CN117842764B - Electric cable applying device based on super high-rise building installation - Google Patents

Abstract

The invention relates to the technical field of cable installation and discloses an electric cable applying device based on super high-rise building installation, which comprises a substrate, wherein universal wheels are fixedly arranged at four end points at the bottom of the substrate, a lifting base frame is fixedly arranged at the top of the substrate, two groups of placing components are fixedly arranged at the top of the lifting base frame, a guide rod is fixedly arranged at one side of the top of the lifting base frame, a guide component is fixedly arranged at the top of the guide rod, a conveying component is further arranged at the top of the guide component, an embedded groove is further formed in the position, corresponding to the position between the two groups of placing components, of the top of the substrate, and auxiliary driving components are fixedly arranged at the position, corresponding to a cable roll, of one side of the embedded groove.

Description

Electric cable applying device based on super high-rise building installation

Technical Field

The invention relates to the technical field of cable installation, in particular to an electric cable applying device based on super high-rise building installation.

Background

In the installation of power engineering system, there is a large amount of cable laying work, and in current cable application process, often carry the cable dish through the manual work, later release the work through the pay off rack to the cable, but above-mentioned mode only is applicable to the use when planar construction, when handling the cable construction work that partial height fall is great, is inconvenient for the cable to release and carry.

When the cable is used for high-rise building construction, the length of the cable wound on the cable roll is between 30m and 50m according to different diameters, and the whole height of the high-rise building is basically 50m or more, so that when the cable is applied to a high-rise building, the existing cable applying device cannot be used, the length of the cable wound on the cable roll is insufficient for high-rise building construction, the existing high-rise building construction and the super-high-rise building construction are both realized by using a winch to be matched with a steel wire rope, the steel wire rope is wound on the cable, and then the cable is pulled to rise by shrinking the steel wire rope through the winch, so that the purpose of conveying the cable is achieved.

In order to solve the problems, when the electric power engineering construction is carried out, the electric cable is conveniently applied to high-rise and super-high-rise buildings, the damage to the surface of the electric cable is avoided, and meanwhile, the electric cable is conveniently applied, so that the application device based on the electric cable installed on the super-high-rise buildings is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a release device for installing an electric cable based on a super high-rise building, which solves the problems.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an apparatus is applied to based on super high-rise building installation electric cable, includes the base plate, the equal fixed mounting of bottom four endpoints of base plate has the universal wheel of being convenient for transport it, the top fixed mounting of base plate has the lifting bed frame that is used for supporting the installation, the whole U font that appears of lifting bed frame, the top fixed mounting of lifting bed frame has two sets of subassembly of placing that are used for placing the cable roll, the top opposite side fixed mounting of lifting bed frame has the guide bar that is used for guiding, two sets of the top fixed mounting of guide bar has the guide component that is used for guiding the cable, still be provided with conveying assembly on the position that the top of guide component is the same with the guide component, still offered on the position that the top of base plate corresponds between two sets of placing the subassembly and put into the groove, the equal fixed mounting is used for driving its pivoted auxiliary drive assembly on the position that one side of putting into the groove corresponds the cable roll.

Preferably, the placement component comprises a fixed base, a first limiting plate, a first limiting slot hole, a fixed slot ring and a connecting slot, wherein the fixed base is fixedly arranged at the top of the lifting base frame, the first limiting plate used for limiting the cable reel is fixedly arranged at the top of the fixed base, the first limiting plate is provided with the first limiting slot hole, the inner wall surface of the first limiting slot hole is rotationally provided with the fixed slot ring, the inner wall surface of the fixed slot ring is provided with a plurality of connecting slots used for limiting the cable reel at equal intervals, and the axial center of the fixed slot ring is slidably provided with the limiting component used for connecting the cable reel.

Preferably, the limiting assembly comprises a limiting cavity pipe, an extending groove, a limiting block, a limiting plate II, a reset piece and an extrusion rod, wherein the limiting cavity pipe is slidably installed at the axis of the fixed groove ring, the extending groove for extrusion is formed in the end part and the middle of the limiting cavity pipe, the reset piece formed by sleeving and combining the telescopic rod and a spring is fixedly installed at the two ends of the inner wall surface of the limiting cavity pipe corresponding to the extending groove, the limiting plate II is fixedly installed at the other end of the reset piece, the limiting block used for extending and limiting is fixedly installed at one side of the limiting plate II corresponding to the extending groove, the extrusion rod used for extrusion is in threaded connection with the other end of the limiting cavity pipe, and the end part of the extrusion rod is in a flat-top cone shape.

Preferably, the placing frame plate which is in a bent shape is fixedly arranged at the bottoms of the two ends of the placing groove corresponding to the cable roll, the limiting grooves used for placing are formed in the center of the placing frame plate corresponding to the two ends of the cable roll, and auxiliary pulleys used for assisting the cable roll to rotate are rotatably arranged at the two ends of the limiting grooves.

Preferably, the auxiliary driving assembly comprises a friction lug, a mounting plate, a protection box, an embedding groove, a rolling shaft rod, a contact wheel and a contact groove, wherein the mounting plate is fixedly arranged at the top of the base plate, the protection box for protection is fixedly arranged at the top of the mounting plate, the embedding groove corresponding to the protection box is formed in the position, corresponding to the cable roll, of one side of the protection box, the rolling shaft rod is rotatably arranged in the protection box, one end of the rolling shaft rod penetrates through the protection box and is fixedly connected with the output end of the driving motor, the contact wheel is fixedly arranged at the position, corresponding to the two groups of embedding grooves, of the rolling shaft rod, the contact wheel is integrally in a quadrangle shape, the contact groove matched with the contact wheel is formed in the position, corresponding to the cable roll, and a plurality of friction lugs capable of deforming are fixedly arranged in the contact groove.

Preferably, the guide assembly comprises a guide cross frame, an adjusting cross groove, a telescopic pressure spring, a sliding seat and guide wheels, wherein the guide cross frame is fixedly arranged at the tops of two groups of guide rods, the center of the guide cross frame is provided with the adjusting cross groove, the two sides of the inner wall surface of the adjusting cross groove are provided with the telescopic groove, one end of the inner wall surface of the telescopic groove is fixedly provided with the telescopic pressure spring, the other end of the telescopic pressure spring is fixedly provided with the sliding seat, the sliding seat is slidably arranged in the telescopic groove, and the guide wheels for guiding the cable are rotatably arranged between the two groups of sliding seats.

Preferably, the top and the bottom of the guide cross frame are fixedly provided with guide pipes for guiding the cables at positions corresponding to the adjusting cross grooves, and a plurality of guide wheels are arranged in the adjusting cross grooves in an up-down staggered mode.

Preferably, the conveying component comprises a telescopic transverse frame, conveying grooves, telescopic pipes, conveying wheels, a transmission groove, a transmission shaft rod, sliding grooves, a mounting frame and conveying convex blocks, the central part of the telescopic transverse frame is provided with the conveying grooves for conveying cables, telescopic pipes which can be connected in a telescopic mode are fixedly arranged at the top and the bottom of the telescopic transverse frame, the sliding grooves are formed in two sides of the inner wall surface of the conveying grooves, the mounting frame is slidably arranged in the sliding grooves through springs, the conveying wheels are rotatably arranged in the mounting frame, a plurality of conveying convex blocks are fixedly arranged on the conveying wheels at equal intervals, one side of each conveying wheel is fixedly provided with the transmission shaft rod, the positions of the telescopic transverse frame corresponding to the transmission shaft rod are provided with the corresponding transmission grooves, the other ends of the transmission shaft rods are slidably arranged on the inner wall surface of the transmission grooves, conveying motors are fixedly arranged at the positions of the tops of the telescopic transverse frame corresponding to the transmission grooves, and are in transmission connection with the transmission shaft rods through belts, and the belts are deformable.

Preferably, both ends of the telescopic cross frame are hollow, and the inside of the telescopic cross frame is provided with clamping frame plates for clamping and fixing in a sliding manner, the end parts of the clamping frame plates are L-shaped, the end parts of the clamping frame plates are provided with sliding buckle grooves, the inside of each sliding buckle groove is inserted and provided with an odd-shaped plate for reinforcing and supporting, the whole odd-shaped plate is M-shaped, and the end parts of the odd-shaped plates are provided with fixing slots for fixing the odd-shaped plates.

Preferably, the transport assemblies share a number of groups.

Compared with the prior art, the invention provides the applying device for installing the electric cable based on the super high-rise building, which has the following beneficial effects:

1. This device is applied based on super high-rise building installation electric cable, through the setting of placing the subassembly, be convenient for fix spacing to the cable reel when using to when not influencing its pivoted, be convenient for dismantle fast and change empty cable reel, can effectively practice thrift engineering time when applying, more practical.

2. This device is applied to based on super high-rise building installation electric cable, through setting up of rack board and auxiliary drive subassembly, when spacing to the cable reel, the cooperation between accessible auxiliary pulley and the contact wheel, the rotation of auxiliary cable reel when applying to can effectively avoid the cable to appear blocking when applying and stop the phenomenon, thereby the use when being convenient for the cable to apply more.

3. This device is applied to based on super high-rise building installation electric cable, through the setting of direction subassembly, can make the leading wheel laminate with the outer wall surface of cable all the time, when protecting the cable surface, can also assist the direction to it, the use when being convenient for cable to the high-rise application.

4. The electric cable applying device based on the super high-rise building installation can adjust the quantity of conveying components according to the actual floor layer height and the total height of the building, is suitable for the construction of the high-rise buildings with various different heights, and has a wider application range.

5. This device is applied to based on super high-rise building installation electric cable, through the setting of conveying component, need not the cooperation of hoist engine and wire rope when using, can accomplish the transport of cable to high-rise and super high-rise building to can effectively avoid the outer wall surface of cable to appear damaging and influence life, it is more practical.

Drawings

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

FIG. 2 is a schematic view of a substrate structure according to the present invention;

FIG. 3 is a schematic view showing the separation of the placement module structure of the present invention;

FIG. 4 is a schematic view of a spacing assembly according to the present invention;

FIG. 5 is a schematic view of a plate structure of the placement frame of the present invention;

FIG. 6 is a schematic diagram of an auxiliary drive assembly according to the present invention;

FIG. 7 is a schematic view of a guide assembly according to the present invention;

FIG. 8 is a schematic cross-sectional view of a guide assembly of the present invention;

FIG. 9 is a schematic view of the guide tube of the present invention;

FIG. 10 is a schematic view of a conveyor assembly according to the present invention;

FIG. 11 is a schematic cross-sectional view of a delivery assembly of the present invention.

In the figure: 1. a substrate; 2. a universal wheel; 3. lifting the base frame; 4. placing the assembly; 5. a guide rod; 6. a guide assembly; 7. a transport assembly; 8. placing in a groove; 9. an auxiliary drive assembly; 10. a fixed base; 11. a first limiting plate; 12. limiting slot holes; 13. a fixed slot ring; 14. a connecting groove; 15. a limit component; 16. a limiting cavity tube; 17. extending out of the groove; 18. a limiting block; 19. a limiting plate II; 20. a reset member; 21. extruding a rod; 22. placing a frame plate; 23. a limit groove; 24. an auxiliary pulley; 25. friction bump; 26. a mounting plate; 27. a protective case; 28. an embedding groove; 29. a rolling shaft lever; 30. a contact wheel; 31. a contact groove; 32. a guide cross frame; 33. adjusting the cross groove; 34. a telescopic slot; 35. a telescopic compression spring; 36. a slide; 37. a guide wheel; 38. a guide tube; 39. a telescopic cross frame; 40. a conveying trough; 41. a telescopic tube; 42. a conveying wheel; 43. a transmission groove; 44. a transmission shaft lever; 45. a sliding groove; 46. a mounting frame; 47. the clamping frame plate; 48. a slide fastener groove; 49. an odd-shaped plate; 50. a fixed slot; 51. and conveying the bumps.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

Referring to fig. 1-11, an application device for installing an electric cable based on a super high-rise building comprises a substrate 1, universal wheels 2 which are convenient for transporting the substrate 1 are fixedly installed at four end points at the bottom of the substrate 1, a lifting base frame 3 which is used for supporting and installing is fixedly installed at the top of the substrate 1, the whole lifting base frame 3 is U-shaped, two groups of placing components 4 which are used for placing a cable coil are fixedly installed at the top of the lifting base frame 3, guide rods 5 which are used for guiding are fixedly installed at the other side of the top of the lifting base frame 3, guide components 6 which are used for guiding the cable are fixedly installed at the tops of the two groups of guide rods 5, a conveying component 7 is further arranged at the same position of the tops of the guide components 6 as the guide components 6, an embedded groove 8 is further formed at the position between the tops of the substrate 1 corresponding to the two groups of placing components 4, and an auxiliary driving component 9 which is used for driving the cable coil is fixedly installed at one side of the embedded groove 8.

Further, place subassembly 4 includes fixed base 10, limiting plate one 11, spacing slotted hole 12, fixed slot ring 13 and spread groove 14, fixed base 10 fixed mounting is at the top of lifting bed frame 3, fixed base 10's top fixed mounting has the limiting plate one 11 that is used for carrying out spacing to the cable reel, limiting plate one 11's axle center department has seted up spacing slotted hole 12, rotate on the internal face of spacing slotted hole 12 and install fixed slot ring 13, a plurality of spread grooves 14 that are used for carrying out spacing have been offered on the internal face of fixed slot ring 13 equidistance, fixed slot ring 13's axle center department slidable mounting carries out spacing subassembly 15 that connects to the cable reel.

Further, the limiting component 15 comprises a limiting cavity pipe 16, an extending groove 17, a limiting block 18, a limiting plate II 19, a reset piece 20 and an extrusion rod 21, the limiting cavity pipe 16 is slidably installed at the axis of the fixed groove ring 13, the end part and the middle part of the limiting cavity pipe 16 are both provided with the extending groove 17 for extrusion, the reset piece 20 formed by sleeving and combining the telescopic rod and a spring is fixedly installed at the two ends of the inner wall surface of the limiting cavity pipe 16 corresponding to the extending groove 17, the limiting plate II 19 is fixedly installed at the other end of the reset piece 20, the limiting block 18 for extending and limiting is fixedly installed at one side of the limiting plate II corresponding to the extending groove 17, the extrusion rod 21 for extrusion is in threaded connection with the other end of the limiting cavity pipe 16, the end part of the extrusion rod 21 is in a flat-top conical shape, when the cable coil is required to be installed and limited through the arrangement of the placing component 4, after the cable coil is moved to a designated position, the limiting component 15 is inserted into two sides of the cable coil along the guide of the fixed slot ring 13, then the extrusion rod 21 is inserted from one end of the limiting cavity pipe 16, the limiting block 18 connected with the reset piece 20 and the limiting plate two 19 is extruded and extruded by the extrusion rod 21 from the inside of the extending slot 17 so as to be clamped with the axis of the cable coil, the extending limiting block 18 is clamped by the arrangement of the connecting slot 14 formed on the inner wall surface of the fixed slot ring 13 until the extrusion rod 21 is connected with the end part of the limiting cavity pipe 16 in a threaded manner, the fixing of the cable coil can be completed, the rotation of the cable coil during the cable application can not be influenced through the cooperation between the limiting slot hole 12 and the fixed slot ring 13 when the limiting is carried out, and after the cable application is finished, the extrusion rod 21 is only required to be drawn out from the end part of the limiting cavity pipe 16 in a rotating mode, then the limiting block 18 can retract and reset under the mutual matching of the limiting plate II 19 and the resetting piece 20, and the empty cable roll can be detached and replaced, so that the device is more convenient and practical in use.

Further, the bottom of two ends of the cable roll corresponding to one side of the placement groove 8 is fixedly provided with the placement frame plate 22 which is in a bent shape, two ends of the cable roll corresponding to the center of the placement frame plate 22 are provided with the limiting grooves 23 for placement, two ends of each limiting groove 23 are rotatably provided with the auxiliary pulleys 24 for assisting the rotation of the cable roll, when the cable roll is installed, the cable roll which needs to be installed can be aligned with the two groups of placement frame plates 22 through the arrangement of the placement frame plate 22, and then the cable roll is pushed to the top of the placement frame plate 22, so that the cable roll is embedded in the limiting grooves 23, and meanwhile, the cable roll can be rotated in an auxiliary manner through the auxiliary pulleys 24 when being applied, so that the cable is more convenient to use when being applied.

Further, the auxiliary driving assembly 9 comprises a friction bump 25, a mounting plate 26, a protection box 27, an embedding groove 28, a rolling shaft lever 29, contact wheels 30 and contact grooves 31, wherein the mounting plate 26 is fixedly arranged at the top of the base plate 1, the protection box 27 for protection is fixedly arranged at the top of the mounting plate 26, the embedding grooves 28 corresponding to the protection box 27 are respectively arranged at the positions, corresponding to the cable rolls, of one side of the protection box 27, the rolling shaft lever 29 is rotatably arranged in the protection box 27, one end of the rolling shaft lever 29 penetrates through the protection box 27 and is fixedly connected with the output end of the driving motor, the contact wheels 30 are fixedly arranged at the positions, corresponding to the two groups of embedding grooves 28, of the rolling shaft lever 29 are integrally in a quadrangle shape, the contact grooves 31 matched with the contact wheels 30 are respectively arranged at the positions corresponding to the cable rolls, the inside of contact groove 31 is all fixed mounting has a plurality of friction lug 25 that can produce deformation, through the setting of auxiliary drive assembly 9, after pushing the cable reel onto rack plate 22, the one end of cable reel just can stretch into the inside of protection box 27 via embedded groove 28, contact with fixed mounting's contact wheel 30 on the rolling axostylus axostyle 29, and paste mutually with the both sides internal face of contact groove 31, afterwards drive rolling axostylus axostyle 29 through starting driving motor and rotate, thereby drive contact wheel 30 and rotate rather than together, afterwards, via the friction fit between a plurality of friction lug 25 of fixed mounting on the internal face of contact groove 31 and the cable reel, drive the cable reel and rotate in the inside of spacing groove 23, thereby the use when it is released the cable, the phenomenon that the card was blocked and stopped appears when can effectively avoiding the cable to release, convenient to use more.

Further, the guide assembly 6 comprises a guide cross frame 32, an adjusting cross groove 33, a telescopic groove 34, a telescopic pressure spring 35, sliding seats 36 and guide wheels 37, wherein the guide cross frame 32 is fixedly arranged at the tops of two groups of guide rods 5, the center of the guide cross frame 32 is provided with the adjusting cross groove 33, the two sides of the inner wall surface of the adjusting cross groove 33 are provided with the telescopic groove 34, one end of the inner wall surface of the telescopic groove 34 is fixedly provided with the telescopic pressure spring 35, the other end of the telescopic pressure spring 35 is fixedly provided with the sliding seats 36, the sliding seats 36 are slidably arranged in the telescopic groove 34, and the guide wheels 37 for guiding the cable are rotatably arranged between the two groups of sliding seats 36.

Further, the top and bottom of the guide cross frame 32 are respectively and fixedly provided with a guide tube 38 for guiding the cable, the guide wheels 37 are arranged in the adjusting cross groove 33 in a vertically staggered mode, one end of the cable is fed into the adjusting cross groove 33 through the guide tube 38 fixedly arranged at the bottom of the guide cross frame 32 when the cable is applied, the cable can squeeze the guide wheels 37, the sliding seats 36 are driven to displace in the telescopic groove 34 when the guide wheels 37 are squeezed, the telescopic compression springs 35 are squeezed to drive the guide wheels 37 to displace, the guide wheels 37 can be always attached to the outer wall surface of the cable through the cooperation between the components, the cable is protected, and the auxiliary guide can be further carried out on the cable when the cable is applied, so that the cable is convenient to apply to a high-rise.

Further, the conveying assembly 7 comprises a telescopic transverse frame 39, a conveying groove 40, telescopic pipes 41, conveying wheels 42, a transmission groove 43, a transmission shaft rod 44, a sliding groove 45, a mounting frame 46 and a conveying convex block 51, the central part of the telescopic transverse frame 39 is provided with the conveying groove 40 for conveying cables, telescopic pipes 41 capable of being in telescopic connection are fixedly arranged at the top and the bottom of the telescopic transverse frame 39, the sliding groove 45 is formed in two sides of the inner wall surface of the conveying groove 40, the mounting frame 46 is slidably arranged in the sliding groove 45 through springs, the conveying wheels 42 are rotatably arranged in the mounting frame 46, one side of the conveying wheels 42 is fixedly provided with the transmission shaft rod 44, the positions of the telescopic transverse frame 39 corresponding to the transmission shaft rod 44 are provided with the corresponding transmission grooves 43, the other ends of the transmission shaft rod 44 are slidably arranged on the inner wall surface of the transmission groove 43, a conveying motor is fixedly arranged at the positions of the top of the telescopic transverse frame 39 corresponding to the transmission groove 43, and is in transmission connection with the transmission shaft rod 44 through a belt, and the belt is deformable.

Further, both ends of the telescopic cross frame 39 are hollow, and the inside of the telescopic cross frame is provided with a clamping frame plate 47 for clamping and fixing in a sliding manner, the end part of the clamping frame plate 47 is L-shaped, the end part of the clamping frame plate is provided with a sliding buckle groove 48, an odd-shaped plate 49 for reinforcing and supporting is inserted and installed in the sliding buckle groove 48, the whole odd-shaped plate 49 is M-shaped, and the end part of the odd-shaped plate 49 is provided with a fixing slot 50 for fixing the odd-shaped plate 49.

Further, the conveying components 7 share a plurality of groups, when the cable is applied to a high-rise building, a plurality of groups of conveying components 7 are firstly installed on floors according to the length of the telescopic pipe 41 fixedly installed on the conveying components, during installation, clamping frame plates 47 which are slidably installed inside two ends of a telescopic transverse frame 39 are pulled out, then the ends of the telescopic transverse frame are clamped and installed at the edges of floor gaps, then an odd-shaped plate 49 is inserted along a slide buckle groove 48 formed at the end of each clamping frame plate 47, after the whole device is moved to a proper position, the telescopic pipe 41 fixedly installed on a layer plate of the floor through matching between screws or U-shaped nails and the fixed slot holes 50, then the telescopic pipe 41 at the bottom of the telescopic transverse frame 39 can be prolonged, the cable is connected with the telescopic pipe 41 of the next group at the bottom, then the cable is led into the conveying groove 40 through the guide pipe 38, two sides of the telescopic pipe are attached to the conveying wheels 42, the transmission shaft 44 and the conveying wheels 42 are driven to rotate through starting the conveying motor, and accordingly the friction between the plurality of conveying lugs 51 fixedly installed on the two groups of conveying wheels 42 and the outer wall surface of the cable is driven to reach the specified position along the layer, the cable can be further effectively prevented from being influenced when the cable reaches the specified position, and the cable is not required to reach the specified position, and the service life is further prolonged, and the cable is not required to be effectively matched to reach the building.

When in use, firstly, the device is transported to a proper position, then the telescopic pipes 41 fixedly arranged on the conveying assembly 7 are arranged on floors according to the lengths of the telescopic pipes 41, a plurality of telescopic pipes 41 are connected, during the installation, clamping frame plates 47 which are arranged inside two ends of a telescopic transverse frame 39 in a sliding way are pulled out, then the ends of the telescopic transverse frame are clamped and arranged at the edges of a floor gap, then an odd-shaped plate 49 is inserted along a sliding groove 48 formed at the end of the clamping frame plates 47, after the device is integrally moved to a proper position, the device can be fixedly arranged on a layer plate of the floor through the cooperation between screws or staples and the fixing groove holes 50, then a cable coil to be installed is aligned with two groups of placing frame plates 22, then the cable coil to be installed is pushed to the top of the placing frame plates 22, the cable coil is embedded into the limiting groove 23, and the cable coil is limited, the cable coil can be rotated when being released by the auxiliary pulley 24, the limiting component 15 is inserted into two sides of the cable coil along the guide of the fixed groove ring 13, the extrusion rod 21 is inserted from one end of the limiting cavity tube 16, the limiting block 18 connected with the reset piece 20 and the limiting plate II 19 is extruded and extruded by the extrusion rod 21 from the inside of the extending groove 17 so as to be clamped with the axis of the cable coil, the extending limiting block 18 is clamped by the arrangement of the connecting groove 14 formed on the inner wall surface of the fixed groove ring 13 until the extrusion rod 21 is connected with the end part of the limiting cavity tube 16 in a threaded manner, the cable coil can be fixed, the rotation of the cable coil when the cable is released can not be influenced through the cooperation between the limiting groove hole 12 and the fixed groove ring 13 when the limiting is performed, and after the cable is released, the extrusion rod 21 is only required to be drawn out from the end part of the limiting cavity pipe 16 in a rotating way, then the limiting block 18 can retract and reset under the mutual matching of the limiting plate II 19 and the resetting piece 20, the empty cable reel can be disassembled and replaced, after the cable reel is pushed onto the rack plate 22 and is subjected to installation limiting, one end of the cable reel can extend into the protection box 27 through the embedded groove 28 to be contacted with the contact wheels 30 fixedly arranged on the rolling shaft rod 29 and be adhered to the inner wall surfaces of the two sides of the contact groove 31, then the rolling shaft rod 29 is driven to rotate by starting the driving motor so as to drive the contact wheels 30 to rotate together with the contact wheels, then the cable reel is driven to rotate in the limiting groove 23 through the friction matching between the friction bumps 25 fixedly arranged on the inner wall surface of the contact groove 31 and the cable reel, then one end of the cable is guided manually into the guide tube 38 fixedly arranged at the bottom of the guide cross frame 32 until the end of the cable is conveyed into the adjusting cross groove 33 along the guide tube 38, then the cable extrudes a plurality of guide wheels 37, and when extruding the guide wheels 37, the plurality of sliding seats 36 are driven to displace in the telescopic groove 34, so as to extrude a plurality of telescopic pressure springs 35 to drive the guide wheels 37 to displace, clamp and guide the cable, the end of the cable is led into the conveying groove 40 through the connection of the telescopic tube 41 through the cooperation between the manual work and the guide tube 38, both sides of the cable are jointed with the conveying wheels 42, then the transmission shaft lever 44 and the conveying wheels 42 can be driven to rotate through starting the conveying motor, so that the cable is driven to sequentially ascend along the telescopic tube 41 through friction between a plurality of conveying lugs 51 fixedly arranged on the two groups of conveying wheels 42 and the outer wall surface of the cable, through the mutual matching of the structures, the invention can finish the transportation of the cable to high-rise and super-high-rise buildings without matching of a winch and a steel wire rope when in use, can effectively avoid the damage of the outer wall surface of the cable to influence the service life, and is convenient for the use of cable release when in power engineering construction.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an apparatus is applied to based on super high-rise building installation electric cable, includes base plate (1), universal wheel (2) that are convenient for transport it are all installed to the bottom four endpoints of base plate (1), its characterized in that: the top of base plate (1) fixed mounting has lifting bed frame (3) that are used for carrying out support installation, lifting bed frame (3) wholly presents the U font, lifting bed frame (3)'s top fixed mounting has two sets of placing component (4) that are used for placing the cable reel, lifting bed frame (3)'s top opposite side fixed mounting has guide bar (5) that are used for carrying out the direction, two sets of the top fixed mounting of guide bar (5) has guide component (6) that are used for carrying out the direction to the cable, still be provided with conveying component (7) on the top of guide component (6) and the same position of guide component (6), still set up put into groove (8) on the position between two sets of placing component (4) of top correspondence of base plate (1), all fixed mounting has auxiliary drive subassembly (9) that are used for driving it to rotate on the position of putting into groove (8) one side correspondence cable reel;

The placing assembly (4) comprises a fixed base (10), a first limiting plate (11), limiting slotted holes (12), a fixed slot ring (13) and connecting slots (14), wherein the fixed base (10) is fixedly arranged at the top of the lifting base frame (3), the first limiting plate (11) used for limiting the cable coil is fixedly arranged at the top of the fixed base (10), the limiting slotted holes (12) are formed in the axle center of the first limiting plate (11), the fixed slot ring (13) is rotatably arranged on the inner wall surface of the limiting slotted holes (12), a plurality of connecting slots (14) used for limiting the cable coil are formed in the inner wall surface of the fixed slot ring (13) at equal intervals, and the limiting assembly (15) used for connecting the cable coil is slidably arranged at the axle center of the fixed slot ring (13);

Limiting component (15) are including spacing chamber pipe (16), stretch out groove (17), stopper (18), limiting plate two (19), reset piece (20) and extrude pole (21), spacing chamber pipe (16) slidable mounting is in the axle center department of fixed slot ring (13), the tip and the middle part of spacing chamber pipe (16) all have been seted up and are used for extruding stretch out groove (17), the equal fixed mounting in both ends that the internal face of spacing chamber pipe (16) corresponds stretch out groove (17) has reset piece (20) that constitute by telescopic link and spring cup joint the combination, the equal fixed mounting of the other end of reset piece (20) has limiting plate two (19), one side that limiting plate two (19) correspond stretch out groove (17) equal fixed mounting has be used for stretching out spacing stopper (18), the other end threaded connection of spacing chamber pipe (16) has extrusion pole (21) that are used for extruding, the tip of extruding pole (21) presents the flat top.

2. The ultra-high rise building mounted electrical cable based dispensing device of claim 1, wherein: the utility model discloses a cable reel, including placing groove (8), locating groove (23), auxiliary pulley (24) that is used for assisting the cable reel to carry out pivoted is all installed in the both ends bottom of placing groove (8) one side corresponding cable reel all fixed mounting presents to buckle shape, locating groove (23) that are used for placing are all seted up at the both ends of the center department corresponding cable reel of placing frame board (22), the both ends of locating groove (23) all rotate and install.

3. The ultra-high rise building mounted electrical cable based dispensing device of claim 1, wherein: auxiliary drive subassembly (9) are including friction lug (25), mounting panel (26), protection box (27), embedded groove (28), rolling shaft lever (29), contact wheel (30) and contact groove (31), mounting panel (26) fixed mounting is at the top of base plate (1), the top fixed mounting of mounting panel (26) has protection box (27) that are used for protecting, all set up embedded groove (28) rather than corresponding on the position of corresponding cable reel of one side of protection box (27), rolling shaft lever (29) are installed in the internal rotation of protection box (27), rolling shaft lever (29) are worn out protection box (27) and driving motor's output fixed connection together to one end, rolling shaft lever (29) all fixed mounting has contact wheel (30) on the position of corresponding two sets of embedded grooves (28), contact wheel (30) wholly appear as the quadrangle, contact groove (31) rather than the contact groove (31) that agree with on the position of corresponding cable reel all have been seted up on the position, the internal rotation of contact groove (31) all fixed mounting has a plurality of friction lugs (25).

4. The ultra-high rise building mounted electrical cable based dispensing device of claim 1, wherein: the utility model provides a cable guide device, including guide assembly (6), guide assembly (6) are including direction crossbeams (32), regulation cross groove (33), expansion tank (34), flexible pressure spring (35), slide (36) and leading wheel (37), the top of two sets of guide bars (5) of direction crossbeams (32) fixed mounting, the center department of direction crossbeams (32) has seted up regulation cross groove (33), expansion tank (34) have all been seted up to the internal face both sides of regulation cross groove (33), flexible pressure spring (35) have been fixed to internal face one end of expansion tank (34), the equal fixed mounting of the other end of flexible pressure spring (35) has slide (36), slide (36) slidable mounting is in the inside of expansion tank (34), rotates between two sets of slides (36) and installs leading wheel (37) that are used for carrying out the direction to the cable.

5. The ultra-high rise building mounted electrical cable based dispensing device of claim 4, wherein: guide pipes (38) used for guiding the cables are fixedly arranged at the top and the bottom of the guide cross frame (32) corresponding to the positions of the adjusting cross grooves (33), and a plurality of guide wheels (37) are arranged in the adjusting cross grooves (33) in a vertically staggered mode.

6. The ultra-high rise building mounted electrical cable based dispensing device of claim 1, wherein: the conveying assembly (7) comprises a telescopic transverse frame (39), a conveying groove (40), a telescopic pipe (41), conveying wheels (42), a transmission groove (43), a transmission shaft rod (44), a sliding groove (45), a mounting frame (46) and a conveying convex block (51), wherein the conveying groove (40) for conveying cables is formed in the center of the telescopic transverse frame (39), the telescopic pipe (41) which can be connected in a telescopic mode is fixedly arranged at the top and the bottom of the telescopic transverse frame (39), the sliding groove (45) is formed in two sides of the inner wall surface of the conveying groove (40), the mounting frame (46) is slidably mounted in the sliding groove (45) through a spring, the conveying wheels (42) are rotatably mounted in the mounting frame (46), a plurality of conveying convex blocks (51) are fixedly mounted on one side of the conveying wheels (42), the transmission shaft rod (44) is fixedly mounted at one side of the telescopic transverse frame (39), the transmission groove (43) corresponding to the telescopic transverse frame is formed in the position of the corresponding transmission shaft rod (44), the other end of the transmission shaft rod (44) is fixedly mounted on the transmission shaft rod (43) through a belt on the inner wall surface of the telescopic transverse frame (39), the belt is deformable.

7. The ultra-high rise building mounted electrical cable based dispensing device of claim 6, wherein: the telescopic cross frame is characterized in that two ends of the telescopic cross frame (39) are hollow, clamping frame plates (47) for clamping and fixing are slidably mounted in the telescopic cross frame, the ends of the clamping frame plates (47) are L-shaped, side-sliding type sliding buckle grooves (48) are formed in the ends of the clamping frame plates, an odd-shaped plate (49) for reinforcing and supporting is inserted and mounted in the sliding buckle grooves (48), the odd-shaped plate (49) is integrally M-shaped, and fixing slots (50) for fixing the odd-shaped plate (49) are formed in the ends of the odd-shaped plate (49).

8. The ultra-high rise building mounted electrical cable based dispensing device of claim 1, wherein: the conveying assemblies (7) share a plurality of groups.