CN111653990A

CN111653990A - Cable bridge based on hot galvanizing bimetal epoxy resin anticorrosive coating

Info

Publication number: CN111653990A
Application number: CN202010567459.5A
Authority: CN
Inventors: 张俊; 俞振亚
Original assignee: Anhui Jinggong Cable Bridge Frame Co ltd
Current assignee: Anhui Jinggong Cable Bridge Frame Co ltd
Priority date: 2020-06-19
Filing date: 2020-06-19
Publication date: 2020-09-11
Anticipated expiration: 2040-06-19
Also published as: CN111653990B

Abstract

The invention discloses a cable bridge based on a hot galvanizing bimetal epoxy resin anticorrosive coating, which comprises a fixed bridge, a first fixing frame, a second fixing frame and a splicing clamping piece, wherein the first fixing frame is fixedly arranged on the outer surface of the fixed bridge, the second fixing frame is fixedly arranged on one side, close to the first fixing frame, of the outer surface of the fixed bridge, the outer surfaces of the top ends of the second fixing frame and the first fixing frame are respectively and fixedly provided with a connecting bolt plate, the inner surfaces of the side edges of the second fixing frame and the first fixing frame are respectively and movably sleeved with a lifting sleeve plate, the splicing clamping piece is fixedly sleeved on the inner side of one end of the fixed bridge, and the middle positions of the inner sides of the bottoms of the second fixing frame and the first fixing frame are respectively; the cable bridge based on the hot galvanizing bimetal epoxy resin anticorrosive coating can perform double adjustment operation, the flexibility of the cable bridge in use is improved, and meanwhile the cable bridge has an auxiliary fixing structure, so that the safety of the cable bridge is improved.

Description

Cable bridge based on hot galvanizing bimetal epoxy resin anticorrosive coating

Technical Field

The invention belongs to the technical field of cable bridges, and particularly relates to a cable bridge based on a hot galvanizing bimetal epoxy resin anticorrosive coating.

Background

The cable bridge based on the hot galvanizing bimetal epoxy resin anticorrosive coating is a bridge fixing mechanism for installing a cable, and the cable can be fixed at a roof by utilizing the cable bridge, so that the cable is convenient to carry out indoor wiring.

A cable bridge device disclosed in reference CN208508428U, the cable bridge device includes: the cable bridge comprises a cable support, an upper floor, a lower floor, a partition and a cable bridge body; the cable bridge comprises an upper floor and a lower floor, wherein the upper floor and the lower floor are symmetrically arranged, a cable support is pre-buried between the upper floor and the lower floor, one end of a cable bridge body is connected with the cable support, and a plurality of cable bridge bodies are uniformly arranged along the length direction of the cable support; the cable bridge body is provided with a plurality of plugging parts for installing partition pieces, the plugging parts are uniformly distributed along the extension direction of the cable bridge body, and the partition pieces are used for dividing the cable bridge body into a plurality of cable layer laying areas.

The traditional cable bridge is installed and operated by adopting a fixed structure, so that the traditional cable bridge cannot be subjected to telescopic fixing and adjusting operation, the application range of the cable bridge is reduced, and the cable bridge cannot be suitable for different installation heights; secondly, the traditional cable bridge does not have an auxiliary wire feeding structure, and after the cable bridge is installed, a user needs to perform cable threading operation on the cable bridge in a manual mode, so that the operation steps of the user are increased, and the functionality of the user is reduced; meanwhile, the traditional cable bridge does not have an auxiliary fixing structure, so that the traditional cable bridge is easily shaken under the influence of external force, and certain adverse effect is brought to a user.

Disclosure of Invention

The telescopic fixing adjusting device aims to overcome the defect that the traditional cable bridge is installed by adopting a fixed structure, so that the traditional cable bridge cannot be subjected to telescopic fixing adjusting operation, the application range of the cable bridge is reduced, and the cable bridge cannot be suitable for different installation heights; secondly, the traditional cable bridge does not have an auxiliary wire feeding structure, and after the cable bridge is installed, a user needs to perform cable threading operation on the cable bridge in a manual mode, so that the operation steps of the user are increased, and the functionality of the user is reduced; meanwhile, the traditional cable bridge does not have an auxiliary fixing structure, so that the cable bridge is easily shaken under the influence of external force, and the cable bridge based on the hot galvanizing bimetal epoxy resin anticorrosive coating is provided.

The purpose of the invention is realized by the following technical scheme:

a cable bridge based on a hot galvanizing bimetal epoxy resin anticorrosive coating comprises a fixed bridge, a first fixing frame, a second fixing frame and a splicing clamping piece, wherein the first fixing frame is fixedly arranged on the outer surface of the fixed bridge, the second fixing frame is fixedly arranged on one side, close to the first fixing frame, of the outer surface of the fixed bridge, a connecting bolt plate is fixedly arranged on the outer surface of the top end of each of the second fixing frame and the first fixing frame, lifting sleeve plates are movably sleeved on the inner surfaces of the side edges of the second fixing frame and the first fixing frame, the splicing clamping piece is fixedly sleeved on the inner side of one end of the fixed bridge, a middle sleeve plate is movably sleeved on the middle position of the inner sides of the bottoms of the second fixing frame and the first fixing frame, two groups of first base plates are fixedly arranged on the outer surfaces of the lower portions of the second fixing frame and the first fixing frame, and a first clamping piece is movably arranged, and the outer surfaces of the other sides of the second fixing frame and the first fixing frame are respectively and movably provided with a second clamping piece, the middle positions of the outer surfaces of the first clamping piece and the second clamping piece are respectively and fixedly provided with a lifting clamping seat, the inner surfaces of the side edges of the second fixing frame and the first fixing frame are respectively provided with a moving groove, the second clamping piece, the first clamping piece and the moving groove are respectively and movably connected through the lifting clamping seat, and the inner surfaces of the two sides of the lifting clamping seat are respectively provided with a butt joint groove.

As a further technical scheme of the invention, the cross sections of the second clamping piece and the first clamping piece are both in an L-shaped structure, the outer surfaces of the bottoms of the second clamping piece and the first clamping piece are both fixedly provided with second base plates, and the inner surfaces of the second clamping piece and the first clamping piece, which are close to the upper part of the lifting clamping seat, are both fixedly sleeved with first fixing bolts.

As a further technical scheme of the invention, a four-way connecting piece is fixedly arranged on the outer surface of one end of the fixed bridge, a three-way connecting piece is fixedly arranged on the outer surface of the other end of the fixed bridge, threading grooves are respectively arranged on the inner sides of the fixed bridge, the three-way connecting piece and the four-way connecting piece, the cross section of the four-way connecting piece is of a cross-shaped structure, and the cross section of the three-way connecting piece is of a T-shaped structure.

As a further technical scheme, the ports of the fixed bridge, the three-way connecting piece and the four-way connecting piece are respectively and fixedly provided with a first clamping plate and a second clamping plate which are parallel to each other, the inner surfaces of the first clamping plate and the second clamping plate are respectively sleeved with two groups of second fixing bolts, the three-way connecting piece, the four-way connecting piece and the fixed bridge are respectively and fixedly connected through the second fixing bolts, and the inner surfaces of the three-way connecting piece, the four-way connecting piece and the fixed bridge are respectively and fixedly provided with a heat insulation pad.

As a further technical scheme of the present invention, a butt square groove is formed through the inner side of the fixed bridge, the fixed bridge and the splicing clamp are fixedly connected through the butt square groove, the splicing clamp includes a motor and a rolling cylinder, the motor is fixedly installed inside the splicing clamp, the rolling cylinder is arranged inside the splicing clamp and close to one side of the motor, a rolling bottom rod is movably installed below the inner side of the motor and close to the rolling cylinder, a splicing plate is fixedly installed on the side of the butt square groove, and the butt square groove and the splicing plate are fixedly connected through a clamping groove.

As a further technical scheme, the overall structure of the lifting sleeve plate is a cuboid hollow structure, a first rolling rod is movably mounted on the inner surface of one end of the lifting sleeve plate, a second rolling rod is movably mounted on one side, close to the first rolling rod, of the inner surface of one end of the lifting sleeve plate, a push-pull groove is formed in the inner surface of the splicing clamping piece, a heat dissipation screen plate is fixedly mounted on one side, close to the push-pull groove, of the outer surface of the splicing clamping piece, and two groups of limiting clamping blocks are fixedly mounted on the outer surface of the other end of the lifting sleeve plate.

As a further technical scheme of the invention, the second rolling rod, the first rolling rod and the lifting sleeve plate are movably connected through a rotating shaft, and the inner surfaces of two sides of the lifting sleeve plate are respectively provided with a plurality of groups of positioning clamping grooves.

As a further technical scheme of the invention, the outer surfaces of the first fixing frame and the second fixing frame are movably sleeved with butt joint clamping pins, and the inner side of the upper end of the connecting bolt plate is provided with two groups of circular notches in a penetrating manner.

As a further technical scheme of the invention, the inner surfaces of two sides of the middle sleeve plate are respectively provided with a connecting chute, the inner surfaces of the first fixing frame and the second fixing frame close to two sides of the middle sleeve plate are respectively movably sleeved with a positioning clamp bolt, the upper part of the fixed bridge frame is fixedly provided with a sealing top plate, and the outer surfaces of the fixed bridge frame, the three-way connecting piece and the four-way connecting piece are respectively coated with an anticorrosive coating.

A cable bridge based on a hot galvanizing bimetal epoxy resin anticorrosive coating specifically comprises the following use operation steps:

step one, rotating a positioning clamp bolt, loosening a middle sleeve plate in a first fixing frame and a second fixing frame, pulling the first fixing frame and the second fixing frame according to the width of a fixed bridge frame, so that the middle sleeve plate is pulled out of the first fixing frame and the second fixing frame, adjusting the fixed width of the first fixing frame and the second fixing frame, locking the middle sleeve plate through the positioning clamp bolt, simultaneously pulling a butt joint clamping pin of the first fixing frame and the second fixing frame out of a positioning clamping groove according to the installation height of the fixed bridge frame, pulling the first fixing frame and the second fixing frame downwards, pulling a lifting sleeve plate out of the first fixing frame and the second fixing frame, and adjusting the installation height of the first fixing frame and the second fixing frame;

fixing a first fixing frame and a second fixing frame on the roof through bolts by using a connecting bolt plate, penetrating a fixed bridge frame through the first fixing frame and the second fixing frame, matching a lifting clamping seat with a moving groove, pushing a first clamping piece and a second clamping piece downwards so as to clamp the fixed bridge frame at the bottoms of the first clamping piece and the second clamping piece, and locking the first clamping piece and the second clamping piece by using a second fixing bolt so as to fix the fixed bridge frame on the first fixing frame and the second fixing frame;

and step three, taking down the splice plates on the fixed bridge, enabling the splice clamping pieces to penetrate through the butt square grooves to be fixed on the fixed bridge, enabling one end of the cable to penetrate through the space between the rolling bottom rod and the rolling cylinder, driving the rolling cylinder to rotate by using the motor, conveying the cable into the fixed bridge, and fixing the three-way connecting piece and the four-way connecting piece on the fixed bridge by using the first clamping plate and the second clamping plate to be matched with the second fixing bolt.

The invention has the beneficial effects that:

1. by arranging the first fixing frame and the second fixing frame, when a user needs to install and fix the cable bridge frame based on the hot galvanizing bimetal epoxy resin anticorrosive coating, the user can firstly loosen the middle sleeve plates in the first fixing frame and the second fixing frame by rotating the positioning clamp bolts according to the width of the fixed bridge frame, pull the first fixing frame and the second fixing frame according to the width of the fixed bridge frame, thereby drawing the middle sleeve plates out of the first fixing frame and the second fixing frame, adjusting the fixed width of the first fixing frame and the second fixing frame, enabling the adjusted first fixing frame and the adjusted second fixing frame to be suitable for fixed bridge frames with different widths, improving the application range of the fixed bridge frame, locking the sleeve plates through the positioning clamp bolts, and simultaneously pulling out the butt joint clamp pins of the first fixing frame and the second fixing frame from the positioning clamp grooves according to the installation height of the fixed bridge frame, the first fixing frame and the second fixing frame are pulled downwards, the lifting sleeve plate is pulled out from the first fixing frame and the second fixing frame, the mounting height of the first fixing frame and the mounting height of the second fixing frame are adjusted, the mounting height of the fixed bridge frame can be adjusted by utilizing the height adjustment of the first fixing frame and the second fixing frame, the first fixing frame and the second fixing frame are utilized, the cable bridge frame is enabled to have a dual-adjustment structure, and the flexibility of the cable bridge frame in use is improved.

2. Through setting up the concatenation fastener, after the user accomplishes the installation operation of cable testing bridge, when carrying out cable threading operation to it, take off the splice plate on the fixed crane span structure, make the concatenation fastener pass the butt joint square groove and fix on fixed crane span structure, pass the one end of cable between roll sill bar and the roller, utilize motor drive roller to rotate, the roll sill bar that utilizes roller's rotation can cooperate its lower part, the drive cable removes, carry the cable to fixed crane span structure in, the manual formula threading operation of replacement, make the use of cable testing bridge more convenient, utilize first cardboard and second cardboard cooperation second gim peg, fix tee junction spare and cross connection spare on fixed crane span structure, utilize the setting of concatenation fastener, make this cable testing bridge have supplementary wire feeding structure, promote its self functionality.

3. Through setting up first fastener and second fastener, when the user carries out the fixed operation to this cable testing bridge, the user can utilize lift cassette cooperation shifting chute, first fastener and second fastener are promoted downwards, thereby with the fixed crane span structure card in the bottom of first fastener and second fastener, utilize first fastener of second gim peg locking and second fastener, make fixed crane span structure fix on first mount and second mount, utilize the setting of first fastener and second fastener, can assist fixed cable testing bridge, avoid it to appear rocking the phenomenon after the installation, promote its security.

4. Through the setting of first roll bar and second roll bar, when the user stimulates first mount and second mount to adjust the operation, utilize first roll bar and second roll bar can reduce the frictional force between lift lagging and first mount and the second mount, make the regulation operation of first mount and second mount more smooth.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of the overall structure of a cable bridge based on a hot galvanizing bimetallic epoxy resin anticorrosive coating.

Fig. 2 is an internal structure view of a first fixing frame of a cable bridge based on a hot galvanizing bimetal epoxy resin anticorrosive coating.

FIG. 3 is an overall structure view of a cable bridge splicing clamping piece based on a hot galvanizing bimetallic epoxy resin anticorrosive coating.

Fig. 4 is an overall structure diagram of a first clamping piece of a cable bridge frame based on a hot galvanizing bimetal epoxy resin anticorrosive coating.

FIG. 5 is an overall structure diagram of a cable bridge tee joint connector based on a hot galvanizing bimetallic epoxy resin anticorrosive coating.

Fig. 6 is an overall structure diagram of a cable bridge lifting sleeve plate based on a hot galvanizing bimetal epoxy resin anticorrosive coating.

In the figure: 1. a threading slot; 2. fixing the bridge frame; 3. splicing the clamping pieces; 4. a tee joint connector; 5. a first fixing frame; 6. sealing the top plate; 7. a connecting peg board; 8. a second fixing frame; 9. a four-way connecting piece; 10. positioning the clamping bolt; 11. a middle bushing plate; 12. connecting the sliding chute; 13. a first backing plate; 14. a first clip member; 15. butting the clamping pins; 16. lifting sleeve plates; 17. positioning the clamping groove; 18. a circular notch; 19. a second clip member; 20. a moving groove; 21. rolling the bottom rod; 22. a heat dissipation screen plate; 23. a push-pull groove; 24. an electric motor; 25. rolling cylinders; 26. butting square grooves; 27. splicing plates; 28. a second backing plate; 29. a butt joint groove; 30. lifting the clamping seat; 31. a first securing latch; 32. a first clamping plate; 33. a second clamping plate; 34. a second securing latch; 35. a heat insulating pad; 36. a first roller bar; 37. a second roller bar; 38. and a limiting clamping block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-6, a cable bridge based on a hot-dip galvanized bi-metal epoxy resin anticorrosive coating comprises a fixed bridge 2, a first fixing frame 5, a second fixing frame 8 and a splicing fastener 3, wherein the first fixing frame 5 is fixedly arranged on the outer surface of the fixed bridge 2, the second fixing frame 8 is fixedly arranged on one side of the outer surface of the fixed bridge 2 close to the first fixing frame 5, the outer surfaces of the top ends of the second fixing frame 8 and the first fixing frame 5 are both fixedly provided with a connecting bolt plate 7, the connecting bolt plate 7 can be used for fixing the installation of the second fixing frame 8 and the first fixing frame 5 through bolts, the inner surfaces of the side edges of the second fixing frame 8 and the first fixing frame 5 are both movably sleeved with a lifting sleeve plate 16, the splicing fastener 3 is fixedly sleeved on the inner side of one end of the fixed bridge 2, the middle positions of the inner sides of the bottoms of the second fixing frame 8 and the first fixing, and two sets of first backing plates 13 are fixedly mounted on the outer surfaces of the lower portions of the second fixing frame 8 and the first fixing frame 5, a first clamping piece 14 is movably mounted on the outer surface of one side of the second fixing frame 8 and the first fixing frame 5, a second clamping piece 19 is movably mounted on the outer surface of the other side of the second fixing frame 8 and the first fixing frame 5, a lifting clamping seat 30 is fixedly mounted in the middle of the outer surfaces of the first clamping piece 14 and the second clamping piece 19, a moving groove 20 is formed in the inner surface of the side edge of the second fixing frame 8 and the inner surface of the side edge of the first fixing frame 5, the second clamping piece 19, the first clamping piece 14 and the moving groove 20 are movably connected through the lifting clamping seat 30, and butt-joint grooves 29 are formed in.

The cross sections of the second clamping piece 19 and the first clamping piece 14 are both L-shaped structures, a second base plate 28 is fixedly mounted on the outer surface of the bottom of the second clamping piece 19 and the outer surface of the bottom of the first clamping piece 14, a first fixing bolt 31 is fixedly sleeved above the inner surface of the second clamping piece 19 and the inner surface of the first clamping piece 14 close to the lifting clamping seat 30, and the second clamping piece 19 and the first clamping piece 14 are utilized to play a role in compressing and fixing the fixed bridge 2.

The outer fixed surface of one end of fixed crane span structure 2 installs cross-connection 9, and the outer fixed surface of the other end of fixed crane span structure 2 installs tee junction 4, and the inboard of fixed crane span structure 2, tee junction 4 and cross-connection 9 all is equipped with threading groove 1, and the cross section of cross-connection 9 is "ten" font structure, and the cross section of tee junction 4 is "T" font structure, utilizes tee junction 4 and cross-connection 9 can adjust the cable of fixed crane span structure 2 and walks the line direction.

Fixed crane span structure 2, the equal fixed mounting of port department of three way connection spare 4 and four way connection spare 9 has first cardboard 32 and second cardboard 33, and first cardboard 32 and second cardboard 33 are parallel to each other, two sets of second gim peg 34 have all been cup jointed to the internal surface of first cardboard 32 and second cardboard 33, three way connection spare 4, all through second gim peg 34 fixed connection between four way connection spare 9 and the fixed crane span structure 2, three way connection spare 4, the equal fixed mounting of internal surface of four way connection spare 9 and fixed crane span structure 2 has heat insulating mattress 35, utilize heat insulating mattress 35 can promote three way connection spare 4, the thermal-insulated effect of four way connection spare 9.

The inboard of fixed crane span structure 2 is run through and has been seted up butt square groove 26, through butt square groove 26 fixed connection between fixed crane span structure 2 and the concatenation fastener 3, concatenation fastener 3 includes motor 24 and rolling tube 25, motor 24 fixed mounting is in the inside of concatenation fastener 3, rolling tube 25 sets up the one side that is close to motor 24 in the inside of concatenation fastener 3, the below movable mounting that rolling tube 25 is close to in motor 24's inboard has rolling sill bar 21, butt square groove 26's side fixed mounting has splice plate 27, through draw-in groove fixed connection between butt square groove 26 and the splice plate 27.

The integral structure of the lifting sleeve plate 16 is a cuboid hollow structure, a first rolling rod 36 is movably mounted on the inner surface of one end of the lifting sleeve plate 16, a second rolling rod 37 is movably mounted on one side, close to the first rolling rod 36, of the inner surface of one end of the lifting sleeve plate 16, a push-pull groove 23 is formed in the inner surface of the splicing clamping piece 3, a heat dissipation mesh plate 22 is fixedly mounted on one side, close to the push-pull groove 23, of the outer surface of the splicing clamping piece 3, and two groups of limiting clamping blocks 38 are fixedly mounted on the outer surface of the other end of the.

All through pivot swing joint between second roll bar 37, first roll bar 36 and the lift lagging 16, a plurality of groups of positioning slot 17 have all been seted up to the both sides internal surface of lift lagging 16, utilize positioning slot 17 to play the fixed action to lift lagging 16.

The outer surfaces of the first fixing frame 5 and the second fixing frame 8 are movably sleeved with butt joint bayonet pins 15, and the inner side of the upper end of the connecting bolt plate 7 is provided with two groups of circular notches 18 in a penetrating mode.

The connecting chutes 12 are formed in the inner surfaces of the two sides of the middle sleeve plate 11, the positioning clamping bolts 10 are movably sleeved on the inner surfaces of the first fixing frame 5 and the second fixing frame 8 close to the two sides of the middle sleeve plate 11, the sealing top plate 6 is fixedly mounted on the upper portion of the fixed bridge frame 2, the anticorrosive coatings are smeared on the outer surfaces of the fixed bridge frame 2, the three-way connecting piece 4 and the four-way connecting piece 9, and the anticorrosive coatings are made of iron-zinc bimetal material mixed epoxy resin and play roles in rust resistance and corrosion resistance.

step one, rotating a positioning clamp bolt 10, loosening a middle sleeve plate 11 in a first fixed frame 5 and a second fixed frame 8, pulling the first fixed frame 5 and the second fixed frame 8 according to the width of a fixed bridge frame 2, so as to pull the middle sleeve plate 11 out of the first fixed frame 5 and the second fixed frame 8, adjusting the fixed width of the first fixed frame 5 and the second fixed frame 8, locking the middle sleeve plate 11 through the positioning clamp bolt 10, simultaneously pulling a butt joint clamping pin 15 of the first fixed frame 5 and the second fixed frame 8 out of a positioning clamping groove 17 according to the installation height of the fixed bridge frame 2, pulling the first fixed frame 5 and the second fixed frame 8 downwards, pulling a lifting sleeve plate 16 out of the first fixed frame 5 and the second fixed frame 8, and adjusting the installation height of the first fixed frame 5 and the second fixed frame 8;

fixing a first fixing frame 5 and a second fixing frame 8 on a roof through bolts by using a connecting bolt plate 7, meanwhile, penetrating the fixed bridge 2 through the first fixing frame 5 and the second fixing frame 8, matching a lifting clamping seat 30 with a moving groove 20, and pushing a first clamping piece 14 and a second clamping piece 19 downwards, so that the fixed bridge 2 is clamped at the bottoms of the first clamping piece 14 and the second clamping piece 19, and locking the first clamping piece 14 and the second clamping piece 19 by using a second fixing bolt 34, so that the fixed bridge 2 is fixed on the first fixing frame 5 and the second fixing frame 8;

and step three, taking down the splicing plates 27 on the fixed bridge frame 2, enabling the splicing clamping pieces 3 to penetrate through the butt square grooves 26 to be fixed on the fixed bridge frame 2, enabling one end of the cable to penetrate through the space between the rolling bottom rod 21 and the rolling cylinders 25, driving the rolling cylinders 25 to rotate by the motor 24, conveying the cable into the fixed bridge frame 2, and fixing the three-way connecting piece 4 and the four-way connecting piece 9 on the fixed bridge frame 2 by utilizing the first clamping plate 32 and the second clamping plate 33 to be matched with the second fixing bolt 34.

The invention aims to provide a cable bridge based on a hot galvanizing bimetal epoxy resin anticorrosive coating, when in use, through arranging a first fixing frame 5 and a second fixing frame 8, when a user needs to carry out installation and fixing operation on the cable bridge based on the hot galvanizing bimetal epoxy resin anticorrosive coating, the user can firstly loosen middle-mounted sleeve plates 11 in the first fixing frame 5 and the second fixing frame 8 by rotating a positioning clamping bolt 10 according to the width of a fixed bridge 2, pull the first fixing frame 5 and the second fixing frame 8 according to the width of the fixed bridge 2, thereby extracting the middle-mounted sleeve plates 11 from the first fixing frame 5 and the second fixing frame 8, adjust the fixed width of the first fixing frame 5 and the second fixing frame 8, and leading the adjusted first fixing frame 5 and the second fixing frame 8 to be suitable for fixed bridges 2 with different widths, the application range of the cable bridge is widened, the middle sleeve plate 11 is locked through the positioning clamp bolt 10, meanwhile, according to the installation height of the fixed bridge frame 2, the butt joint clamp pin 15 of the first fixing frame 5 and the second fixing frame 8 is pulled out of the positioning clamp groove 17, the first fixing frame 5 and the second fixing frame 8 are pulled downwards, the lifting sleeve plate 16 is pulled out of the first fixing frame 5 and the second fixing frame 8, the installation height of the first fixing frame 5 and the second fixing frame 8 is adjusted, the installation height of the fixed bridge frame 2 can be adjusted by adjusting the height of the first fixing frame 5 and the height of the second fixing frame 8, the cable bridge frame is enabled to have a double adjustment structure by the arrangement of the first fixing frame 5 and the second fixing frame 8, and the flexibility of the cable bridge frame in use is improved;

by arranging the splicing clamping piece 3, when a user finishes the installation operation of the cable bridge and carries out cable threading operation on the cable bridge, the splicing plate 27 on the fixed bridge 2 is taken down, so that the splicing clamping piece 3 passes through the butt square groove 26 to be fixed on the fixed bridge frame 2, one end of the cable passes through the space between the rolling bottom rod 21 and the rolling cylinder 25, the rolling cylinder 25 is driven to rotate by the motor 24, the rolling bottom rod 21 at the lower part of the rolling cylinder 25 can be matched by the rotation of the rolling cylinder 25 to drive the cable to move, the cable is conveyed into the fixed bridge frame 2, the manual threading operation is replaced, the cable bridge is more convenient to use, the three-way connecting piece 4 and the four-way connecting piece 9 are fixed on the fixed bridge 2 by utilizing the first clamping plate 32 and the second clamping plate 33 to be matched with the second fixing bolt 34, and the cable bridge is provided with an auxiliary wire feeding structure by utilizing the arrangement of the splicing clamping piece 3, so that the functionality of the cable bridge is improved;

by arranging the first clamping piece 14 and the second clamping piece 19, when a user performs fixing operation on the cable bridge, the user can utilize the lifting clamping seat 30 to be matched with the moving groove 20 to push the first clamping piece 14 and the second clamping piece 19 downwards so as to clamp the fixed bridge 2 at the bottoms of the first clamping piece 14 and the second clamping piece 19, and the first clamping piece 14 and the second clamping piece 19 are locked by utilizing the second fixing bolt 34 so that the fixed bridge 2 is fixed on the first fixing frame 5 and the second fixing frame 8;

through the arrangement of the first rolling rod 36 and the second rolling rod 37, when a user pulls the first fixing frame 5 and the second fixing frame 8 to perform adjustment operation, the friction force between the lifting sleeve plate 16 and the first fixing frame 5 and the second fixing frame 8 can be reduced by using the first rolling rod 36 and the second rolling rod 37, so that the adjustment operation of the first fixing frame 5 and the second fixing frame 8 is smoother.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. Preferred embodiments are not exhaustive of all the details of the embodiments. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A cable bridge based on a hot galvanizing bimetal epoxy resin anticorrosive coating is characterized by comprising a fixed bridge (2), a first fixing frame (5), a second fixing frame (8) and a splicing clamping piece (3), wherein the first fixing frame (5) is fixedly arranged on the outer surface of the fixed bridge (2), the second fixing frame (8) is fixedly arranged on one side, close to the first fixing frame (5), of the outer surface of the fixed bridge (2), a connecting bolt plate (7) is fixedly arranged on the outer surfaces of the top ends of the second fixing frame (8) and the first fixing frame (5), lifting sleeve plates (16) are movably sleeved on the inner surfaces of the side edges of the second fixing frame (8) and the first fixing frame (5), the splicing clamping piece (3) is fixedly sleeved on the inner side of one end of the fixed bridge (2), and middle positions of the inner sides of the bottoms of the second fixing frame (8) and the first fixing frame (5) are movably sleeved with middle sleeve plates (11), and two groups of first backing plates (13) are fixedly arranged on the outer surfaces of the lower parts of the second fixing frame (8) and the first fixing frame (5), the outer surfaces of one sides of the second fixed frame (8) and the first fixed frame (5) are movably provided with a first clamping piece (14), and the outer surfaces of the other sides of the second fixed frame (8) and the first fixed frame (5) are movably provided with a second clamping piece (19), the middle positions of the outer surfaces of the first clamping piece (14) and the second clamping piece (19) are both fixedly provided with a lifting clamping seat (30), the inner surfaces of the side edges of the second fixed frame (8) and the first fixed frame (5) are both provided with a movable groove (20), the second clamping piece (19), the first clamping piece (14) and the moving groove (20) are movably connected through a lifting clamping seat (30), and the inner surfaces of two sides of the lifting clamping seat (30) are provided with butt joint grooves (29).

2. The cable bridge stand based on the hot galvanizing bimetallic epoxy resin anticorrosive coating as claimed in claim 1, wherein the cross sections of the second clamping piece (19) and the first clamping piece (14) are both of an "L" shape, the outer surfaces of the bottoms of the second clamping piece (19) and the first clamping piece (14) are both fixedly provided with a second backing plate (28), and the inner surfaces of the second clamping piece (19) and the first clamping piece (14) are both fixedly sleeved with a first fixing bolt (31) above the lifting clamping seat (30).

3. The cable bridge frame based on the hot galvanizing bimetallic epoxy resin anticorrosive coating as claimed in claim 1, wherein a four-way connector (9) is fixedly installed on an outer surface of one end of the fixed bridge frame (2), a three-way connector (4) is fixedly installed on an outer surface of the other end of the fixed bridge frame (2), threading grooves (1) are respectively formed in inner sides of the fixed bridge frame (2), the three-way connector (4) and the four-way connector (9), the cross section of the four-way connector (9) is of a cross-shaped structure, and the cross section of the three-way connector (4) is of a T-shaped structure.

4. The cable bridge frame based on the hot galvanizing bimetallic epoxy resin anticorrosive coating is characterized in that ports of the fixed bridge frame (2), the three-way connecting piece (4) and the four-way connecting piece (9) are respectively and fixedly provided with a first clamping plate (32) and a second clamping plate (33), the first clamping plate (32) and the second clamping plate (33) are parallel to each other, two groups of second fixing bolts (34) are sleeved on the inner surfaces of the first clamping plate (32) and the second clamping plate (33), the three-way connecting piece (4), the four-way connecting piece (9) and the fixed bridge frame (2) are respectively and fixedly connected through the second fixing bolts (34), and the inner surfaces of the three-way connecting piece (4), the four-way connecting piece (9) and the fixed bridge frame (2) are respectively and fixedly provided with a heat insulation pad (35).

5. The cable bridge stand based on the hot galvanizing bimetal epoxy resin anticorrosive coating of claim 1, it is characterized in that the inner side of the fixed bridge frame (2) is provided with a butt-joint square groove (26) in a penetrating way, the fixed bridge frame (2) and the splicing clamping piece (3) are fixedly connected through a butt square groove (26), the splicing clamping piece (3) comprises a motor (24) and rolling cylinders (25), the motor (24) is fixedly arranged in the splicing clamping piece (3), the rolling cylinders (25) are arranged on one side, close to the motor (24), of the inside of the splicing clamping piece (3), rolling bottom rods (21) are movably arranged on the inner side, close to the lower portions of the rolling cylinders (25), of the motor (24), the splicing plates (27) are fixedly installed on the side edges of the butt-joint square grooves (26), and the butt-joint square grooves (26) are fixedly connected with the splicing plates (27) through clamping grooves.

6. The cable bridge stand based on the hot galvanizing bimetallic epoxy resin anticorrosive coating as claimed in claim 1, wherein the overall structure of the lifting sleeve plate (16) is a cuboid hollow structure, a first rolling rod (36) is movably mounted on an inner surface of one end of the lifting sleeve plate (16), a second rolling rod (37) is movably mounted on one side, close to the first rolling rod (36), of the inner surface of one end of the lifting sleeve plate (16), a push-pull groove (23) is formed in an inner surface of the splicing clamping piece (3), a heat dissipation mesh plate (22) is fixedly mounted on one side, close to the push-pull groove (23), of an outer surface of the splicing clamping piece (3), and two groups of limiting clamping blocks (38) are fixedly mounted on an outer surface of the other end of the lifting sleeve plate (16).

7. The cable bridge stand based on the hot galvanizing bimetallic epoxy resin anticorrosive coating as claimed in claim 6, wherein the second rolling rod (37), the first rolling rod (36) and the lifting sleeve plate (16) are movably connected through a rotating shaft, and a plurality of groups of positioning clamping grooves (17) are formed in inner surfaces of two sides of the lifting sleeve plate (16).

8. The cable bridge stand based on the hot galvanizing bi-metal epoxy resin anticorrosive coating as claimed in claim 1, wherein butt joint clamping pins (15) are movably sleeved on outer surfaces of the first fixing frame (5) and the second fixing frame (8), and two groups of circular notches (18) are formed in the inner side of the upper end of the connecting bolt plate (7) in a penetrating mode.

9. The cable bridge stand based on the hot galvanizing bimetallic epoxy resin anticorrosive coating as claimed in claim 1, wherein the inner surfaces of the two sides of the middle sleeve plate (11) are respectively provided with a connecting chute (12), the inner surfaces of the first fixing frame (5) and the second fixing frame (8) close to the two sides of the middle sleeve plate (11) are respectively movably sleeved with a positioning clamping bolt (10), the upper part of the fixed bridge stand (2) is fixedly provided with a sealing top plate (6), and the outer surfaces of the fixed bridge stand (2), the three-way connecting piece (4) and the four-way connecting piece (9) are respectively coated with the anticorrosive coating.

10. The cable bridge stand based on the hot galvanizing bimetallic epoxy resin anticorrosive coating as claimed in claim 1, wherein the specific using operation steps of the cable bridge stand are as follows:

step one, rotating a positioning clamp bolt (10), loosening a middle sleeve plate (11) in a first fixed frame (5) and a second fixed frame (8), pulling the first fixed frame (5) and the second fixed frame (8) according to the width of a fixed bridge frame (2), so that the middle sleeve plate (11) is pulled out from the first fixed frame (5) and the second fixed frame (8), adjusting the fixed width of the first fixed frame (5) and the second fixed frame (8), locking the middle sleeve plate (11) through the positioning clamp bolt (10), pulling a butt joint clamp pin (15) of the first fixed frame (5) and the second fixed frame (8) out of a positioning clamp groove (17) according to the installation height of the fixed bridge frame (2), pulling the first fixed frame (5) and the second fixed frame (8) downwards, and pulling a lifting sleeve plate (16) out of the first fixed frame (5) and the second fixed frame (8), adjusting the mounting height of the first fixing frame (5) and the second fixing frame (8);

fixing a first fixing frame (5) and a second fixing frame (8) on the roof through bolts by using a connecting bolt plate (7), meanwhile, enabling a fixed bridge (2) to penetrate through the first fixing frame (5) and the second fixing frame (8), pushing a first clamping piece (14) and a second clamping piece (19) downwards by using a lifting clamping seat (30) to match with a moving groove (20), clamping the fixed bridge (2) at the bottoms of the first clamping piece (14) and the second clamping piece (19), and locking the first clamping piece (14) and the second clamping piece (19) by using a second fixing bolt (34) so that the fixed bridge (2) is fixed on the first fixing frame (5) and the second fixing frame (8);

and thirdly, taking down the splicing plates (27) on the fixed bridge frame (2), enabling the splicing clamping pieces (3) to penetrate through the butt square grooves (26) to be fixed on the fixed bridge frame (2), enabling one end of a cable to penetrate between the rolling bottom rod (21) and the rolling cylinders (25), driving the rolling cylinders (25) to rotate by using the motor (24), conveying the cable into the fixed bridge frame (2), and fixing the three-way connecting piece (4) and the four-way connecting piece (9) on the fixed bridge frame (2) by using the first clamping plate (32) and the second clamping plate (33) to be matched with the second fixing bolt (34).