CN220209816U - Internet of things cable traction machine - Google Patents

Abstract

An internet of things cable traction machine belongs to the technical field of traction machines. The frame support pipe is installed on four frame risers by cross joint hasp, go up the frame and receive cable clamping mechanism and install the middle part between four frame risers, the lower frame is installed in the lower extreme of four frame risers, cable clamping mechanism installs on the upper portion of last frame and four frame risers, thing networking motor driver inserts in the shell card notch of group battery, the one end and the thing networking motor driver electricity of motor drive line are connected, the other end and the motor electricity of motor drive line are connected, respectively install a frame vaulting pole on the frame riser of lower frame upper portion, install T pipe clip on the frame vaulting pole. The utility model has the advantages of small volume, simple structure, portability, strong practicability, easy operation, strong function and good mechanical property, is particularly suitable for laying larger and longer cables, simultaneously avoids or reduces the damage to the cables, and prolongs the service life of the cables.

Description

Internet of things cable traction machine

Technical Field

The utility model relates to an Internet of things cable traction machine, and belongs to the technical field of traction machines.

Background

The urban surface is beautified and updated continuously, and the prior overhead cables and communication optical cables are required to be paved into the underground pipe gallery. In order to facilitate construction, the glass fiber tube is paved in advance by a worker usually without being limited by a construction site, and the glass fiber tube is paved by dragging an optical cable or a connecting steel cable with the glass fiber tube. When the cable is larger and longer, drag resistance is larger, and manpower or general tractor power is insufficient. Large traction devices cannot be used due to the limitations of the working environment.

Disclosure of Invention

The utility model aims to solve the problems in the prior art, so that the equipment is miniaturized, has simple structure, wide adaptability, portability, simple operation, powerful function and good mechanical property, is particularly suitable for laying larger and longer cables, and simultaneously avoids or reduces the damage to the cables. If the motor driver of the Internet of things is matched (the patent is in application), a plurality of networking cascading traction cables can be realized, and suburb rate is improved. The service life of the cable is prolonged. Further provides an Internet of things cable traction machine.

The utility model aims at realizing the following technical scheme:

an internet of things cable hauler, comprising: the device comprises an Internet of things motor driver, a battery pack, a motor, an upper frame, a lower frame, a crawler belt, frame supporting pipes, a cross joint lock catch, four frame vertical pipes, a cable clamping mechanism, a T-shaped pipe clamp, frame supporting rods and motor driving wires; four frame risers are rectangular distribution, a serial communication port, the frame support pipe receives the cross joint hasp to install on four frame risers, go up the frame and receive cable clamping mechanism and install in four frame riser's middle part, the motor is installed in last frame, lower frame is installed in four frame riser's lower part, install the track in last, install on four frame risers on last frame upper portion in lower frame, the thing networking motor drive inserts in the notch of group battery shell, motor drive line on the motor is inserted thing networking motor drive delivery outlet connection, frame riser department mountable T type pipe clamp between last, lower frame is detained and is connected frame vaulting pole.

The utility model has the following advantages:

the internet of things cable traction machine is small in size, simple in structure, convenient to carry, high in practicality, easy to operate, powerful in function and good in mechanical performance, is particularly suitable for laying larger and longer cables, and meanwhile avoids or reduces damage to the cables. The service life of the cable is prolonged. According to the utility model, if the intelligent motor drive controller is formed by the Internet of things, a plurality of networking cascading traction cables can be realized.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the internet of things cable traction machine of the utility model.

Fig. 2 is a schematic diagram of a structure of an opening of a lower frame of the internet of things cable traction machine according to the present utility model.

Fig. 3 is a schematic diagram of the cable riding structure of the internet of things cable tractor of the present utility model.

Fig. 4 is a schematic diagram of a lower frame of the internet of things cable traction machine according to the present utility model.

Fig. 5 is a schematic structural view of a cross joint shackle.

Fig. 6 is a schematic view of the opened state of the cross joint shackle.

Fig. 7 is a schematic perspective view of the cable-gripping mechanism.

Fig. 8 is a schematic plan view of the cable clamping mechanism.

Fig. 9 is a top view of the upper frame.

Fig. 10 is a front view of the upper frame.

Fig. 11 is a rear view of the upper frame.

Fig. 12 is an internal structural view of the upper frame.

Fig. 13 is a top view of the lower frame.

Fig. 14 is a front view of the lower frame.

Fig. 15 is a rear view of the lower frame.

Fig. 16 is a side view of the lower frame.

Fig. 17 is a perspective view of the lower frame.

Fig. 18 is a perspective view of a cable tray guide pulley.

Fig. 19 is a front view of a cable tray guide.

Fig. 20 is a schematic view of the external structure of the motor.

Fig. 21 is a schematic view of the structure of the rear view of the motor.

Fig. 22 is a schematic sectional structure of the motor.

Fig. 23 is a front view of a tee clip.

Fig. 24 is a top view of a tee clip.

Fig. 25 is a perspective view of a tee clip.

Fig. 26 is a perspective view of a T-shaped tube clamp.

Fig. 27 is a side view of a T-shaped tube clamp.

Fig. 28 is a schematic view of a locking state of the latch hook.

Fig. 29 is a schematic view of the latch hook in an opened state.

Fig. 30 is an exploded view of the track.

Fig. 31 is a schematic overall structure (dual motor) of embodiment 2.

Fig. 32 is a schematic view of a use scenario (square wellhead, wired pipe).

Fig. 33 is a schematic view of a usage scenario (square wellhead).

Fig. 34 is a schematic view of a use scenario (round wellhead).

Detailed Description

The utility model will be described in further detail with reference to the accompanying drawings: the present embodiment is implemented on the premise of the technical solution of the present utility model, and a detailed implementation is given, but the scope of protection of the present utility model is not limited to the following embodiments.

Example 1

As shown in fig. 1 to 30, an internet of things cable traction machine of the present embodiment includes: the device comprises an Internet of things motor driver 1, a battery pack 2, a motor 3, an upper frame 4, a lower frame 5, a crawler belt 6, a frame supporting pipe 7, four frame vertical pipes 8, a cross joint lock catch 9, a cable clamping mechanism 10, a T-shaped pipe clamp 11, a cable bracket guide wheel 12, a frame supporting rod 13 and a motor driving wire 31; four frame risers 8 are rectangular distribution, frame support pipe 7 receives the cross joint hasp to install in the upper portion of four frame risers 8, go up frame 4 and receive cable clamping mechanism and install in the middle part of four frame risers 8, motor 3 installs in last frame 4, lower frame 5 is installed in the lower part of four frame risers 8, go up, install track 6 in the lower frame, cable clamping mechanism 10 installs on four frame risers 8 on upper portion of frame 4, thing networking motor drive 1 inserts in the shell draw-in groove mouth of group battery 2, motor drive line 31 on the motor 3 inserts thing networking motor drive 1, with thing networking motor drive 1 interface connection, receive T type pipe clamp 11 connection on two frame risers 8 of lower frame 5 upper portion one side, respectively install a frame vaulting pole 13.

The cross joint lock catch 9 comprises a base 9A, a curved buckle 9B, a glans closing buckle 9C, U, a buckling connecting rod 9D, a curved buckle handle 9E, a curved buckle shaft pin 9F and an elbow shaft bolt 9H, wherein the curved buckle shaft pin 9F is arranged at one end of the curved buckle handle 9E, two rod ends of the U-shaped buckle connecting rod 9D are provided with threads and are respectively connected with the curved buckle shaft pin 9F through nuts, the bottom end of the U-shaped buckle connecting rod 9D is a buckle position 9D1, one end of the glans closing buckle 9C is in rotary connection with the curved buckle handle 9E through the elbow shaft bolt 9H, the other end of the glans closing buckle 9C is in rotary connection with one end of the base 9A, the glans closing buckle 9C and the base 9A form a frame support pipe opening 9J, one end of the curved buckle 9B is in rotary connection with one end of the base 9A, the frame vertical pipe opening 9L is formed between the curved buckle 9B and the base 9A, the other end of the glans closing buckle 9B is provided with a buckle position 9B1, and the glans closing buckle position 9D1 is matched with the pipe opening 9D 1. The length of the U-shaped buckle connecting rod 9D is adjusted by a nut 9G. So that the frame support pipe can be fixed at any empty position on the frame vertical pipe to match with the traction operation of the cable in the pipe well.

The cable clamping mechanism 10 comprises a cake bolt 10A, H-shaped bent rod supporting plate 10B, four bent rods 10C, a swinging bolt 10D, a bolt sliding bearing 10E, a supporting rod bolt 10F, a bolt 10G and a clamp spring 10H, wherein every two bent rods 10C are arranged in parallel, the outer ends of every two bent rods 10C are rotatably connected to a stand pipe through the bolt 10G, the inner ends of every two bent rods 10C are connected to an H-shaped bent rod supporting plate notch through the swinging bolt 10D, the two ends of the swinging bolt 10D are respectively provided with the bolt sliding bearing 10E, the middle inflection points of every two bent rods 10C are respectively connected to long holes in the upper part of an upper frame through the supporting rod bolt 10F, the two ends of the supporting rod 10F are respectively provided with the bolt sliding bearing 10E, the outer ends of every two bent rods 10C are rotatably connected with the stand pipe 8 on the same side through the bolt 10G, the outer ends of the bolt 10G are respectively provided with the clamp spring 10H, the two cake bolt supporting plate 10B are respectively connected with the two cake bolt supporting plate 10B2, the two cake bolt supporting plate B are respectively provided with the two cake bolt supporting plate 10B, and the two cake bolt supporting plate 10B are respectively connected with the two cake bolt supporting plate 10B 2B, and the cake bolt supporting plate 10B is respectively provided with the cake bolt sliding bearing 10B, and the cake bolt 10B is respectively connected with the cake bolt 10B. The rotation of cake head bolt makes the machine frame slide from top to bottom in the frame standpipe to centre gripping cable.

The upper frame 4 comprises a frame upper front wall 4A, a frame upper rear wall 4B, U type frame plate 4C, four sleeve seats 4D, guide rails 4F, a flange seat 4H, a cake cover 4M, a crawler belt 6 and a sprocket 6C, wherein the frame upper front wall 4A and the frame upper rear wall 4B are mutually parallel, the U-shaped frame plate 4C is arranged on the upper part between the frame upper front wall 4A and the frame upper rear wall 4B, a long hole 4G is formed on each side of the upper parts of the frame upper front wall 4A and the frame upper rear wall 4B, a bolt sliding bearing 10E is in rolling connection with the long hole 4G, the flange seat 4H and the cake cover 4M are arranged in the middle position of the top of the U-shaped frame plate 4C and are used for being connected with the cake head 10A1, two sleeve seats 4D are arranged on the outer wall of the frame upper front wall 4A, two sleeve seats 4D are arranged on the outer wall of the frame upper rear wall 4B, the four seats 4D are respectively connected with four stand 8 motor vertical pipes 8 in a sliding manner, a driving pulley 4F is arranged on the frame upper wall 4F and the guide rails 4F are arranged on the other side of the frame front wall 4B, a driving pulley 4F is arranged on the guide rails 4F, the guide rails 4F is arranged on the guide rails 4F, the guide rails 4F are arranged on the guide rails 4F, and the guide rails 4F are arranged on the front rails 4F, and the guide rails 4F are arranged on the front and the front rails 4F, the front and the guide rails 4F are arranged. So that the double-row large rollers of the crawler belt roll on the guide rail in parallel and balance the full-force clamping cable transmission.

The lower frame 5 comprises a folding hook 5A, a combining seat 5B, a bolt 5C, a seat hook 5D, a front plate 5E, a rear plate 5F, a bottom plate 5H, a guide rail 4F and a track 6, wherein the front plate 5E and the rear plate 5F are mutually arranged in parallel, the bottom plate 5H is arranged at the lower part between the front plate 5E and the rear plate 5F, truss guide rails 4F are arranged at the upper parts of the front plate 5E and the rear plate 5F, double-row large rollers 6D of the track roll on the guide rails 4F, two chain gears (not shown in the figure) are arranged between the front plate 5E and the rear plate 5F at two ends of the guide rail 4F, the track 6 is in transmission connection between the two chain gears, one combining seat 5B is arranged at each side of two sides on the outer wall of the front plate 5E, one seat hook 5D is arranged at each side on the outer wall of the rear plate 5F, one folding hook 5A is arranged on the outer wall of the rear plate 5F between the two seat hooks 5D, and the two frames are connected with the two vertical pipes at the two sides of the two frames 8.

The cable bracket guide wheel 12 comprises four wheels 12A, two double-fork arms 12B, two cable clamps 12C and a cable support 12D, wherein the cable support 12D is arranged between the two cable clamps 12C, one end of the cable support 12D is hinged with one cable clamp 12C, the other end of the cable support 12D is hinged with the other cable clamp 12C, the cable clamps are provided with wire binding openings, each cable clamp 12C is hinged with one double-fork arm 12B, and each double-fork arm 12B is provided with two wheels 12A. The cable tray guide 12 functions to reduce or eliminate the effects of the pipe joints as the cable advances in the pipe rack. Serving to avoid some obstructions or to reduce friction of the cable in the tube lane. Better and faster for the tractor to push or pull the cable forward.

The motor 3 comprises a hollow double-chain gear shell 3A, a motor body 3C, a first bearing 3D1, a second bearing 3D2, a second planet carrier 3E, a second planet gear 3E1, a second annular gear 3F, a clamp spring 3G, a motor rear cover 3H, a locking bolt 3I, a first annular gear 3J, a first annular gear three-post 3J1, a first planet carrier 3M, a first planet gear 3N, a motor front cover 3K, a three-post bayonet 3P, a first spacer 3R, a motor shaft 3C1, an oil-proof ring 3S, a second spacer 3T, a screw 3L and a bolt 3W, wherein the hollow double-chain gear shell 3A is fixed on the second annular gear 3F of the motor reducer by the locking bolt 3I, driving sprockets 32 are arranged at two ends of the hollow double-chain gear shell 3A, a motor front cover 3K is arranged at the front part of the motor body 3C, a motor rear cover 3H is arranged at the rear part of the motor body 3C, a motor driving wire outlet 3B is formed in the motor rear cover 3H, a bearing first installation position 3Z of a bearing first 3D1 is arranged between the motor rear cover 3H and a hollow double-chain gear shell 3A, a first-stage annular gear 3J is arranged at the outer side of the motor front cover 3K, a first-stage annular gear three-post 3J1 is arranged on the first-stage annular gear 3J and is used for being connected with a second-stage planet carrier 3E, a bearing second 3D2 is arranged on one side of the first-stage annular gear 3J and one side of the second-stage annular gear 3F, a second-stage planet gear 3E1 is arranged in the second-stage annular gear 3F, and the motor rear cover 3H and the second-stage planet carrier 3E are respectively used for being connected with a front wall 4A of a frame and a rear wall 4B of the frame; a motor front cover 3K is installed at the front part of a motor body 3C, a motor rear cover 3H is installed at the rear part of the motor body 3C, a primary annular gear 3J is installed at the outer side of the motor front cover 3K, a primary spacer 3R, a secondary spacer 3T and an oil-proof ring 3S are installed in the primary annular gear 3J before installation, the primary spacer 3R, the secondary spacer 3T and the oil-proof ring 3S can be in engagement with the motor front cover 3K by four screws 3L, the motor rear cover 3H is locked on a flange of the primary annular gear 3J through the motor body 3C and the motor front cover 3K from the motor rear cover 3H, an upper bearing two 3D2 is installed, a primary planetary gear 3N installed on the primary planetary carrier 3M is installed in the primary annular gear 3J together, a secondary planetary gear 3E1 is installed on the primary planetary carrier 3M, a primary spacer 3R and a secondary spacer 3T are installed, the installed secondary planetary gear 3E1 and a secondary annular gear 3F is locked and fixed by bolts 3W corresponding to a primary annular gear three-post 3J1 flange, a double-side annular gear 3W is placed in a hollow gear carrier 3A and a double-side gear 3B is arranged in a hollow gear carrier 3A and a hollow gear 3F, and a double-side gear 3F is arranged in a hollow carrier 3F, and a double-side gear carrier 3F is arranged in a hollow carrier 3F is arranged, and a double-side gear 3F is arranged in a hollow carrier 3F is arranged, and a hollow carrier 3A is arranged in a hollow carrier 3A and a hollow carrier 3A is arranged. The motor is rotated and is fixed on the inner wall of the double-sprocket shell by the second-stage annular gear 3F of the speed reducer so as to drive the crawler belt to run.

The T-shaped pipe clamp 11 comprises a T-shaped pipe clamp 11A, a clamp handle 11B and a clamp bolt 11C, the T-shaped pipe clamp 11A and the clamp handle 11B are hinged through the clamp bolt 11C, the clamp bolt 11C consists of a clamp bolt male 11C1 and a clamp bolt female 11C2, one side of the T-shaped pipe clamp 11A is a pipe clamp supporting opening 11D, a pipe clamp straight opening 11E is perpendicular to the pipe clamp supporting opening 11D, a first bolt hole 11A4 is formed in the T-shaped pipe clamp 11A, a second bolt hole 11B1 is formed in the clamp handle 11B and is used for allowing the clamp bolt 11C to penetrate through, and a T-shaped pipe clamp spiral curved surface 11A1, a T-shaped pipe clamp spiral top plane 11A2 and a T-shaped pipe clamp spiral bottom plane 11A3 are arranged on the outer surface of the T-shaped pipe clamp 11A around the first bolt hole 11A 4. The T-shaped pipe clamping opening is opened or closed by rotating the clamping handle.

A latch hook 8A is arranged at each lower end of the stand pipes 8 at one side of two long sides, the latch hook 8A comprises a first hanger 8C3, a latch hook base 8G1, a latch hook 8G2, an opening spring 8G3, an upper movable pin 8G4, a lower movable pin 8G4a, a closing spring 8G5, a bolt 8G6, a base plate 8G7, a shaft bolt 8G8, a second hanger 8G9, a connector 8G1b, a column 8G1d, a latch bolt 8H and a nut 8I, the connector 8G1b is fixed at the lower end of the stand pipes 8, the upper end of the latch hook base 8G1 is fixedly connected with the lower end of the connector 8G1b, one side of the upper end of the connector 8G1b is fixedly provided with the column 8G1d, two ends of the latch bolt 8H are respectively inserted into the two stand pipes 8 at one side of the long sides, the upper movable pin 8G4 is in sliding connection with one end of the latch bolt 8H, the upper end of the upper movable pin 8G4 is rotatably connected with a nut 8I, a base plate 8G7 is arranged in a rack vertical pipe 8 at the upper part of the connector 8G1b, the base plate 8G7 is fixedly connected with a column 8G1d through a bolt 8G6, a latch hook head 8G2 is hinged with a latch hook base head 8G1 through a shaft bolt 8G8, a first hanger 8C3 is fixed on the outer wall of the rack vertical pipe 8, a second hanger 8G9 is fixed on the outer side of the latch hook head 8G2, one end of the opening spring 8G3 is connected with the first hanger 8C3, the other end of the opening spring 8G3 is connected with the second hanger 8G9, the upper end of the closing spring 8G5 is connected with the lower end of the upper movable pin 8G4, the lower end of the closing spring 8G5 is connected with the upper end of the lower movable pin 8G4a, the lower end of the lower movable pin 8G4a is in top connection with the upper end of the latch hook head 8G2, and the two latch hooks 8A are used for being connected with the lower frame 5. The opening of the lock hook is enabled by the upward movement of the movable pin to enable the lower machine frame to fall down and rotate to be opened.

The crawler belt 6 comprises an arc opening block type rubber 6A, a double-embedded hinge 6B, a large roller chain wheel 6D, double-chain shafts 6E, chain connecting plates 6F and clamp springs 6G, wherein two embedded heads 6A2 are arranged on the bottom surface of the arc opening block type rubber 6A, a symmetrical first wing edge opening 6A1 and a symmetrical second wing edge opening 6A3 are respectively arranged on two sides of the bottom surface of the arc opening block type rubber 6A, an arc opening 6A4 is arranged on the top surface of the arc opening block type rubber 6A, two embedded heads 6B2 are arranged on the main body plane of the double-embedded hinge 6B, the two embedded heads 6A2 are respectively matched with the two embedded heads 6B2, one side of the double-embedded hinge 6B is provided with a first wing edge chain shaft hole 6B1, the other side of the double-embedded hinge 6B is provided with a second wing edge chain shaft hole 6B5, the lower part of the double-embedded hinge 6B is symmetrically provided with a first wing edge opening 6B3 and a second wing edge opening 6A3, two inner side edge shaft holes 6B5 are respectively provided with a first double-chain shaft 6E, and two chain connecting plates 6F are respectively arranged on one side of the double-chain shaft 6B are respectively matched with the two chain connecting plates 6F, and each double-chain shaft 6F is provided with two double-chain connecting plates 6F are arranged on one side chain shaft 6F. The large roller chain wheels roll on the guide rail in parallel so that the forces of clamping cables of the arc-shaped block rubber on the double-embedded hinge are balanced.

Example 2

As shown in fig. 31, in the present embodiment, two motors 3 are used, and the other motor 3 is mounted in the lower frame 5, and the specific structure is shown in fig. 12 to 17 and fig. 20 to 22. The internet of things motor driver 1 and the battery pack 2 are electrically connected with the two motors 3 respectively through motor drive lines 31.

The above embodiment of the present utility model has the following features:

1. the integrated design of the double-chain gear shell hollow embedded motor assembly can be directly installed in a transmission frame, so that the volume of the equipment is reduced.

2. A large-small two-stage transformation planetary reducer and a motor are integrated to form a motor assembly, so that the motor drives the double-chain gear shell to rotate.

3. The truss type guide rails on the two walls of the machine frame enable the balance of the double-roller crawler clamping cables to be better, the traction force is maximized, and the size of the equipment is reduced.

4. The embedded arc rubber blocks of the blinds enable the cable clamping surface to be maximum, the track traction force is directly transferred to the cable, and the power loss is reduced.

5. The W-shaped wire clamping mechanism formed by the double L-shaped bent toggle rods and the H-shaped bent rod supporting plates is rotationally adjusted by the cake screw bolts, the distance between the H-shaped bent rod supporting plates and the upper frame is changed, the W-shaped wire clamping mechanism is changed into a U shape, and the upper frame is connected to the upper frame by the middle inflection point elbow holes of the L-shaped bent toggle rods, so that the upper frame slides downwards. The operation is simple.

6. The arrangement of the lock catch and the unlock in the lock hook assembly is convenient for the tractor to clamp the cable and take out the tractor.

7. The application of the cross joint lock catch solves the installation and retention operation of the frame supporting pipe at any empty position on the frame vertical pipe, so that the frame supporting pipe of the tractor is directly supported at two sides of a wire pipe hole in a pipe well, and the side reaction force of the frame vertical pipe and the use of a supporting rod are reduced.

8. The T-shaped clip is used for solving the problem that the tractor needs to be locked after the extension of the extension pipe in the erection of the deep pipe underground pipeline and the frame supporting pipe.

9. The application of the cable guide wheel solves the problem that the cable is blocked by the barrier when pushed by the tractor in the pipe well pipeline, reduces the friction of the cable in the pipe well pipeline, and improves the suburb ratio of the traction.

10. The application of the stay bars solves the problem of supporting the tractor in the deep pipe underground pipeline. The side reaction force of the stand pipe of the frame is reduced.

11. The application of the double motors aims at solving the problem that the installation hole site specification of the sprocket wheel installation part of the lower frame needs to be replaced when the tractor is suitable for pulling a larger cable. To match the motor installation.

In the foregoing, the present utility model is merely preferred embodiments, which are based on different implementations of the overall concept of the utility model, and the protection scope of the utility model is not limited thereto, and any changes or substitutions easily come within the technical scope of the present utility model as those skilled in the art should not fall within the protection scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

Claims (10)

1. An internet of things cable hauler, comprising: the device comprises an Internet of things motor driver, a battery pack, a motor, an upper frame, a lower frame, a crawler belt, frame supporting pipes, four frame vertical pipes, a cross joint lock catch, a cable clamping mechanism, a T-shaped pipe clamp catch, a cable bracket guide wheel, frame supporting rods and motor driving wires; four frame risers are rectangular distribution, a serial communication port, the frame support pipe receives the cross joint hasp to install in the upper portion of four frame risers, go up the frame and receive cable clamping mechanism and install in the middle part of four frame risers, the motor is installed in last frame, the lower frame is installed in the lower part of four frame risers, go up, install the track in the lower frame, cable clamping mechanism installs on four frame risers on last frame upper portion, the thing networking motor drive ware inserts in the shell notch of group battery, motor drive line on the motor inserts thing networking motor drive ware, with thing networking motor drive ware interface connection, receive T type pipe clamp knot to be connected on two frame risers of lower frame upper portion one side, respectively install a frame vaulting pole.

2. The internet of things cable traction machine according to claim 1, wherein the frame supporting pipe and the frame vertical pipe are connected by a cross joint lock catch, the cross joint lock catch comprises a base, a curved buckle, a glans closing buckle, a U-shaped buckle connecting rod, a curved buckle handle, a curved buckle shaft pin and an elbow shaft pin, the curved buckle shaft pin is arranged at one end of the curved buckle handle, two rod ends of the U-shaped buckle connecting rod are provided with threads and are respectively connected with the curved buckle shaft pin by nuts, the bottom end of the U-shaped buckle connecting rod is a buckle position, one end of the glans closing buckle is rotationally connected with the curved buckle handle by the elbow shaft pin, the other end of the glans closing buckle is rotationally connected with one end of the base, the frame supporting pipe clamp opening is formed between the glans closing buckle and the base, one end of the curved buckle is rotationally connected with one end of the base, the frame pipe clamp opening is formed between the curved buckle and the base, the two are in a cross state, the other end of the curved buckle is provided with a buckle opening, and the buckle opening is matched with the buckle position.

3. The internet of things cable traction machine according to claim 1, wherein the cable clamping mechanism comprises a cake bolt, an H-shaped bent rod supporting plate, four bent toggle rods, a swinging bolt, a bolt sliding bearing, a supporting rod bolt, a bolt rod and a clamp spring, wherein every two bent toggle rods are arranged in parallel, the outer ends of every two bent toggle rods are rotatably connected to a stand upright tube through the bolt rod, the inner ends of every two bent toggle rods are connected to the notch of the H-shaped bent rod supporting plate through the swinging bolt, the two ends of the swinging bolt are respectively provided with the bolt sliding bearing, the middle inflection point of every two bent toggle rods are respectively connected to a long hole in the upper part of the upper frame through the supporting rod bolt, the two ends of the supporting rod bolt are respectively provided with the bolt sliding bearing, the outer ends of every two bent toggle rods are respectively connected with the stand upright tube on the same side through the bolt rod in a rotating mode, the two sides of the H-shaped bent rod supporting plate are respectively provided with the notch, the sliding bearing on the two sides of each bent toggle rod supporting rod end is respectively connected with the notch of the H-shaped bent rod supporting plate, and the cake bolt is connected with the cake bolt.

4. The internet of things cable traction machine according to claim 1, wherein the upper frame comprises an upper frame front wall, an upper frame rear wall, a U-shaped frame plate, four sleeve seats, guide rails, a flange seat, a cake cover, a crawler belt and a sprocket, wherein the upper frame front wall and the upper frame rear wall are arranged in parallel, the U-shaped frame plate is arranged on the upper part between the upper frame front wall and the upper frame rear wall, a long hole is formed on each side of the upper part of the upper frame front wall and the upper frame rear wall, a bolt sliding bearing is in rolling connection with the long hole, a flange seat and a cake cover are arranged in the middle position of the top of the U-shaped frame plate and are connected with cake heads for cake bolts in the flange seat, two sleeve seats are arranged on the outer wall of the upper frame front wall, two sleeve seats are arranged on the outer wall of the upper frame rear wall and are respectively in one-to-one sliding connection with the four frames, truss type guide rails are arranged on the inner walls of the upper frame front wall and the upper frame rear wall, a large roller is arranged on the large roller on the upper frame, a driving pulley is arranged between the upper frame front wall and the sprocket on the upper frame rear wall, and the crawler belt is arranged on the driving pulley is arranged on the other side of the upper frame, and the driving pulley is arranged between the upper frame front wall and the sprocket is arranged on the driving pulley.

5. The internet of things cable traction machine according to claim 1, wherein the lower frame comprises a folding hook, a combining seat, a pin, a seat hook, a front plate, a rear plate, a bottom plate, guide rails and a track, wherein the front plate and the rear plate are arranged in parallel, the bottom plate is arranged at the lower part between the front plate and the rear plate, truss type guide rails are arranged at the upper parts of the front plate and the rear plate, double-row large rollers of the track roll on the guide rails, two chain gears are arranged between the front plate and the rear plate at two ends of the guide rails, the track is in transmission connection between the two chain gears, one combining seat is arranged at each side of two sides on the outer wall of the front plate, the pin is arranged in the combining seat, one seat hook is arranged at each side of two sides on the outer wall of the rear plate, one folding hook is arranged on the outer wall of the rear plate between the two seat hooks, and the two combining seats and the two seat hooks are all used for being connected with the lower ends of four stand pipes.

6. The internet of things cable traction machine as in claim 1, wherein the cable bracket guide wheel comprises four wheels, two double-fork arms, two cable clamps and a cable support, wherein the cable support is arranged between the two cable clamps, two ends of the cable support are hinged with one cable clamp respectively, the cable clamps are provided with a wire tying opening, each cable clamp is hinged with one double-fork arm, and each double-fork arm is provided with two wheels.

7. The internet of things cable traction machine according to claim 1 or 4, wherein the motor comprises a hollow double-sprocket housing, a motor body, a first bearing, a second planet carrier, a second planet gear, a second ring gear, a snap spring, a motor rear cover, a locking bolt, a first ring gear three-post, a first planet carrier, a first planet gear, a motor front cover, a three-post bayonet, a first spacer, a motor shaft, an oil-proof ring, a second spacer, a screw and a bolt, driving sprockets are arranged at two ends of the hollow double-sprocket housing, the hollow double-sprocket housing is fixed on the second ring gear of the motor reducer by the locking bolt, the motor front cover is mounted at the front part of the motor body, the motor rear cover is provided with a motor driving wire outlet and a snap spring notch, a first bearing mounting position provided between the motor rear cover and the hollow double-sprocket housing is fixed on the motor rear cover by the snap spring, the outer side of the motor front cover is provided with a first-stage inner gear ring, a first-stage spacer and an oil-proof ring are arranged between the first-stage inner gear ring and the second-stage inner gear ring, the first-stage spacer, the second-stage spacer and the oil-proof ring are arranged in the first-stage inner gear ring before being arranged, the first-stage spacer, the second-stage spacer and the oil-proof ring are fixed by four screws and are locked on a flange of the first-stage inner gear ring through a motor body and the motor front cover from the motor rear cover, a bearing II is arranged on one side of the first-stage inner gear ring and one side of the second-stage inner gear ring, a first-stage planet carrier containing second-stage solar gears and first-stage planet gears are arranged in the first-stage inner gear ring, the second-stage spacer is arranged in a third post of the first-stage inner gear ring, a second-stage planet carrier embedding opening of the second-stage inner gear ring and the third post are correspondingly connected by bolts and locked and fixed in a hollow double-chain gear shell, and the bearing I is arranged, the jump ring card covers the jump ring notch behind the motor, and motor back cover and second grade planet carrier are used for being connected with preceding wall and the back wall on the frame respectively for the motor rotates and is fixed the driving sprocket drive track operation that is equipped with at hollow double-chain gear shell inner wall by reduction gear second grade ring gear.

8. The internet of things cable traction machine as in claim 1, wherein the tee pipe clip comprises a tee pipe clip, a clip handle and a clip bolt, the tee pipe clip and the clip handle are hinged through the clip bolt, the clip bolt comprises a clip bolt male and a clip bolt female, one side of the tee pipe clip is a pipe clip support opening, the pipe clip is vertical to the pipe clip support opening and is provided with a first bolt hole, a second bolt hole is arranged on the clip handle and is used for the clip bolt to pass through, and a tee pipe clip spiral curved surface, a tee pipe clip spiral top plane and a tee pipe clip spiral bottom plane are arranged on the outer surface of the tee pipe clip around the first bolt hole.

9. The internet of things cable traction machine according to claim 1, wherein one latch hook is mounted at each lower end of two rack risers at one side of the long side, the latch hook comprises a first hanger, a latch hook base, a latch hook head, an opening spring, an upper movable pin, a lower movable pin, a closing spring, a bolt, a base plate, a shaft bolt, a second hanger, a connector, a column, a latch bolt and a nut, the connector is fixed at the lower end in the rack riser, the upper end of the latch hook base is fixedly connected with the lower end of the connector, a column is fixed at one side of the upper end of the connector, two ends of the latch bolt are respectively inserted into two rack risers at one side of the long side, the upper movable pin is slidably connected with one end of the latch bolt, the nut is rotatably connected at the upper end of the upper movable pin, the base plate is arranged in the rack riser at the upper part of the connector, the latch hook head is fixedly connected with the column by a bolt, the first hanger is hinged with the latch hook base by the shaft bolt, the outer wall of the rack is fixedly provided with the first hanger, one end of the latch hook, one end of the opening spring is fixedly connected with the first hanger, the other end of the latch hook is connected with the first hanger, the other end of the opening spring is fixedly connected with the lower end of the latch hook, the upper end of the latch hook is connected with the upper end of the latch hook, and lower end of the latch hook is connected with the upper end of the latch hook.

10. The internet of things cable traction machine according to claim 1, 4 or 5, wherein the crawler belt comprises a cambered block type rubber, a double-embedded hinge, a large roller chain wheel, a double-chain shaft, a chain connecting plate and a clamp spring, two embedded heads are arranged on the bottom surface of the cambered block type rubber, a symmetrical first wing edge opening and a symmetrical second wing edge opening are respectively arranged on two sides of the bottom surface of the cambered block type rubber, a cambered opening is arranged on the top surface of the cambered block type rubber, two embedded heads are arranged on the main body plane of the double-embedded hinge and are matched with the two embedded openings respectively, a first wing edge chain shaft hole is arranged on one side of the double-embedded hinge, a second wing edge chain shaft hole is arranged on the other side of the double-embedded hinge, a first wing edge embedded shaft hole and a second wing embedded shaft Kong Erna are symmetrically arranged on the lower portion of the double-embedded hinge, a chain connecting plate is arranged on two ends of the two double-chain shaft, the clamp spring is arranged on the shaft head of the double-chain shaft at the outer end of the chain connecting plate, and a large roller is arranged in each chain connecting plate.