction, which comprises a frame and a wire pressing roller, wherein the wire pressing roller is used for pressing a cable through rotation on the ground, two ends of the wire pressing roller are rotationally connected with the frame, a placement component is fixedly connected to the outer surface of the frame, an auxiliary component is fixedly connected to the inner surface of the frame, a protection component is fixedly connected to the bottom of the auxiliary component, a wire guiding roller is rotationally connected to one side, far away from the wire pressing roller, of the frame, a guiding component is rotationally connected to one side, close to the wire pressing roller, of the frame, and a cable drum is rotationally connected to the bottom of an inner cavity of the frame. This cable laying equipment of electric power construction, cable reel rotate along with the placing of cable, and the cable of being convenient for is placed at the uniform velocity, prevents that the cable from placing the too fast cable contact ground that leads to the part not to place from taking place the friction, and the cable is placed the back line ball roller and is pressed it and be handled and can protect the cable.

Description

Cable laying equipment for power construction

Technical Field

The invention relates to the technical field of power construction, in particular to a cable laying device for power construction.

Background

Along with the continuous increase of power demand, the speed of electric power construction is also being constantly accelerated, the cable is used as the common electric power transmission in electric power, the cable is used as the important link in the electric power construction process, the cable can be divided into power cable according to the application, communication cable and control cable, and the like, compared with overhead wires, the cable has the advantages of small insulation distance between wires, small occupied space, cable laying means the process of laying along the route of investigation, installing the cable so as to form a cable line, according to the application, the cable can be divided into overhead, underground, water bottom, wall, tunnel and the like, but the cable laying process is easy to displace along with the movement of equipment, thereby the cable laying position changes, the cable needs to be readjusted after being laid, the placing groove needs to be dug first and then to be placed when the equipment lays the cable, the time of the cable laying is prolonged, the placing groove is easy to be influenced by the outside, thereby damage the cable is caused after the placing, the cable service life is shortened, the cable is easy to shift when the use is moved, the cable is caused to be in place, the cable is easy to be damaged, the friction is caused in the process of the cable is easy to be damaged, the cable is caused, the surface is easy to be damaged, and the friction is caused, the surface is easy to be in the process.

To sum up, the cable laying in-process is easy to displace along with the movement of equipment to lead to the cable laying position to appear changing, make the cable laying back need adjust again, need dig out the standing groove earlier and place again when equipment lays the cable, prolonged cable laying's time, the standing groove digs out the back and receives external influence easily, shortened the life of cable.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the technical problems by adopting the following technical scheme: the invention relates to a cable laying device for power construction, which comprises a frame,

the cable laying device comprises a cable pressing roller, wherein the cable pressing roller is used for extruding cables through rotation of the ground, two ends of the cable pressing roller are rotationally connected with a frame, a placement component is fixedly connected to the outer surface of the frame, an auxiliary component is fixedly connected to the inner surface of the frame, a protection component is fixedly connected to the bottom of the auxiliary component, a wire roller is rotationally connected to one side of the frame, which is far away from the cable pressing roller, a guide component is rotationally connected to one side of the frame, which is close to the cable pressing roller, a cable drum is rotationally connected to the bottom of an inner cavity of the frame, the cable pressing roller is contacted with the wire roller when the frame moves to a position to be laid, the wire roller presses the ground out of a wire placing groove when the frame moves, the cable is placed in the wire placing groove through the guide component, the cable is extruded through rotation of the cable pressing roller along with the frame, the placement component rotates along with the placement of the cable, and the placement component is provided with two placement components on the frame, so that the placement component can clamp the wall, and the cable can move along a straight line under the influence of the clamping of the placement component when the frame moves;

the guiding assembly comprises a limiting block, the limiting block is rotated on the frame by elastic force, the bottom fixedly connected with telescopic link of limiting block, the bottom fixedly connected with antiskid plate of telescopic link, the surface fixedly connected with anticreep board of antiskid plate, the surface rotation of telescopic link is connected with the fly leaf, the bottom fixedly connected with pressing plate of fly leaf receives thrust to rotate on the frame through the limiting block, makes the limiting block drive the telescopic link rotate the inclination who adjusts the antiskid plate, and the anticreep board on the antiskid plate carries out the placing of cable, and the fly leaf receives thrust to drive pressing plate on the telescopic link to remove for pressing plate adjusts the angle of pressing the cable, and the telescopic link is flexible to adjust the position of antiskid plate, makes antiskid plate motion to be close to ground, has set up a plurality of anticreep boards on the antiskid plate, thereby adjusts the position of placing as required when placing the cable.

Preferably, the inner surface of the frame is slidably connected with the movable plate, and two ends of the limiting block penetrate through the frame.

Preferably, the top of the auxiliary assembly extends to the outside of the frame, and the outer surface of the protection assembly is fixedly connected with the frame.

Preferably, the placing component comprises a plugging rod, the outer surface fixedly connected with of plugging rod places the board, the internal surface sliding connection who places the board has the dog, the bottom inner chamber top fixedly connected with elastic plate of dog, place one side fixedly connected with steady block that the board is close to the dog, the top fixedly connected with steady block receives the extrusion when contacting the object through the elastic plate on the dog and is close to the dog, and the steady plate mutually supports with the elastic plate on the steady block simultaneously for have the space between frame and the wall, the board is placed in the both ends run through of plugging rod, and it is fixed to place the board to insert the frame through the plugging rod, and the dog receives the thrust and slides on placing the board for the dog carries out the centre gripping of object on the wall with the cooperation of steady block.

Preferably, the auxiliary assembly comprises an inner connecting plate, an assembly barrel is fixedly connected to the top of the inner connecting plate, an auxiliary cover is fixedly connected to the top of the assembly barrel, a supporting rod is fixedly connected to the bottom of the auxiliary cover, an auxiliary ring is fixedly connected to the bottom of the supporting rod, the supporting rod is uniformly distributed on the auxiliary ring, the supporting rod supports the auxiliary cover, the auxiliary cover is matched with the inner connecting plate to separate the inner space of the frame, the supporting rod is matched with the assembly barrel to keep the distance between the auxiliary cover and the inner connecting plate, the auxiliary cover is kept level to place objects, the bottom of the auxiliary ring is fixedly connected with the inner connecting plate, a clamping ring is fixedly connected to the inner connecting plate when the inner connecting plate contacts the frame, and the clamping ring is supported by the frame after the inner connecting plate is installed.

Preferably, the top end of the supporting rod penetrates through the auxiliary cover and extends to the inside of the auxiliary cover, and the bottom end of the assembly cylinder penetrates through the inner connecting plate and extends to the inside of the inner connecting plate.

Preferably, the assembly tube comprises an assembly sleeve, the inner chamber bottom fixedly connected with stiffener of assembly sleeve, the external surface fixedly connected with overlap joint ring frame of stiffener, together contact auxiliary lid through assembly sleeve and stiffener, and evenly distributed's overlap joint ring frame contact assembly sleeve on the stiffener, the activity space between two overlap joint ring frames is convenient for fixed when installing for assembly sleeve carries out even support to auxiliary lid, assembly sleeve's internal surface sliding connection has the lifter, one side that the lifter kept away from the assembly sleeve rotates and is connected with the regulation pole, the one end fixedly connected with side joint piece that the lifter kept away from the lifter receives the thrust through the lifter and carries out the slip of vertical direction on assembly sleeve, makes the lifter drive the regulation pole and moves, and adjusts the contact position of side joint piece when rotatory on the lifter.

Preferably, one side of the lifting block, which is close to the adjusting rod, extends to the outside of the assembly sleeve, and the outer surface of the lap joint ring frame is fixedly connected with the assembly sleeve.

Preferably, the protection subassembly includes the protection seat, the top fixedly connected with protection post of protection seat, the inner chamber top fixedly connected with extension ring of protection post through the extension ring at the inside contact internal connection board of protection post, makes joint ring extension ring cooperation fix the protection post, and the protection post is fixed from inside and outside centre gripping, and the protection seat is bilayer structure, can utilize the scope of winding cable on the protection seat restriction cable tray, the surface fixedly connected with booster rod of protection post, the one end fixedly connected with pressure block of protection post is kept away from to the booster rod, the bottom and the protection seat sliding connection of pressure block have set up three on the protection post through the booster rod for the booster rod promotes the pressure block when stretching out and drawing back and moving, carries out the top tightly when the pressure block contacts the frame, and the flexible length of booster rod is adjusted the dynamics that the pressure block was pushed up, makes pressure block and inscription board cooperation consolidate the different positions of frame, the bottom fixedly connected with installation box of protection seat.

Preferably, the bottom end of the protection column penetrates through the protection seat and extends to the inside of the protection seat, and the top of the mounting box penetrates through the protection seat and extends to the inside of the protection seat.

Preferably, the mounting box comprises a mounting frame, the inner chamber top fixedly connected with of mounting frame is interior strut, the bottom sliding connection of interior strut has the mount pad, the bottom sliding connection of mount pad has a tight piece in top, the bottom fixedly connected with sliding closure of tight piece in top can slide on the mounting frame through the sliding closure, and tight piece in top cooperates with the mount pad on the sliding closure, makes tight piece in top place the cable to the mount pad and extrudees, and tight piece in top has the reset lever with the mount pad, makes it move according to the volume of cable, the internal surface and the mount frame sliding connection of sliding closure, the internal surface and the mount pad fixed connection of mount pad, the position fixedly connected with mounting panel of interior strut is kept away from to the mount pad, extrudes the mount pad on the mount frame through interior strut, makes the slide of mount pad carry out the horizontal direction on the interior strut, and the mounting panel that the mount pad has can contact the sliding closure for the mounting panel limits the activity space between mount pad and the sliding closure.

The invention provides a cable laying device for power construction. The beneficial effects are as follows:

1. this cable laying equipment of electric power construction has set up frame, wire roller, move to waiting to lay the position through the frame and press wire roller and wire roller contact ground, ensure that the cable fully puts into put the wire casing in, take place the condition of skew when having avoided the cable to place, and then improved the precision that the cable was placed, the cable drum rotates along with the placing of cable, the cable is convenient for place at the uniform velocity, prevent that the cable from placing the too fast cable contact ground that leads to the part not to place and take place the friction, the cable is placed the back wire roller and is pressed it and can protect the cable, and then ensure the integrality when the cable is placed.

2. This cable laying equipment of electric power construction receives thrust to rotate on the frame through the restriction piece, makes the restriction piece drive telescopic link and rotates the inclination who adjusts antiskid ribbed tile, is convenient for adjust cable laying's height, avoids the cable to appear not hard up influence subsequent use on the cable drum, and telescopic link is flexible can adjust the position of antiskid ribbed tile, has avoided the cable to lead to placing out of place from the too big ground distance, has set up a plurality of anticreep boards on the antiskid ribbed tile to the position of placing is adjusted as required when placing the cable.

3. This cable laying equipment of electric power construction inserts the frame through the peg graft and fixes placing the board for the dog carries out the centre gripping of object on the wall with firm piece cooperation, carries out linear motion along the wall when being convenient for the frame motion, takes place the skew when having avoided the frame to remove and influences the precision that the cable was placed, and the stabilizer plate mutually supports with the elastic plate on firm piece simultaneously, and the stabilizer plate of being convenient for carries out the placing of object, makes the dog and firm piece cooperation increase contact surface, avoids frame direct contact wall to take place the friction.

4. This cable laying equipment of electric power construction is through evenly distributed bracing piece on the auxiliary ring for the bracing piece supports the auxiliary cover, and the arc structure of being convenient for on the auxiliary cover carries out user's snatch, plays the effect of sheltering from after making the inscription board installation, and then has reduced the dust that the frame got into, and the bracing piece can keep the distance between auxiliary cover and the inscription board with the cooperation of assembly section of thick bamboo, and then carries out make full use of to the space of frame inside.

5. This cable laying equipment of electric power construction supports when contacting the frame through interior fishplate bar, makes the joint ring fix protection component, and the auxiliary ring of being convenient for connects the dust that drops to bracing piece position to carry out the clearance of dust after equipment uses, and receive the support of frame after the interior fishplate bar installation, make interior fishplate bar be difficult for taking place the gliding condition on the frame, ensure that the inside space of frame is difficult for taking place to change and influence the cable and place.

6. This cable laying equipment of electric power construction is through assembly sleeve and reinforcing rod together contact auxiliary cover, makes its increase contact position's stability, and the overlap joint link of being convenient for consolidates assembly sleeve to increased assembly sleeve self intensity, prevented that assembly sleeve from taking place deformation and influencing the use, the activity space between two overlap joint links is convenient for be fixed when installing, makes assembly sleeve evenly support auxiliary cover.

7. This cable laying equipment of electric power construction receives thrust through the lifter and carries out the slip of vertical direction on the assembly sleeve for the flank piece can contact frame and auxiliary ring, carries out the top tightly when being convenient for flank piece contact frame, has further increased the holding power when the inscription board is installed, and protects the frame, receives the collision when preventing that the frame from removing and leads to damaging, guarantees the completion when the frame uses.

8. This cable laying equipment of electric power construction is through extending the ring and contacting the internal connection board in the guard post to guaranteed that the guard seat carries out unsettled installation in the frame is inside, make the removal of frame be difficult for causing the influence to the guard seat, and the guard post is fixed from inside and outside carrying out the centre gripping, the guard seat is bilayer structure, make the guard seat shelter from the cable drum, can utilize the guard seat to restrict the scope of winding cable on the cable drum, avoided the cable winding too much to lead to the contact ground to produce the friction when removing.

9. This cable laying equipment of electric power construction has set up three on the guard post through the boost rod, pushes up tightly when following the pressure-bearing piece contact frame, and the pressure-bearing piece of being convenient for consolidates the protection seat with the boost rod cooperation, can play the circumstances of prevention gliding to the protection seat, and the telescopic length of boost rod is adjusted the dynamics that the pressure-bearing piece pushed up to increase the inside area of contact of frame, kept the stability of frame internals mounted position.

10. This cable laying equipment of electric power construction can slide on the installing frame through the sliding closure, is convenient for the sliding closure shelter from installing frame inner space, and the tight piece in top has the reset lever with the mount pad to avoided the sliding closure because of the too big condition that can't install of cable volume, and be difficult for pressing the cable bad when extrudeing the cable, the cable of being convenient for place twines along with the rolling of cable drum, and the mounting panel that the installing frame had can contact the sliding closure, area of contact when being convenient for increase sliding closure contact installing frame.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the present invention from another view;

FIG. 3 is a schematic view of the guide assembly of the present invention;

FIG. 4 is a schematic structural view of the anti-drop plate of the present invention;

FIG. 5 is a schematic view of the placement module of the present invention;

FIG. 6 is a schematic view of another view of the placement module of the present invention;

FIG. 7 is an enlarged view of the spring plate of the present invention;

FIG. 8 is a schematic view of the auxiliary assembly of the present invention;

FIG. 9 is a schematic view of an auxiliary assembly according to another embodiment of the present invention;

FIG. 10 is a schematic view of the structure of the fitting cartridge of the present invention;

FIG. 11 is a schematic view of the structure of the reinforcing bar of the present invention;

FIG. 12 is a schematic view of the structure of the protective assembly of the present invention;

FIG. 13 is a schematic view of a protective assembly according to another embodiment of the present invention;

FIG. 14 is a schematic view of the structure of an extension ring of the present invention;

fig. 15 is a schematic structural view of the mounting box of the present invention.

In the figure: 1. a wire pressing roller; 2. a frame; 3. a guide assembly; 31. a limiting block; 32. pressing the plate; 33. a movable plate; 34. a telescopic rod; 35. an anti-drop plate; 36. a cleat; 4. placing the assembly; 41. placing a plate; 42. inserting a connecting rod; 43. a stop block; 44. a stabilizing block; 45. an elastic plate; 46. a stabilizing plate; 5. an auxiliary component; 51. an inner connecting plate; 52. an auxiliary cover; 53. an auxiliary ring; 54. a support rod; 55. an assembly barrel; 551. a lateral connecting block; 552. an adjusting rod; 553. assembling a sleeve; 554. a reinforcing rod; 555. a lifting block; 556. overlapping the ring frame; 56. a clamping ring; 6. a protective assembly; 61. a protective seat; 62. a pressure block; 63. a push-assisting rod; 64. an extension ring; 65. a protective column; 66. a mounting box; 661. a mounting frame; 662. a sliding cover; 663. an inner bracket; 664. a mounting base; 665. a tightening block; 666. a mounting plate; 7. a cable drum; 8. and a wire guide roller.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

In embodiment 1, referring to fig. 1 to 15, the present invention provides a technical solution: an electric power construction cabling apparatus comprising a frame 2,

the wire pressing roller 1, the wire pressing roller 1 extrudes the cable on the ground, the two ends of the wire pressing roller 1 are rotationally connected with the frame 2, the outer surface of the frame 2 is fixedly connected with the placing component 4, the inner surface of the frame 2 is fixedly connected with the auxiliary component 5, the bottom of the auxiliary component 5 is fixedly connected with the protecting component 6, one side of the frame 2 far away from the wire pressing roller 1 is rotationally connected with the wire guiding roller 8, one side of the frame 2 close to the wire pressing roller 1 is rotationally connected with the guiding component 3, the wire pressing roller 1 contacts with the wire guiding roller 8 when the frame 2 moves to the position to be laid through the frame 2, the wire guiding roller 8 extrudes the ground out of the wire placing groove when moving along with the frame 2, the cable is placed in the wire placing groove through the guiding component 3, the cable is extruded along with the rotation of the frame 2 by the wire pressing roller 1, the sufficient placing of the cable is ensured, the situation that the cable is deviated during placement is avoided, the cable is not easy to move after placement, the accuracy of cable placement is improved, the cable drum 7 rotates along with the placement of the cable, the cable is placed at a uniform speed, the situation that the cable is placed at an excessive speed and partial undeposited cables are in contact with the ground to be rubbed is avoided, the placement components 4 are arranged on the frame 2, the placement components 4 can clamp the wall, the frame 2 moves along a straight line under the influence of the clamping of the placement components 4, the deviation during wire placement is further reduced, the cable is pressed by the wire pressing roller 1 after placement, the cable can be protected, the cable is prevented from being damaged due to the external influence in the wire placing groove, the integrity of the cable during placement is further ensured, and the service life of the cable is further prolonged;

the guide assembly 3, including limiting block 31, this limiting block 31 receives elasticity and rotates on frame 2, limiting block 31's bottom fixedly connected with telescopic link 34, telescopic link 34's bottom fixedly connected with antiskid ribbed tile 36, antiskid ribbed tile 36's surface fixedly connected with anticreep board 35, telescopic link 34's surface rotates and is connected with fly leaf 33, fly leaf 33's bottom fixedly connected with presss from both sides movable plate 32, receive thrust through limiting block 31 on frame 2 and rotate, make limiting block 31 drive telescopic link 34 and rotate the inclination who adjusts antiskid ribbed tile 36, and the antiskid ribbed tile 35 on antiskid ribbed tile 36 carries out the placing of cable, be convenient for adjust cable laying's height, and fly leaf 33 receives thrust on telescopic link 34 and drive pressing plate 32 and remove, make pressing plate 32 adjust the angle of pressing the cable, thereby tension when placing the cable, avoid the cable to appear not hard up influence subsequent use on cable reel 7, contact frame 2 when fly leaf 33 rotates, the position of being convenient for fly leaf 33 and limiting block 31 cooperation, telescopic link 34 flexible can adjust the position of antiskid ribbed tile 36, make the cable place to the cable when being close to the cable has been placed to the cable and has been reduced the cable has been placed to the cable when the cable is placed to the position to the distance when the length of time is reduced, and the cable is placed to the place the cable is further reduced, the cable is placed to the place the position when the cable is not placed to the place, and is reduced.

Wherein the inner surface of the frame 2 is slidably connected to the movable plate 33, and both ends of the restriction block 31 penetrate the frame 2.

Wherein, the top of auxiliary assembly 5 extends to the outside of frame 2, and the surface and the frame 2 fixed connection of protection component 6.

Wherein, place subassembly 4 includes the plug pole 42, the surface fixedly connected with of plug pole 42 places the board 41, the internal surface sliding connection who places the board 41 has dog 43, the bottom inner chamber top fixedly connected with spring plate 45 of dog 43, place one side fixedly connected with firm piece 44 that board 41 is close to dog 43, the top fixedly connected with stabilizer plate 46 of firm piece 44, receive the extrusion when contacting the object through spring plate 45 on the dog 43 and be close to dog 43, be convenient for spring plate 45 protects the position of contact object, take place to drop or lead to the indentation to appear because of the pressure is too big when preventing the object centre gripping, stabilizer plate 46 cooperates each other with spring plate 45 simultaneously, be convenient for stabilizer plate 46 carries out the placing of object, make dog 43 and firm piece 44 cooperation increase contact surface, make have the space between frame 2 and the wall, avoid frame 2 direct contact wall to take place the friction, the both ends of plug pole 42 run through placing board 41, insert frame 2 through plug pole 2 and fix placing board 41, make place board 41 install difficult the emergence not become flexible on frame 2, make place the board 41 and can take place to protect the position on frame 2, take place to drop or lead to the fact the indentation to the fact on the object when preventing that the object centre gripping is too big when carrying out the position on frame 2, the frame 43 carries out the accurate motion with spring plate 43, the accurate motion of carrying out the frame 43 when carrying out the displacement with the frame 2, the influence of the linear motion is avoided when carrying out the frame 43, the displacement to take place along the thrust motion, and the accurate motion of the frame is convenient for the side 43 has taken place.

Wherein the auxiliary assembly 5 comprises an inner connecting plate 51, an assembly barrel 55 is fixedly connected to the top of the inner connecting plate 51, an auxiliary cover 52 is fixedly connected to the top of the assembly barrel 55, a supporting rod 54 is fixedly connected to the bottom of the auxiliary cover 52, an auxiliary ring 53 is fixedly connected to the bottom of the supporting rod 54, the supporting rod 54 is uniformly distributed on the auxiliary ring 53 to support the auxiliary cover 52, an arc structure on the auxiliary cover 52 is convenient for grabbing a user, so that thrust is applied to the frame 2, the auxiliary cover 52 is matched with the inner connecting plate 51 to separate the inner space of the frame 2, the inner connecting plate 51 plays a shielding effect after being installed, dust entering the frame 2 is reduced, the supporting rod 54 is matched with the assembly barrel 55 to keep the distance between the auxiliary cover 52 and the inner connecting plate 51, the auxiliary cover 52 is kept horizontal to place objects, and then carry out make full use of to the inside space of frame 2, the bottom and the inscription board 51 fixed connection of auxiliary ring 53, the bottom fixedly connected with joint ring 56 of inscription board 51 supports when contacting frame 2 through inscription board 51, make joint ring 56 fixed protection subassembly 6, make protection subassembly 6 and the cooperation of inscription board 51 protect the place of cable, auxiliary ring 53 separates on the inscription board 51, the dust that the auxiliary ring 53 of being convenient for drops the bracing piece 54 position is got, thereby carry out the clearance of dust after equipment is used, and the inscription board 51 receives the support of frame 2 after being installed, make the condition of the difficult emergence gliding of inscription board 51 on frame 2, thereby increased the holding power of inscription board 51, ensure that the inside space of frame 2 is difficult for taking place the change and influence cable and place.

Wherein, the top end of the supporting rod 54 penetrates the auxiliary cover 52 and extends to the inside of the auxiliary cover 52, and the bottom end of the assembly tube 55 penetrates the inner connecting plate 51 and extends to the inside of the inner connecting plate 51.

Wherein, assembly section of thick bamboo 55 includes assembly sleeve 553, assembly sleeve 553's inner chamber bottom fixedly connected with reinforcing rod 554, reinforcing rod 554's surface fixedly connected with overlap joint ring frame 556, it contacts auxiliary lid 52 together to make its increase contact position's stability through assembly sleeve 553 and reinforcing rod 554, evenly distributed's overlap joint ring frame 556 contacts assembly sleeve 553 on the reinforcing rod 554, be convenient for overlap joint ring frame 556 consolidate assembly sleeve 553, thereby the intensity of assembly sleeve 553 self has been increased, prevent assembly sleeve 553 to take place deformation influence use, the activity space between two overlap joint ring frames 556 is convenient for install the time fixed, make assembly sleeve 553 evenly support auxiliary lid 52, assembly sleeve 553's internal surface sliding connection has lifter 555, one side that lifter 555 kept away from assembly sleeve 553 rotates and is connected with regulation pole 552, one end fixedly connected with flank 551 that lifter 552 kept away from lifter 555, receive the slip of thrust on assembly sleeve 553 through the lifter 555, make lifter 555 drive regulation pole 552 move, and adjust the contact position of flank 551 when lifter 552 rotates on the lifter 555, make lifter 551 receive contact position when the contact frame 551 and can take place deformation influence when frame 2, when being convenient for contact frame 2 is carried out with auxiliary frame 551, and when further contact frame 2 is protected and frame 2 is damaged when being convenient for contact frame 2, and frame 2 is protected and frame 2 is more is contacted and is guaranteed and is more when being more in contact with the contact frame 2.

Wherein, the lifting block 555 extends to the outside of the assembly sleeve 553 near one side of the adjusting rod 552, and the outer surface of the lap joint ring bracket 556 is fixedly connected with the assembly sleeve 553.

Wherein, the protection subassembly 6 includes the protection seat 61, the top fixedly connected with protection post 65 of protection seat 61, the inner chamber top fixedly connected with extension ring 64 of protection post 65, contact plate 51 in the inside contact of protection post 65 through extension ring 64, make joint ring 56 extension ring 64 cooperation fix protection post 65, thereby guaranteed that protection seat 61 carries out unsettled installation in frame 2 inside, the support of protection post 65 to protection seat 61, the removal of messenger's frame 2 is difficult to influence protection seat 61, and carry out the centre gripping from inside and outside when protection post 65 is fixed, ensure the firm of protection post 65 mounted position, protection seat 61 is bilayer structure, make protection seat 61 shelter from cable drum 7, can utilize protection seat 61 restriction cable drum 7 to twine the scope of cable drum, contact ground produces the friction when having avoided the cable winding too much to lead to removing, the surface fixedly connected with booster 63 of protection post 65, the one end fixedly connected with briquetting 62 of protection post 65, the bottom and the support 61 sliding connection of briquetting 62, the removal of booster 63 has set up three booster 63 on protection post 65, make the reinforcement seat 62 carry out the centre gripping from inside and outside, the support 62 has carried out the firm of holding down with the inside of supporting 62, the expansion joint box 2 has been reached with the inside of supporting 62, the expansion joint box 2, the expansion joint box is carried out the expansion joint with the inside of supporting 62 has been carried out the frame 62, the expansion joint box 2, the contact point is kept up with the inside the supporting 62, the supporting 62 has been reached with the expansion joint of the inside the supporting 62, and has been carried out the compression box 62, and the expansion joint is kept down with the compression box 62, and has been carried out the compression joint is kept down and has been in the compression bar 62.

The bottom end of the protection post 65 penetrates the protection seat 61 and extends into the protection seat 61, and the top of the installation box 66 penetrates the protection seat 61 and extends into the protection seat 61.

The mounting box 66 comprises a mounting frame 661, an inner supporting frame 663 is fixedly connected to the top of an inner cavity of the mounting frame 661, a mounting seat 664 is slidably connected to the bottom of the inner supporting frame 663, a tightening block 665 is slidably connected to the bottom of the mounting seat 664, a sliding cover 662 is fixedly connected to the bottom of the tightening block 665, the sliding cover 662 can slide on the mounting frame 661, the inner surface of the mounting frame 661 is convenient to shield the inner space of the mounting frame 661, the tightening block 665 is matched with the mounting seat 664, the tightening block 665 presses cables placed on the mounting seat 664, the tightening block 665 and the mounting seat 664 are provided with reset rods, the moving of the tightening block 665 and the mounting seat 664 is carried out according to the volume of the cables, the situation that the sliding cover 662 cannot be mounted due to overlarge cable volume is avoided, the cables are not prone to being crushed when the cables are extruded, the cables are wound along with the winding of the cable tray 7, the cables which are convenient to be placed can be added again after the cables of the cable tray 7 are used, the inner surface of the cable tray 662 is slidably connected with the mounting frame 661, the inner surface of the mounting frame 661 is convenient to shield the inner surface of the mounting frame 661, the inner surface of the mounting frame 661 is fixedly connected with the mounting seat 664, the inner surface of the mounting frame 661 is far away from the inner supporting frame 663 is fixedly connected to the inner supporting frame 66, the inner supporting frame 663 is made to be connected to the inner supporting frame 663, the mounting frame is enabled to be placed on the mounting frame 661, the mounting plate is horizontally arranged in a position of the mounting plate 66is easy to be adjusted, and the mounting plate is arranged between the mounting plate and the mounting plate 66is easy to be horizontally contacted with the mounting plate and the mounting frame 663 is arranged.

In embodiment 2, referring to fig. 1 to 15, on the basis of embodiment 1, the present invention provides a technical solution: the application method of the cable laying equipment for power construction comprises the following steps: the equipment is moved to a position to be laid, the wire guide roller 8 on the frame 2 is contacted with the wire pressing roller 1, then the cable passes through the anti-falling plate 35 through the cable drum 7 and is placed on the ground, the limiting block 31 is driven by elastic force to drive the telescopic rod 34 to rotate, the telescopic rod 34 stretches and adjusts the position of the anti-falling plate 36, the anti-falling plate 35 is obliquely placed when rotating along with the anti-falling plate 36, the movable plate 33 rotates on the telescopic rod 34, and the movable plate 33 drives the pressing plate 32 to rotate until the cable is pressed;

step two: the frame 2 is moved on the ground, so that the wire guide roller 8 presses the ground out of the groove, the cable is placed in the groove along with the movement of the frame 2, the wire pressing roller 1 compacts the placed cable along with the movement of the frame 2, so that the cable is placed, the cable drum 7 rotates to place the cable when the frame 2 moves, and the arc-shaped structure of the auxiliary cover 52 can be grasped when the frame 2 moves;

step three: the placing plate 41 is arranged on the frame 2 by the inserting connection rod 42, the stop block 43 on the placing plate 41 is subjected to elastic force to slide, the stop block 43 and the stabilizing block 44 are matched to clamp from the side face of the frame 2 and linearly move towards the clamping position after clamping, the stop block 43 descends to drive the elastic plate 45 to contact an object, and meanwhile the stabilizing plate 46 on the stabilizing block 44 contacts with the object together, so that the frame 2 moves close to a wall when contacting the ground;

step four: the inner connecting plate 51 is arranged in the frame 2, so that the clamping ring 56 on the inner connecting plate 51 contacts the protective column 65, meanwhile, the extending ring 64 in the protective column 65 is matched with the clamping ring 56 to carry out clamping treatment, the auxiliary ring 53 supports the auxiliary cover 52 through the supporting rod 54, the assembling sleeve 553 contacts the auxiliary cover 52 with the reinforcing rod 554, the assembling sleeve 553 is matched with the supporting rod 54, and the lap joint ring bracket 556 on the reinforcing rod 554 contacts the assembling sleeve 553;

step five: the lifting block 555 is used for carrying out lifting movement in the vertical direction on the assembling sleeve 553 by elastic force, the adjusting rod 552 rotates on the lifting block 555 to adjust the position of the side connecting block 551, so that the side connecting block 551 contacts the auxiliary ring 53 along with the rotation of the adjusting rod 552, the protective seat 61 is supported by the protective post 65, the boosting rod 63 stretches to push the bearing block 62 to slide on the protective seat 61 to contact the frame 2, and the bearing block 62 supports the frame 2 tightly;

step six: when the cable is added again, the cable is taken down by sliding the sliding cover 662 on the mounting frame 661, the cable is placed on the two mounting seats 664, the mounting seats 664 stretch along with the volume of the cable, the inner supporting frame 663 stretches along with the horizontal stretching of the mounting seats 664, after the cable is mounted, the sliding cover 662 is reinstalled on the mounting frame 661, meanwhile, the pushing block 665 extrudes the cable on the mounting seats 664, the beginning of the cable is stretched to the cable drum 7 to be fixed, and the cable is wound up along with the rotation of the cable drum 7 driven by the motor.

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 and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (10)

1. A cabling installation for electrical construction, comprising a frame (2), characterized in that:

the wire pressing roller (1), this wire pressing roller (1) rotate on ground and extrude the cable conductor, the both ends and the frame (2) of wire pressing roller (1) rotate and are connected, the surface fixedly connected with of frame (2) places subassembly (4), the internal surface fixedly connected with auxiliary assembly (5) of frame (2), the bottom fixedly connected with protection subassembly (6) of auxiliary assembly (5), one side that wire pressing roller (1) was kept away from to frame (2) rotates and is connected with wire roller (8), one side that frame (2) is close to wire pressing roller (1) rotates and is connected with guide assembly (3), the inner chamber bottom rotation of frame (2) is connected with cable drum (7);

guide assembly (3), including restriction piece (31), this restriction piece (31) receive elasticity and rotate on frame (2), the bottom fixedly connected with telescopic link (34) of restriction piece (31), the bottom fixedly connected with antiskid ribbed tile (36) of telescopic link (34), the surface fixedly connected with anticreep board (35) of antiskid ribbed tile (36), the surface rotation of telescopic link (34) is connected with fly leaf (33), the bottom fixedly connected with pressing plate (32) of fly leaf (33).

2. A cabling installation for electrical power construction as set forth in claim 1, wherein: the inner surface of the frame (2) is in sliding connection with the movable plate (33), and two ends of the limiting block (31) penetrate through the frame (2).

3. A cabling installation for electrical power construction as set forth in claim 1, wherein: the top of the auxiliary component (5) extends to the outside of the frame (2), and the outer surface of the protection component (6) is fixedly connected with the frame (2).

4. A cabling installation for electrical power construction as set forth in claim 1, wherein: place subassembly (4) including plug rod (42), the surface fixedly connected with of plug rod (42) places board (41), the internal surface sliding connection who places board (41) has dog (43), the bottom inner chamber top fixedly connected with elastic plate (45) of dog (43), place board (41) and be close to one side fixedly connected with firm piece (44) of dog (43), the top fixedly connected with stabilizer plate (46) of firm piece (44), place board (41) are run through at the both ends of plug rod (42).

5. A cabling installation for electrical power construction as set forth in claim 1, wherein: the auxiliary assembly (5) comprises an inner connecting plate (51), an assembly barrel (55) is fixedly connected to the top of the inner connecting plate (51), an auxiliary cover (52) is fixedly connected to the top of the assembly barrel (55), a supporting rod (54) is fixedly connected to the bottom of the auxiliary cover (52), an auxiliary ring (53) is fixedly connected to the bottom of the supporting rod (54), the bottom of the auxiliary ring (53) is fixedly connected with the inner connecting plate (51), and a clamping ring (56) is fixedly connected to the bottom of the inner connecting plate (51).

6. The electrical cabling installation for power construction as set forth in claim 5, wherein: the top end of the supporting rod (54) penetrates through the auxiliary cover (52) and extends to the inside of the auxiliary cover (52), and the bottom end of the assembly cylinder (55) penetrates through the inner connecting plate (51) and extends to the inside of the inner connecting plate (51).

7. The electrical cabling installation for power construction as set forth in claim 5, wherein: the assembly barrel (55) comprises an assembly sleeve (553), a reinforcing rod (554) is fixedly connected to the bottom of an inner cavity of the assembly sleeve (553), a lap joint ring frame (556) is fixedly connected to the outer surface of the reinforcing rod (554), a lifting block (555) is slidably connected to the inner surface of the assembly sleeve (553), an adjusting rod (552) is connected to one side of the lifting block (555) away from the assembly sleeve (553) in a rotating mode, and one end of the adjusting rod (552) away from the lifting block (555) is fixedly connected with a side connecting block (551).

8. The cabling installation for electrical power construction as set forth in claim 7, wherein: one side of the lifting block (555) close to the adjusting rod (552) extends to the outside of the assembling sleeve (553), and the outer surface of the lap joint ring frame (556) is fixedly connected with the assembling sleeve (553).

9. A cabling installation for electrical power construction as set forth in claim 1, wherein: the protection assembly (6) comprises a protection seat (61), a protection column (65) is fixedly connected to the top of the protection seat (61), an extension ring (64) is fixedly connected to the top of an inner cavity of the protection column (65), a boosting rod (63) is fixedly connected to the outer surface of the protection column (65), a pressure bearing block (62) is fixedly connected to the end, far away from the protection column (65), of the boosting rod (63), the bottom of the pressure bearing block (62) is in sliding connection with the protection seat (61), and a mounting box (66) is fixedly connected to the bottom of the protection seat (61).

10. The cabling installation for electrical power construction as set forth in claim 9, wherein: the bottom end of the protection column (65) penetrates through the protection seat (61) and extends to the inside of the protection seat (61), and the top of the installation box (66) penetrates through the protection seat (61) and extends to the inside of the protection seat (61).