CN118100065A - Anti-slip wire installation device - Google Patents

Abstract

The invention belongs to the technical field of power transmission line installation, and particularly relates to an anti-slip electric wire installation device which comprises a bearing seat and an installation seat device, wherein the top of the bearing seat is provided with a stand column, the stand column is a square hollow tube, the top of the stand column is welded with an installation column, the bottom of the bearing seat is provided with four supporting claws, the installation seat device is sleeved on the installation column, the installation seat device comprises a sleeve barrel and an adjusting turntable, and the left side and the right side of the adjusting turntable are both provided with fixing frames. The middle of the sleeve joint cylinder is vertically through, the sleeve joint cylinder is sleeved on the mounting column, positioning bolts are symmetrically arranged at the top and the bottom of the outer side wall of the sleeve joint cylinder, and four positioning bolts are arranged at any side. The device is a device capable of conveniently installing the electric wire, is usually matched for use, is applied to temporary erection service of conversion, connection and transmission of civil electricity, can achieve better and faster installation effect, and is simple in structure and extremely convenient to maintain and replace.

Description

Anti-slip wire installation device

Technical Field

The invention relates to the technical field of power transmission line installation, in particular to an anti-slip electric wire installation device.

Background

Wires and cables are wires for transmitting electric energy, and can be divided into different types, including bare wires, electromagnetic wires and insulated wires, wherein the bare wires are free of insulating layers, and include copper, aluminum flat wires, overhead stranded wires and various profiles, such as molded lines, buses, copper bars, aluminum bars and the like, and are mainly used for outdoor overhead and indoor bus bars and switch boxes. The electromagnetic wire is an insulated wire which can generate a magnetic field or induce current in the magnetic field after being electrified, is mainly used for windings of motors and transformers and other electromagnetic equipment, and is mainly copper wire, is generally coated with a thin insulating layer, and has good electromechanical properties such as heat resistance, moisture resistance, solvent resistance and the like. The utility model can be divided into high-voltage lines, low-voltage lines, civil power lines, special wires and the like according to the application, and the application range is very popular.

And civil power transmission lines and cables are closely related to the usual life of people. For example, temporary electrical wires and cables are installed at many sites to supply electricity to lodgers and facilities, and these temporary installed electrical wires are removed at the end of the construction period.

The traditional mode is to use bamboo poles or steel pipes to temporarily erect supporting devices, or to tie wires and cables on railings and eave, or to directly drag and place the wires and cables on the ground, so that the supporting devices are very weak, and the temporarily erected supporting devices are also very unsafe. For some thicker cables, the cable is more dangerous to mop, and the service life of the cable for mopping is reduced.

And in the use process of the power transmission line, a certain friction force exists between the outer skin and the wire core of the power transmission line. Especially when the electric wire receives the effect of external force, frictional force between crust and the sinle silk can increase to lead to relative slip, traditional building site electric wire, cable installation device all are hard connection in addition, do not have the relative buffering to electric wire, cable, can desquamation slip at the junction when electric wire, cable appear rocking and friction to gliding sinle silk can extrude each other in inside, can outwards extrude in the crack department that the crust produced, greatly reduced electric wire's life. The traditional civil fixing device is hard-connected, the protection of wires and cables is not enough, the requirements on temporary erection conditions are severe, meanwhile, the traditional wire and cable mounting device lacks flexibility of mounting and dismounting, and therefore, the anti-slip wire mounting device is provided.

Disclosure of Invention

The invention aims to provide an anti-slip wire installation device which solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an electric wire installation device that prevents skidding, includes bearing seat and mount pad device, the top of bearing seat is provided with the stand, the stand is square hollow tube, the top welding of stand has the erection column, the bottom of bearing seat is provided with four supporting claws, the mount pad device has been cup jointed on the erection column, the mount pad device is including cup jointing a section of thick bamboo and adjusting turntable, the left and right sides of adjusting turntable all is provided with the mount.

The middle of the sleeve is vertically through, the sleeve is sleeved on the mounting column, positioning bolts are symmetrically arranged at the top and the bottom of the outer side wall of the sleeve, and four positioning bolts are arranged at any side and are inwards connected to the mounting column in a screwed mode.

The middle part of cup jointing section of thick bamboo is fixed and is provided with two spacing rings, the regulation carousel is including upper and lower two outer regulation dish, moment of torsion sleeve and rotation sleeve, two inwards sunken spacing grooves have been seted up to rotation sleeve's inner chamber.

The rotary sleeve is sleeved on the sleeve through the limiting groove and the limiting ring, and the torque sleeve is fixed on the outer side of the rotary sleeve and synchronously rotates with the rotary sleeve.

The torque sleeve is provided with an upper adjusting disc and a lower adjusting disc, the outer sides of the two torque sleeves are respectively sleeved with an outer adjusting disc, the two outer adjusting discs are vertically opposite, and limit baffles are symmetrically arranged at the opposite ends of the two outer adjusting discs.

And torque springs are sleeved between the torque sleeve and the outer adjusting disc, and the torque springs are connected with the outer adjusting disc. The outer sides of the two outer adjusting plates are provided with butt joint grooves, the outer sides of the two outer adjusting plates are provided with fixing frames extending to the left and right sides, and any side of each fixing frame comprises a transverse frame and a fixing plate.

The one end that outer regulating disk was kept away from to horizontal frame all is provided with the fixed plate, horizontal frame is the U type support body, and the opening of horizontal frame is towards the outside. The front side and the rear side of the transverse frame are respectively composed of four support beams, the fixing plates are inwards abutted against the support beams, fixing plate locking bolts are screwed on the outer sides of the fixing plates, and the fixing plate locking bolts correspond to the support beams and inwards penetrate through the screwed fixing plates to be fixed in the support beams.

The fixing frame is close to the fixed butt joint piece and the bolt piece that are provided with of one end of outer regulating disk, butt joint piece symmetry sets up both ends around the fixing frame, the bolt piece symmetry sets up the intermediate position at the butt joint piece.

And adjusting grooves are reserved between the supporting beams, clamping pieces are movably clamped in the adjusting grooves at the lower part, and the clamping pieces at the front side and the rear side correspond to each other.

The front side and the rear side of the clamping piece are both provided with sliding frames, the sliding frames are C-shaped frames with outward openings, and the sliding frames are outwards in sliding clamping connection on the support beam below.

The bottom of clamping piece all rotates and is connected with the grip ring, the left side of clamping piece is provided with the regulating spindle, and the regulating spindle runs through in proper order and peg graft on clamping piece and grip ring.

The clamping piece is meshed with the bottom of the clamping ring, one end of the clamping piece is provided with a clamping piece locking bolt, and the clamping piece locking bolt is downwards screwed onto the clamping ring.

Preferably, the fixed plate is a rectangular plate body, the middle of the fixed plate is provided with a back-shaped lightening hole, and two sides of the fixed plate are symmetrically provided with round lightening holes.

Preferably, the butt joint groove is a rectangular hole, the butt joint grooves are internally provided with inward concave butt joint holes, the middle two butt joint holes are threaded holes, and the outer two butt joint holes are damping slide holes.

Preferably, the two limiting rings are both outwards protruded, and an installation seam is reserved between the two limiting rings. The limiting grooves are annular grooves, and the two limiting grooves correspond to the two limiting rings respectively.

Preferably, the bolt blocks are all in threaded connection with fixing frame locking bolts, and the fixing frame locking bolts penetrate through the bolt blocks and are in threaded connection inwards. And a butt joint column is arranged on one side of the butt joint block, which is close to the outer adjusting disc.

The butt joint blocks and the bolt blocks are inserted inwards into the butt joint grooves, the butt joint posts are correspondingly inserted into the two butt joint holes at the outer side, and the locking bolts of the fixing frame are screwed inwards into the two butt joint holes in the middle.

Preferably, the top of the sliding frame is provided with sliding frame locking bolts, and each sliding frame locking bolt is provided with three sliding frame locking bolts on any side and downwards penetrates through and is connected to the supporting beam in a threaded manner.

Preferably, the clamping piece locking bolt is an anti-disassembly bolt, two opposite threads are arranged on a bolt body of the clamping piece locking bolt, and simultaneously, a thread cavity is also formed at the connecting position of the clamping piece, the clamping ring and the clamping piece locking bolt, and threads in the thread cavity are also oppositely arranged. The principle of the sliding frame locking bolt, the fixing frame locking bolt and the fixing plate locking bolt is the same as that of the anti-disassembly bolt of the clamping piece locking bolt.

Preferably, the opposite sides of the clamping piece and the clamping ring are provided with anti-slip edges at equal intervals, the anti-slip edges are upwards convex, and inwards concave anti-slip patterns are formed in the tops of the anti-slip edges.

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

The device is a device capable of conveniently installing the electric wire, is usually matched for use, is applied to temporary erection service of conversion, connection and transmission of civil electricity, can achieve better and faster installation effect, and is simple in structure and extremely convenient to maintain and replace.

The adjusting turntable is sleeved on the outer side of the sleeve, the main body of the adjusting turntable can rotate in the direction through the rotating sleeve, the limiting groove on the rotating sleeve is rotationally connected with the limiting ring, the limiting ring protrudes outwards, the rotating sleeve can be limited, and meanwhile the adjusting turntable can rotate under the constraint of the limiting ring.

A torque spring is respectively connected between the two outer adjusting discs and the torque sleeve, and can buffer received force when the power transmission line is stretched, the torque spring can absorb impact, mechanical vibration and noise are reduced, and hard loss between mechanical parts is reduced. The torque springs with different torques can play a role in avoiding the torque value of the cylinder, so that the requirements of different mounting devices are met. When the transmission line is pulled, a large number of rotations and load switching can be completed in a short time. The pulling force to the power transmission line is reduced, the relative acting force between the wire core and the sheath is buffered, and the service life of the power transmission line is prolonged.

Embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

Drawings

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

Fig. 2 is a schematic view of a mount device.

Fig. 3 is an enlarged left side view of fig. 2.

Fig. 4 is an enlarged schematic view of the left side mount of fig. 2.

Fig. 5 is a schematic view of the interfacing of the mount and the adjustment dial.

Fig. 6 is a schematic diagram of the installation of the socket and the adjustment dial.

Fig. 7 is a schematic view of a socket.

Fig. 8 is a bottom view of the adjustment dial.

Fig. 9 is a schematic view of a clamp.

Fig. 10 is a plan cross-sectional view of the clamp lock bolt installation.

Detailed Description

Referring to fig. 1-10, the part names are as follows: a mounting base device 1. The socket sleeve 2, the positioning bolt 21 and the limiting ring 22. The adjusting turntable 3, the outer adjusting disk 31, the torque sleeve 32, the rotating sleeve 33, the limiting groove 34, the abutting groove 35 and the abutting hole 36. Mount 4, mounting plate 41, adjustment slot 42, mounting plate lock bolt 43, mount lock bolt 44, docking block 45, bolt block 46, and transverse frame 47. Clamping piece 5, clamping piece locking bolt 51, clamping ring 52, sliding frame 53, adjusting shaft 54, anti-slip rib 55, fixing nut 56, sliding frame locking bolt 57. Bearing seat 6, stand 61, support claw 62, erection column 63.

Referring to fig. 1-10, an anti-slip wire installation device comprises a bearing seat 6 and an installation seat device 1, wherein a stand column 61 is arranged at the top of the bearing seat 6, the stand column 61 is a square hollow tube, an installation column 63 is welded at the top of the stand column 61, four supporting claws 62 are arranged at the bottom of the bearing seat 6, the installation seat device 1 is sleeved on the installation column 63, the installation seat device 1 comprises a sleeve joint cylinder 2 and an adjusting rotary table 3, and fixing frames 4 are arranged on the left side and the right side of the adjusting rotary table 3.

The middle of the sleeve joint cylinder 2 is vertically through, the sleeve joint cylinder 2 is sleeved on the mounting column 63, the top and the bottom of the outer side wall of the sleeve joint cylinder 2 are symmetrically provided with positioning bolts 21, and four positioning bolts 21 at any side are inwards screwed on the mounting column 63.

Two limiting rings 22 are fixedly arranged in the middle of the sleeve joint cylinder 2, the two limiting rings 22 are outwards protruded, and an installation seam is reserved between the two limiting rings 22.

The adjusting turntable 3 comprises an upper outer adjusting disk 31, a lower outer adjusting disk 31, a torque sleeve 32 and a rotating sleeve 33, wherein two inwards-sunken limit grooves are formed in the inner cavity of the rotating sleeve 33, the limit grooves 34 are annular grooves, and the two limit grooves 34 respectively correspond to the two limit rings 22.

The rotating sleeve 33 is sleeved on the sleeve 2 through the limiting groove 34 and the limiting ring 22, and the torque sleeve 32 is fixed on the outer side of the rotating sleeve 33 and rotates synchronously with the rotating sleeve 33.

The torque sleeve 32 has two upper and lower, and the outside of two torque sleeve 32 has cup jointed outer adjustment dish 31 respectively, and two outer adjustment dish 31 are relative from top to bottom, and are provided with limit baffle at the opposite end symmetry of two outer adjustment dish 31.

Torque springs are sleeved between the torque sleeve 32 and the outer adjusting disc 31, and the torque springs are connected with the outer adjusting disc 31.

The outer sides of the two outer adjusting plates 31 are provided with butt joint grooves 35, the butt joint grooves 35 are rectangular holes, the butt joint grooves 35 are provided with butt joint holes which are concave inwards, the middle two butt joint holes are threaded holes, and the outer sides of the two butt joint holes are damping slide holes.

The outer sides of the two outer regulating plates 31 are provided with fixing frames 4 extending to the left and right sides, and each side fixing frame 4 includes a transverse frame 47 and a fixing plate 41.

The end of the transverse frame 47 far away from the outer adjusting disk 31 is provided with a fixing plate 41, the fixing plate 41 is a rectangular plate body, the middle of the fixing plate 41 is provided with a back-shaped lightening hole, and two sides of the fixing plate 41 are symmetrically provided with round lightening holes.

The transverse frame 47 is a U-shaped frame body, and an opening of the transverse frame 47 faces outward. The front and rear side frames of the transverse frame 47 are each composed of four support beams, the fixing plate 41 is inwardly abutted against the support beams, the fixing plate locking bolts 43 are screwed on the outer sides of the fixing plate 41, the fixing plate locking bolts 43 correspond to the support beams, and the fixing plate locking bolts 43 penetrate through the fixing plate 41 inwardly and are then fixed in the support beams.

The fixed frame 4 is close to outer adjusting disk 3's one end fixedly and is provided with butt joint piece 45 and bolt piece 46, and butt joint piece 45 symmetry sets up at the front and back both ends of fixed frame 4, and bolt piece 46 symmetry sets up the intermediate position at butt joint piece 45.

The bolt blocks 46 are all screwed with the fixing frame locking bolts 44, and the fixing frame locking bolts 44 penetrate through the bolt blocks 46 and are screwed inwards. The side of the butt joint block 45 close to the outer adjusting disk 3 is provided with a butt joint column.

The butt joint block 45 and the bolt block 46 are inserted inwards in the butt joint groove 35, the butt joint posts are correspondingly inserted in the two butt joint holes 36 on the outer side, and the fixing frame locking bolt 44 is screwed inwards in the two butt joint holes 36 in the middle.

An adjusting groove 42 is reserved between the supporting beams, clamping pieces 5 are movably clamped in the lower adjusting groove 42, and the clamping pieces 5 on the front side and the rear side correspond to each other.

The front side and the rear side of the clamping piece 5 are both provided with sliding frames 53, the sliding frames 53 are C-shaped frames with outward openings, and the sliding frames 53 are outwards in sliding clamping connection on the support beam below.

The top of the sliding frame 53 is provided with sliding frame locking bolts 57, and three sliding frame locking bolts 57 on either side are provided and penetrate downwards to be screwed onto the support beam.

The bottom of clamping piece 5 all rotates and is connected with grip ring 52, and the left side of clamping piece 5 is provided with adjusting shaft 54, and adjusting shaft 54 runs through in proper order and peg graft on clamping piece 5 and grip ring 52.

The bottoms of the clamp 5 and the clamp ring 52 are engaged with each other, and one end of the clamp 5 is provided with a clamp lock bolt 51, and the clamp lock bolt 51 is screwed down onto the clamp ring 52.

The clamping piece locking bolt 51 is an anti-disassembly bolt, two opposite threads are arranged on a bolt body of the clamping piece locking bolt 51, meanwhile, a thread cavity is also formed at a position where the clamping piece 5, the clamping ring 52 and the clamping piece locking bolt 51 are connected, and threads in the thread cavity are also oppositely arranged.

The slide frame locking bolt 57, the mount locking bolt 44, and the fixing plate locking bolt 43 are all the same as the principle of the dismounting preventing bolts of the holder locking bolt 51.

The clamping piece 5 is provided with anti-slip edges 55 with the opposite sides of the clamping ring 52 at equal intervals, the anti-slip edges 55 are upwards protruded, inwards concave anti-slip patterns are formed in the tops of the anti-slip edges 55, and the anti-slip edges 55 are abutted to the surface of the power transmission line, so that the power transmission line is clamped tightly and firmly.

The device is a device capable of conveniently installing the electric wire, is usually matched for use, is applied to temporary erection service of conversion, connection and transmission of civil electricity, can achieve better and faster installation effect, and is simple in structure and extremely convenient to maintain and replace.

In a specific installation mode, the device can be in a large part disassembly state or be installed at the top of the installation column 63 after being assembled, and then the device is installed by workers.

When the electric wire erection device is used, the multiple groups of installation devices are matched for use, the electric wires are sequentially arranged along the direction in which the electric wires are required to be erected, the electric wire erection device is used as a temporary electric wire support device, the temporary erection requirement is met, the height of the stand column 61 can be customized and welded according to actual requirements, the area of the bearing seat 6 is correspondingly enlarged, the height of the stand column 61 is 2m-8m, and the electric wire erection requirement in most of construction ground planes can be met.

For example, when the large component is mounted in a detached state, the top of the mounting post 63 is first provided with a fixing hole, and the position of the fixing hole corresponds to the positioning bolt 21. The socket 2 is then socket-connected to the top of the mounting post 63, and the socket 2 is fixed to the top of the mounting post 63 using the positioning bolt 21.

The outside of the sleeve joint section of thick bamboo 2 has cup jointed and has adjusted carousel 3, and the main part of adjusting carousel 3 can rotate the direction through rotating sleeve 33, and the spacing groove 34 on the rotating sleeve 33 rotates with spacing ring 22 to be connected, and spacing ring 22 outwards protrudes, can restrict rotating sleeve 33, can also rotate under the restraint of spacing ring 22 simultaneously.

Two outer adjusting discs 31 which are vertically symmetrical are arranged on the outer side of the adjusting turntable 3, a torque spring is respectively connected between the two outer adjusting discs 31 and the torque sleeve 32, and the torque spring is a spring which can twist and generate a rebound force, converts external force and mechanical energy into elastic energy and generates the rebound force after being released. It is made of two interacting helical springs, so that the upper and lower outer adjustment discs 31 can rotate in limited manner under the action of the torsion springs, which can cushion the forces received when the transmission line is stretched, and the torsion springs can absorb shocks, reduce mechanical shocks and noise, and reduce hard losses between mechanical parts. The torque springs with different torques can play a role in avoiding the torque value of the cylinder, so that the requirements of different mounting devices are met.

When the transmission line is pulled, a large number of rotations and load switching can be completed in a short time. The pulling force to the power transmission line is reduced, the relative acting force between the wire core and the sheath is buffered, and the service life of the power transmission line is prolonged.

The entire rotation of the outer adjustment disk 3 can be accomplished by means of the rotation sleeve 33, while the partial rotation and dampening of the outer adjustment disk 31 can be accomplished by means of torsion springs. Compared with the traditional hard connection, the loss of the transmission line during shaking can be reduced, and the service life is prolonged.

The two sides of the outer adjusting disc 3 are provided with fixing frames 4, the fixing frames 4 are flexibly detachable and are provided with supporting frames, the supporting frames are mainly used for installing power transmission lines, specifically, clamping pieces 5 corresponding to each other in the front and back are arranged in an adjusting groove 42 of the fixing frames 4, and a plurality of groups of clamping pieces 5 are simultaneously arranged for clamping and supporting the power transmission lines.

Firstly, the fixing frame 4 is abutted with the abutting groove 35 through the abutting blocks 45 and the bolt blocks 46, the outer two abutting blocks 45 are provided with abutting columns, the abutting columns are inserted into the corresponding outer abutting grooves 35 and abutting holes 36 inwards, the outer abutting grooves 35 and the abutting holes 36 are damping sliding holes, a certain friction force is achieved, and an auxiliary fixing effect is achieved. The middle bolt block 46 is provided with a fixing frame locking bolt 44, and the fixing frame locking bolt 44 is internally screwed into the middle two butt joint grooves 35 and the threaded holes to finish the butt joint of the fixing frame 4 and the mounting seat device 1, so that the mounting seat device is very convenient to mount and dismount.

The clamping member 5 is slidably mounted in the adjusting groove 42 and is fixed by a sliding frame locking bolt 57 on the sliding frame 53, and the bolt hole is required to be formed in advance on the support beam and is matched with the sliding frame locking bolt 57.

Then, the power transmission line passes through the space between the clamping piece 5 and the clamping ring 52, and then the clamping ring 52 is used for upward rotation to clamp and fix the power transmission line, at the moment, the clamping piece locking bolt 51 is used for downward screwing, the power transmission line is screwed to the bottom of the clamping ring 52, the bottom of the clamping ring 52 is welded with the fixing nut 56, and the clamping piece locking bolt 51 is always screwed to the fixing nut 56. The fixing frame 4 is always kept in a parallel state under the normal pulling and tearing of the power transmission lines of the adjacent mounting posts 63 without intentional interference.

Meanwhile, the clamping piece locking bolt 51 adopts an anti-disassembly structure, two opposite threads are arranged on a bolt body of the clamping piece locking bolt 51, and when the clamping piece locking bolt is in downward threaded connection, a thread cavity is mutually matched with the threads at the lower part of the bolt body, and the clamping piece locking bolt is in normal threaded connection. When the clamp locking bolt 51 is rotated upward, the clamp 5 and the clamp ring 52 are released, and the upper threaded cavity and the lower bolt body threads are opposite, so that the clamp locking bolt 51 can only be kept in a half-out state, but the state does not affect normal use and installation. The semi-taking-out state enables workers not to worry about the falling problem of the bolts during installation and disassembly, and particularly, the bolts are easy to fall during high-altitude operation, pedestrians are easy to be injured after falling, and the using amount of the external screws can be reduced through the arrangement of the anti-disassembly bolts.

Simultaneously, the principle of the sliding frame locking bolt 57, the fixing frame locking bolt 44 and the fixing plate locking bolt 43 in the device is the same as that of the anti-disassembly bolt of the clamping piece locking bolt 51, and positive and negative threads are used for matching, so that the aim of anti-disassembly is fulfilled. The transmission line can be more efficiently installed through the rapid clamping cooperation of the clamping piece 5, and the working time is reduced.

The outer end of the fixing frame 4 is provided with the fixing plate 41, the fixing plate 41 is flexibly installed through the fixing plate locking bolt 43, and when the fixing plate 41 is disassembled, the clamping pieces 5 can be taken out or put in, so that the installation quantity of the clamping pieces 5 can be manually changed.

The above description is only of specific embodiments of the present invention, and the various illustrations do not limit the essential content of the present invention.

Claims (8)

1. The utility model provides an electric wire installation device that prevents skidding, includes bearing seat (6) and mount pad device (1), its characterized in that, the top of bearing seat (6) is provided with stand (61), stand (61) are square hollow tube, the top welding of stand (61) has erection column (63), the bottom of bearing seat (6) is provided with four supporting claws (62), mount pad device (1) have been cup jointed on erection column (63), mount pad device (1) are including cup jointing section of thick bamboo (2) and regulation carousel (3), the left and right sides of regulation carousel (3) all is provided with mount (4);

The middle of the sleeve joint cylinder (2) is vertically through, the sleeve joint cylinder (2) is sleeved on the mounting column (63), positioning bolts (21) are symmetrically arranged at the top and the bottom of the outer side wall of the sleeve joint cylinder (2), and the positioning bolts (21) on any side are four and are inwards screwed on the mounting column (63);

The middle part of the sleeve joint cylinder (2) is fixedly provided with two limiting rings (22), the adjusting turntable (3) comprises an upper outer adjusting disc (31), a lower outer adjusting disc, a torque sleeve (32) and a rotating sleeve (33), and the inner cavity of the rotating sleeve (33) is provided with two inwards-sunken limiting grooves;

the rotating sleeve (33) is sleeved on the sleeve (2) through the limiting groove (34) and the limiting ring (22), and the torque sleeve (32) is fixed on the outer side of the rotating sleeve (33) and rotates synchronously with the rotating sleeve (33);

The torque sleeves (32) are arranged in an upper mode and a lower mode, the outer sides of the two torque sleeves (32) are respectively sleeved with an outer adjusting disc (31), the two outer adjusting discs (31) are opposite from each other in an up-down mode, and limit baffles are symmetrically arranged at opposite ends of the two outer adjusting discs (31);

Torque springs are sleeved between the torque sleeve (32) and the outer adjusting disc (31), and the torque springs are connected with the outer adjusting disc (31) mutually; the outer sides of the two outer adjusting discs (31) are provided with butt joint grooves (35), the outer sides of the two outer adjusting discs (31) are provided with fixing frames (4) extending to the left and the right, and each fixing frame (4) at any side comprises a transverse frame (47) and a fixing plate (41);

One end of the transverse frame (47) far away from the outer adjusting disc (31) is provided with a fixed plate (41), the transverse frame (47) is a U-shaped frame body, and an opening of the transverse frame (47) faces to the outer side; the front side and the rear side of the transverse frame (47) are respectively composed of four support beams, the fixing plate (41) is inwards abutted against the support beams, a fixing plate locking bolt (43) is in threaded connection with the outer side of the fixing plate (41), the fixing plate locking bolt (43) corresponds to the support beams, inwards penetrates through the threaded connection fixing plate (41) and is then fixed in the support beams;

One end of the fixing frame (4) close to the outer adjusting disc (3) is fixedly provided with a butt joint block (45) and a bolt block (46), the butt joint block (45) is symmetrically arranged at the front end and the rear end of the fixing frame (4), and the bolt block (46) is symmetrically arranged at the middle position of the butt joint block (45);

An adjusting groove (42) is reserved between the supporting beams, clamping pieces (5) are movably clamped in the adjusting groove (42) at the lower part, and the clamping pieces (5) at the front side and the rear side correspond to each other;

Sliding frames (53) are arranged on the front side and the rear side of the clamping piece (5), the sliding frames (53) are C-shaped frames with outward openings, and the sliding frames (53) are outwards in sliding clamping connection with the supporting beams below;

The bottom of the clamping piece (5) is rotationally connected with a clamping ring (52), an adjusting shaft (54) is arranged on the left side of the clamping piece (5), and the adjusting shaft (54) sequentially penetrates through and is connected to the clamping piece (5) and the clamping ring (52);

The bottoms of the clamping piece (5) and the clamping ring (52) are meshed with each other, one end of the clamping piece (5) is provided with a clamping piece locking bolt (51), and the clamping piece locking bolt (51) is downwards screwed onto the clamping ring (52).

2. The slip-resistant wire mounting device according to claim 1, wherein: the fixed plate (41) is a rectangular plate body, a return type lightening hole is formed in the middle of the fixed plate (41), and round lightening holes are symmetrically formed in two sides of the fixed plate.

3. The slip-resistant wire mounting device according to claim 1, wherein: the butt joint groove (35) is a rectangular hole, the butt joint grooves (35) are internally provided with inwards concave butt joint holes, the middle two butt joint holes are threaded holes, and the outer two butt joint holes are damping slide holes.

4. The slip-resistant wire mounting device according to claim 1, wherein: the two limiting rings (22) are outwards protruded, and an installation gap is reserved between the two limiting rings (22); the limiting grooves (34) are annular grooves, and the two limiting grooves (34) are respectively corresponding to the two limiting rings (22).

5. The slip-resistant wire mounting device according to claim 1, wherein: the bolt blocks (46) are all in threaded connection with the fixing frame locking bolts (44), and the fixing frame locking bolts (44) penetrate through the bolt blocks (46) and are in threaded connection inwards; a butt joint column is arranged on one side of the butt joint block (45) close to the outer adjusting disc (3); the butt joint blocks (45) and the bolt blocks (46) are inserted inwards into the butt joint grooves (35), meanwhile, the butt joint columns are correspondingly inserted into the two butt joint holes (36) on the outer side, and the fixing frame locking bolts (44) are screwed inwards into the two butt joint holes (36) in the middle.

6. The slip-resistant wire mounting device according to claim 1, wherein: the top of the sliding frame (53) is provided with sliding frame locking bolts (57), and any side of the sliding frame locking bolts (57) is provided with three sliding frame locking bolts and downwards penetrates through and is connected to the supporting beam in a threaded mode.

7. The slip-resistant wire mounting device according to claim 1, wherein: the clamping piece locking bolt (51) is an anti-disassembly bolt, two opposite threads are arranged on a bolt body of the clamping piece locking bolt (51), meanwhile, a thread cavity is formed at a position where the clamping piece (5) and the clamping ring (52) are connected with the clamping piece locking bolt (51), and threads in the thread cavity are also oppositely arranged; the principle of the anti-disassembly bolts of the sliding frame locking bolts (57), the fixing frame locking bolts (44) and the fixing plate locking bolts (43) is the same as that of the clamping piece locking bolts (51).

8. The slip-resistant wire mounting device according to claim 1, wherein: the clamping piece (5) and the opposite side of the clamping ring (52) are equidistantly provided with anti-slip ribs (55), the anti-slip ribs (55) are upwards protruded, and inwards-sunken anti-slip patterns are formed in the tops of the anti-slip ribs (55).