CN117317901B - Weak current engineering line wiring auxiliary equipment and use method thereof - Google Patents

Abstract

The invention relates to the technical field of line wiring and discloses weak current engineering line wiring auxiliary equipment and a using method thereof, wherein the weak current engineering line wiring auxiliary equipment comprises an integral external mechanism, and further comprises an integral air pump.

Description

Weak current engineering line wiring auxiliary equipment and use method thereof

Technical Field

The invention relates to the technical field of circuit wiring equipment, in particular to weak current engineering circuit wiring auxiliary equipment and a use method thereof.

Background

The condition that the cable twines each other can appear in the weak electric cable when the wiring, not only influence the aesthetic measure of wiring, but also can bring the difficulty for subsequent work, even cause the serious result of cable connection dislocation, still can increase follow-up maintenance or change the degree of difficulty, the influence is produced to the life-span of the cable, the problem of straightening of the cable in the wiring process has only been solved to the auxiliary scheme majority that present put forward, the problem of wiring perhaps need be taken into account in the wiring process or when ending, there is the cable of different diameters in the wiring process moreover, therefore auxiliary device needs fine adaptability to the work object, thereby can both expand work smoothly to the cable of different diameters.

The earliest parts of house decoration were the hydroelectric parts, followed by tiles, but the lines could be for various reasons: the problems of line breakage and lack due to electroporation, line shortage and the like are solved, and rewiring is required on the basis of not damaging ceramic tiles, and the following problems are faced at the moment: the problems of wire pipe blockage, other wire interference, soft and weak input wires, incapability of penetrating through obstacles, incapability of accurately finding a circuit outlet and the like.

Disclosure of Invention

In order to solve the technical problems, the invention provides weak current engineering line wiring auxiliary equipment and a using method thereof, wherein the weak current engineering line wiring auxiliary equipment comprises an integral external mechanism, the integral external mechanism also comprises an integral air pump, the outer wall of the integral air pump is fixedly connected with an integral outer wall, the outer wall of the integral outer wall is provided with an integral output pipe, the integral external mechanism provides an installation position for a subsequent mechanism, has a stabilizing effect in the operation process, counteracts tremble and vibration generated during the operation of the mechanism, ensures the normal operation of the equipment, and avoids the problems of jolt and the like;

the input pipe mechanism comprises a woven outer layer which is in sliding connection with the inner wall of the integral output pipe, wherein the inner wall of the woven outer layer is in sliding connection with a bulge middle layer, the inner wall of the bulge middle layer is in sliding connection with an input outer wall, and the inner wall of the input outer wall is in sliding connection with an input inner wall;

the front end guiding mechanism comprises a guiding bottom plate which is connected with the inner wall of the outer layer of the knitting machine in a sliding mode, a plurality of guiding sliding plates are fixedly connected to the outer wall of the guiding bottom plate, a guiding top block is fixedly connected to the outer wall of the top of the guiding bottom plate, the front end guiding mechanism utilizes the influence of the rotating speed difference, when a rear motor is decelerated, the guiding sliding plates provide rotating pointing points for the front end guiding mechanism, and the front end guiding mechanism achieves a turning effect along the pointing points.

Preferably, the whole external mechanism further comprises a whole big groove formed in the front end of the outer wall of the whole air pump, a plurality of upper motors and lower motors are fixedly connected to the inner wall of the whole big groove, the outer wall of each of the plurality of upper motors and lower motors is connected with an upper control line and a lower control line in a sliding mode, and the equipment pulls the upper control line and the lower control line through the upper motors and the lower motors so that the front end guiding mechanism rotates upwards or downwards.

Preferably, the whole external mechanism still includes the motor about the a plurality of fixed connection in whole big groove inner wall department, control line about the outer wall department sliding connection of motor has a plurality of, the whole induction line of a plurality of fixedly connected with of the inner wall department of whole big groove, a plurality of whole air inlet has been seted up to the top outer wall department of whole air pump, the inner wall department sliding connection of whole big groove has a plurality of whole safety rope, after equipment accomplishes dredging the pipeline, excision input tube mechanism makes inside hollow pipeline of formation, and get rid of front end guiding mechanism, whole safety rope will play the effect of guide, whole safety rope air pump one end is fixed the wire of needs, and accomplish the function of wiring through pulling.

Preferably, the front end guiding mechanism further comprises a guiding outer ring fixedly connected to one end, far away from the whole air pump, of the left control line and the right control line, the outer wall of the guiding outer ring is in sliding connection with the inner wall of the guiding sliding plate, a guiding rotator is fixedly connected to the outer wall of the top of the guiding bottom plate, the left control line and the right control line pull tea to guide the outer ring, and the guiding sliding plate is taken as a fulcrum, so that the front end part is upwards, downwards or leftwards and rightwards to achieve the guiding effect.

Preferably, the front end guiding mechanism further comprises a guiding rear groove formed in the outer wall of the top of the guiding rotating body, the inner wall of the guiding rear groove is slidably connected with a guiding limiting block, the outer wall of the bottom of the guiding limiting block is slidably connected with the outer wall of the top of the guiding rear groove, the front end guiding mechanism not only has a steering function in operation, but also enables the input outer wall to be close to a working environment by extruding and rotating the small external guiding wheel outwards, the falling phenomenon is avoided, the front end guiding mechanism is in a shape with thin front and thick rear, obstacles can be effectively penetrated, and the blockage of a spool is dredged.

Preferably, the front end guiding mechanism further comprises a guiding outer frame fixedly connected to the outer wall of the guiding outer ring, the guiding outer frame is fixedly connected with a guiding bottom ring at one end far away from the guiding outer ring, the outer wall of the guiding bottom ring is slidably connected with a plurality of guiding pulleys, the tail part of the front end guiding mechanism is fixedly connected with an integral safety rope, the integral safety rope cannot run when the preventing equipment enters dead angles in the running process, and the front end guiding mechanism can be pulled out through the integral safety rope, so that economic losses are avoided.

Preferably, the front end guiding mechanism further comprises a guiding middle plate fixedly connected to the outer wall of the guiding outer frame, a plurality of guiding supporting plates are slidably connected to the outer wall of the top of the guiding middle plate, a plurality of guiding small wheels are rotatably connected to the inner wall of the guiding supporting plates, a plurality of guiding springs are fixedly connected to the outer wall of the top of the guiding supporting plates, one ends of the guiding springs, far away from the guiding supporting plates, are fixedly connected with the outer wall of the guiding middle plate, the whole external mechanism achieves the bending effect of the control pipeline through the rotating speed difference between the upper motor and the lower motor and the left motor and the rotating speed difference between the lower motor and the right motor, the guiding supporting plates and the guiding supporting rods are supported by the guiding springs, mechanical kinetic energy is accumulated, and power is provided for subsequent turning.

Preferably, the front end guiding mechanism further comprises a guiding top groove formed in the outer wall of the top of the guiding supporting plate, a plurality of guiding supporting rods are slidably connected to the outer wall of the guiding outer frame, guiding small grooves are formed in the outer wall of the guiding supporting rods, guiding resistance wires are slidably connected to the outer wall of the guiding small grooves, the outer wall of each guiding resistance wire is slidably connected with the outer wall of the guiding top groove, the outer wall of each guiding resistance wire is fixedly connected with the outer wall of the corresponding integral induction wire, when the outer wall of each guiding supporting plate and the outer wall of each guiding supporting rod meet a line pipe turning area, the guiding supporting plate and the guiding supporting rods are lifted to the corresponding empty positions, at the moment, the resistance of the motor of the guiding resistance wires is increased by force and pulling, and the motor is made to form a rotating speed difference in other three motors, so that the turning function of the input pipe mechanism is completed.

The wiring method of the weak current engineering line wiring auxiliary equipment comprises the following steps:

s1: before the invention is used, the input pipe mechanism is aligned to the inner wall of the line pipe to be dredged, and the power supply is inserted to wait for the gas to enter the input pipe mechanism.

S2: when the air pressure reaches the required pressure, the input pipe mechanism is in an everting state, and the input pipe mechanism is turned forwards and extruded into the interior of the spool.

S3: when encountering a corner, the guide supporting plate and the guide supporting rod are lifted up to the vacant position, the motor resistance of the guide supporting plate and the guide supporting rod is increased, the motor rotation speed is reduced, the rotation speed difference is formed, and turning is completed.

S4: after the equipment finishes dredging the pipeline, the input pipe mechanism is cut off, and after the front end guiding mechanism is removed, the subsequent required electric wires pass through the integral safety rope to finish line placement.

The invention has the following beneficial effects:

(1) According to the invention, the integral air pump in the integral external mechanism inputs air pressure into the input pipe mechanism, so that the air pressure is extruded from inside to outside, and the input pipe mechanism can be moved in various rugged areas by utilizing the influence of the rotation speed difference, so that a hollow line-through environment is formed in the spool, various obstruction problems are avoided, and the subsequent wiring procedure is facilitated.

(2) The integral external mechanism of the invention achieves the effect of controlling the bending of the pipeline through the rotation speed difference of the upper motor, the lower motor and the left motor and the right motor, wherein the guide supporting plate and the guide supporting rod are supported by the guide spring and accumulate mechanical kinetic energy to provide power for the subsequent turning, when the outer walls of the guide supporting plate and the guide supporting rod meet the turning area of the spool, the guide supporting plate and the guide supporting rod are lifted towards the vacant position, and at the moment, the resistance of the motor is increased by the stress and the pulling of the guide resistance wire, so that the rotation speed difference is formed between the guide supporting plate and the guide supporting rod and the other three motors, thereby completing the turning function of the input pipe mechanism.

(3) The front end guiding mechanism not only has the function of steering in operation, but also can better enable the input outer wall to be close to the working environment by extruding and rotating the external guiding small wheel outwards, so that the falling phenomenon is avoided, and the front end guiding mechanism is of a shape with thin front and thick rear, can effectively penetrate through barriers and unblock a line pipe.

(4) According to the invention, the tail part of the front end guiding mechanism is fixedly connected with the integral safety rope, the integral safety rope prevents equipment from entering dead angles and not running in the running process, the front end guiding mechanism can be pulled out through the integral safety rope to avoid economic loss, on the other hand, after the equipment finishes dredging a pipeline, the input pipe mechanism is cut off to form a hollow wire transmission pipe inside, the front end guiding mechanism is removed, the integral safety rope has the guiding effect, one end of the air pump of the integral safety rope is used for fixing a required electric wire, and the wiring function is finished through pulling.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic diagram of the overall external mechanism of the present invention;

FIG. 3 is a schematic cross-sectional view of the overall external mechanism of the present invention;

FIG. 4 is a schematic diagram of an input tube mechanism of the present invention;

FIG. 5 is a schematic view of the head of the input tube mechanism of the present invention;

FIG. 6 is a schematic view of a front end guide mechanism of the present invention;

FIG. 7 is a schematic view of the tail of the front end guiding mechanism of the present invention;

FIG. 8 is an enlarged view of FIG. 7A in accordance with the present invention;

FIG. 9 is a schematic view of the head of the front end guide mechanism of the present invention;

FIG. 10 is a diagram showing the connection of the whole induction wire and the motor according to the present invention;

FIG. 11 is a flowchart of the operation of the wiring of the present invention;

in the drawings, the list of components represented by the various numbers is as follows:

in the figure: 1. an integral external mechanism; 101. an integral air pump; 102. an integral outer wall; 103. an integral output pipe; 104. an integral large groove; 105. an upper and lower motor; 106. an up-down control line; 107. a left and right motor; 108. left and right control lines; 109. an integral induction line; 110. an integral air inlet; 111. an integral safety rope; 2. an input pipe mechanism; 201. braiding an outer layer; 202. a bulge middle layer; 203. an input outer wall; 204. inputting an inner wall; 3. a front end guide mechanism; 301. a guide base plate; 302. a guide slide plate; 303. a guide top block; 304. a guide outer ring; 305. guiding the rotator; 306. a guide rear groove; 307. a guide restriction block; 309. a guide outer frame; 310. a guide bottom ring; 311. a guide pulley; 312. guiding the middle plate; 313. a guide support plate; 314. a guiding small wheel; 315. a guide spring; 316. a guide top groove; 317. a guide support rod; 318. a small guide groove; 319. the resistor wire is guided.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-3, the present invention is a weak current engineering line wiring auxiliary device, which includes an integral external mechanism 1, the integral external mechanism 1 further includes an integral air pump 101, an integral outer wall 102 is fixedly connected to an outer wall of the integral air pump 101, an integral output pipe 103 is provided at an outer wall of the integral outer wall 102, the integral external mechanism 1 provides an installation position for a subsequent mechanism, and has a stabilizing effect in an operation process, and counteracts tremble and vibration generated during operation of the mechanism, so as to ensure normal operation of the device, and avoid jolting and other problems;

the input pipe mechanism 2, the input pipe mechanism 2 comprises a braiding outer layer 201 which is connected with the inner wall of the integral output pipe 103 in a sliding way, a swelling middle layer 202 is connected with the inner wall of the braiding outer layer 201 in a sliding way, an input outer wall 203 is connected with the inner wall of the swelling middle layer 202 in a sliding way, and an input inner wall 204 is connected with the inner wall of the input outer wall 203 in a sliding way;

the front end guiding mechanism 3, the front end guiding mechanism 3 comprises a guiding bottom plate 301 which is connected with the inner wall of the weaving outer layer 201 in a sliding way, a plurality of guiding sliding plates 302 are fixedly connected with the outer wall of the guiding bottom plate 301, a guiding top block 303 is fixedly connected with the outer wall of the top of the guiding bottom plate 301, the front end guiding mechanism 3 utilizes the influence of the rotating speed difference, when the rear motor is decelerated, the guiding sliding plates 302 provide rotating pointing for the front end guiding mechanism 3, and the front end guiding mechanism 3 achieves a turning effect along the pointing.

The integral external mechanism 1 further comprises an integral large groove 104 formed at the front end of the outer wall of the integral air pump 101, a plurality of upper and lower motors 105 are fixedly connected to the inner wall of the integral large groove 104, the outer wall of each of the plurality of upper and lower motors 105 is slidably connected with an upper and lower control line 106, and the front end guiding mechanism 3 is enabled to rotate upwards or downwards by pulling the upper and lower control lines 106 through the upper and lower motors 105.

The whole external mechanism 1 still includes the motor 107 about the fixedly connected with in a plurality of whole big groove 104 inner wall department, control line 108 about the outer wall department sliding connection of motor 107 has a plurality of, the whole induction line 109 of fixedly connected with of the inner wall department of whole big groove 104, a plurality of whole air inlet 110 has been seted up to the top outer wall department of whole air pump 101, the inner wall department sliding connection of whole big groove 104 has a plurality of whole safety rope 111, after equipment is accomplished dredging the pipeline, excision input pipe mechanism 2 makes inside form hollow pipeline pipe, and get rid of front end guiding mechanism 3, whole safety rope 111 will play the effect of guiding, whole safety rope 111 air pump one end is fixed the required electric wire, and accomplish the function of wiring through pulling.

Referring to fig. 4-9, the present invention is a weak current engineering line wiring auxiliary device, and based on the first embodiment, the front end guiding mechanism 3 further includes a guiding outer ring 304 fixedly connected to one end of the left and right control lines 108 far away from the whole air pump 101, the outer wall of the guiding outer ring 304 is slidably connected with the inner wall of the guiding sliding plate 302, the guiding rotator 305 is fixedly connected to the top outer wall of the guiding bottom plate 301, the left and right control lines 108 and the upper and lower control lines 106 pull the guiding outer ring 304, and the guiding sliding plate 302 is used as a fulcrum, so that the front end portion is directed up and down or left and right, thereby achieving the guiding effect.

The front end guiding mechanism 3 is further provided with a guiding rear groove 306 formed in the outer wall of the top of the guiding rotating body 305, the inner wall of the guiding rear groove 306 is slidably connected with a guiding limiting block 307, the outer wall of the bottom of the guiding limiting block 307 is slidably connected with the outer wall of the top of the guiding rear groove 306, the front end guiding mechanism 3 not only has a steering function in operation, but also can better enable the input outer wall 203 to be close to the working environment through the extrusion rotation of the external guiding small wheel 314 to the outside of the input outer wall 203, the falling phenomenon is avoided, and the front end guiding mechanism 3 is of a front thin and rear thick shape, can effectively penetrate through obstacles and dredge the blockage of a line pipe.

The front end guiding mechanism 3 further comprises a guiding outer frame 309 fixedly connected to the outer wall of the guiding outer ring 304, the guiding outer frame 309 is fixedly connected with a guiding bottom ring 310 at one end far away from the guiding outer ring 304, the outer wall of the guiding bottom ring 310 is slidably connected with a plurality of guiding pulleys 311, the tail part of the front end guiding mechanism 3 is fixedly connected with an integral safety rope 111, the integral safety rope 111 can not run when entering a dead angle, and the front end guiding mechanism 3 can be pulled out through the integral safety rope 111, so that economic losses are avoided.

The front end guiding mechanism 3 further comprises a guiding middle plate 312 fixedly connected to the outer wall of the guiding outer frame 309, a plurality of guiding supporting plates 313 are slidably connected to the top outer wall of the guiding middle plate 312, a plurality of guiding small wheels 314 are rotatably connected to the inner wall of the guiding supporting plates 313, a plurality of guiding springs 315 are fixedly connected to the top outer wall of the guiding supporting plates 313, one end, far away from the guiding supporting plates 313, of each guiding spring 315 is fixedly connected to the outer wall of the guiding middle plate 312, the whole external mechanism 1 achieves the effect of controlling pipe bending through the rotation speed difference between the upper motor 105 and the lower motor 107, the guiding supporting plates 313 and the guiding supporting rods 317 are supported by the guiding springs 315, mechanical kinetic energy is accumulated, and power is provided for subsequent turning.

The front end guiding mechanism 3 further comprises a guiding top groove 316 formed in the outer wall of the top of the guiding supporting plate 313, a plurality of guiding supporting rods 317 are slidably connected to the outer wall of the guiding outer frame 309, guiding small grooves 318 are formed in the outer wall of the guiding supporting rods 317, guiding resistance wires 319 are slidably connected to the outer wall of the guiding small grooves 318, the outer wall of the guiding resistance wires 319 is slidably connected with the outer wall of the guiding top groove 316, the outer wall of the guiding resistance wires 319 is fixedly connected with the outer wall of the integral induction wire 109, when the outer walls of the guiding supporting plate 313 and the guiding supporting rods 317 meet the turning area of the spool, the guiding supporting plate 313 and the guiding supporting rods 317 are lifted towards the vacant positions, at the moment, the resistance of the motor of the guiding resistance wires 319 is increased due to the stress pulling of the guiding resistance wires 319, and the motor is made to form a rotating speed difference between the other three motors, so that the turning function of the input pipe mechanism 2 is completed.

The wiring method of the weak current engineering line wiring auxiliary equipment comprises the following steps:

s1: before the invention is used, the input pipe mechanism 2 is aligned with the inner wall of the line pipe to be dredged, a power supply is inserted, and gas is waited to enter the input pipe mechanism 2;

s2: when the air pressure reaches the required pressure, the input pipe mechanism 2 is in an eversion state, and the input pipe mechanism 2 is everted forwards and extruded into the interior of the spool;

s3: when encountering a corner, the guide support plate 313 and the guide support rod 317 will lift up to the gap, increase the motor resistance of the motor, reduce the motor rotation speed, form a rotation speed difference, and complete turning;

s4: after the equipment finishes dredging the pipeline, the input pipe mechanism 2 is cut off, and after the front end guide mechanism 3 is removed, the subsequent required electric wires pass through the integral safety rope 111 to finish line placement;

one specific application of this embodiment is: when the invention is used, before the invention is used, the input pipe mechanism 2 is aligned with the inner wall of the conduit to be dredged, a power supply is inserted, gas is waited to enter the input pipe mechanism 2, when the gas pressure reaches the required pressure, the input pipe mechanism 2 is in an everting state, the input pipe mechanism 2 is overturned and extruded into the conduit, the bending effect of the control conduit is achieved through the rotation speed difference of the upper motor 105 and the lower motor 107 and the left motor 107, wherein the guide support plate 313 and the guide support rod 317 are supported by the guide spring 315 and accumulate mechanical kinetic energy to provide power for the subsequent turning head, when the outer walls of the guide support plate 313 and the guide support rod 317 meet the turning zone of the conduit, the guide support plate 313 and the guide support rod 317 are lifted towards the blank, at the moment, the resistance wire 319 is pulled by force to increase the resistance of the motor, and the rotation speed difference is formed by the other three motors, thus completing the turning function of the input pipe mechanism 2, the front end guiding mechanism 3 not only plays a role of turning during operation, but also can better enable the input outer wall 203 to be close to the working environment by extruding and rotating the external guiding small wheel 314 to the outside of the input outer wall 203, avoid falling off, the front end guiding mechanism 3 is in a shape with thin front and thick rear, can effectively penetrate through obstacles and dredge the blockage of a line pipe, the tail part of the front end guiding mechanism 3 is fixedly connected with the integral safety rope 111, the integral safety rope 111 prevents equipment from entering dead corners and being unable to operate, the front end guiding mechanism 3 can be pulled out through the integral safety rope 111 to avoid economic loss, on the other hand, after the equipment completes dredging the pipeline, the input pipe mechanism 2 is cut off, the hollow line pipe is formed inside, the front end guiding mechanism 3 is removed, the integral safety rope 111 plays a guiding role, the whole safety rope 111 fixes the required electric wire at one end of the air pump and completes the wiring function by pulling.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. 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 understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (7)

1. The utility model provides a weak current engineering circuit wiring auxiliary assembly, includes whole external mechanism (1), whole external mechanism (1) still including whole air pump (101), the outer wall department fixedly connected with of whole air pump (101) is whole outer wall (102), whole output tube (103) have been seted up to the outer wall department of whole outer wall (102), its characterized in that still includes:

the input pipe mechanism (2), the input pipe mechanism (2) comprises a braiding outer layer (201) which is connected with the inner wall of the integral output pipe (103) in a sliding way, a swelling middle layer (202) is connected with the inner wall of the braiding outer layer (201) in a sliding way, an input outer wall (203) is connected with the inner wall of the swelling middle layer (202) in a sliding way, and an input inner wall (204) is connected with the inner wall of the input outer wall (203) in a sliding way;

the front end guiding mechanism (3), the front end guiding mechanism (3) comprises a guiding bottom plate (301) which is connected with the inner wall of the weaving outer layer (201) in a sliding way, a plurality of guiding sliding plates (302) are fixedly connected with the outer wall of the guiding bottom plate (301), and a guiding top block (303) is fixedly connected with the outer wall of the top of the guiding bottom plate (301);

the integral external mechanism (1) further comprises an integral large groove (104) formed in the front end of the outer wall of the integral air pump (101), a plurality of upper and lower motors (105) are fixedly connected to the inner wall of the integral large groove (104), and an upper control line (106) is slidably connected to the outer wall of the upper and lower motors (105);

the integrated external mechanism (1) further comprises a plurality of left and right motors (107) fixedly connected to the inner wall of the integrated large groove (104), a plurality of left and right control wires (108) are slidably connected to the outer wall of the left and right motors (107), a plurality of integrated induction wires (109) are fixedly connected to the inner wall of the integrated large groove (104), a plurality of integrated air inlets (110) are formed in the outer wall of the top of the integrated air pump (101), and a plurality of integrated safety ropes (111) are slidably connected to the inner wall of the integrated large groove (104).

2. The weak current engineering line routing auxiliary equipment according to claim 1, wherein: the front end guiding mechanism (3) further comprises a guiding outer ring (304) fixedly connected to one end, far away from the whole air pump (101), of the left control line (108), the outer wall of the guiding outer ring (304) is in sliding connection with the inner wall of the guiding sliding plate (302), and a guiding rotator (305) is fixedly connected to the top outer wall of the guiding bottom plate (301).

3. The weak current engineering line routing auxiliary equipment according to claim 2, wherein: the front end guiding mechanism (3) further comprises a guiding rear groove (306) formed in the outer wall of the top of the guiding rotating body (305), a guiding limiting block (307) is connected to the inner wall of the guiding rear groove (306) in a sliding mode, and the outer wall of the bottom of the guiding limiting block (307) is connected with the outer wall of the top of the guiding rear groove (306) in a sliding mode.

4. A weak current engineering line routing auxiliary device according to claim 3, wherein: the front end guiding mechanism (3) further comprises a guiding outer frame (309) fixedly connected to the outer wall of the guiding outer ring (304), a guiding bottom ring (310) is fixedly connected to one end, far away from the guiding outer ring (304), of the guiding outer frame (309), and a plurality of guiding pulleys (311) are slidably connected to the outer wall of the guiding bottom ring (310).

5. The weak current engineering line routing auxiliary equipment according to claim 4, wherein: the front end guiding mechanism (3) further comprises a guiding middle plate (312) fixedly connected to the outer wall of the guiding outer frame (309), a plurality of guiding support plates (313) are slidably connected to the top outer wall of the guiding middle plate (312), a plurality of guiding small wheels (314) are rotatably connected to the inner wall of the guiding support plates (313), a plurality of guiding springs (315) are fixedly connected to the top outer wall of the guiding support plates (313), and one end, far away from the guiding support plates (313), of each guiding spring (315) is fixedly connected with the outer wall of the guiding middle plate (312).

6. The weak current engineering line routing auxiliary equipment according to claim 5, wherein: the front end guiding mechanism (3) further comprises a guiding top groove (316) formed in the outer wall of the top of the guiding supporting plate (313), a plurality of guiding supporting rods (317) are slidably connected to the outer wall of the guiding outer frame (309), guiding small grooves (318) are formed in the outer wall of the guiding supporting rods (317), guiding resistance wires (319) are slidably connected to the outer wall of the guiding small grooves (318), the outer wall of the guiding resistance wires (319) is slidably connected with the outer wall of the guiding top groove (316), and the outer wall of the guiding resistance wires (319) is fixedly connected with the outer wall of the whole induction wire (109).

7. The wiring method of the weak current engineering line wiring auxiliary equipment according to claim 6, comprising the following steps:

s1: before the invention is used, the input pipe mechanism (2) is aligned to the inner wall of the line pipe to be dredged, a power supply is inserted, and gas is waited to enter the input pipe mechanism (2);

s2: when the air pressure reaches the required pressure, the input pipe mechanism (2) is in an eversion state, and the input pipe mechanism (2) is overturned forwards and extruded into the interior of the spool;

s3: when the corner is encountered, the guide supporting plate (313) and the guide supporting rod (317) are lifted to the vacant position, the motor resistance of the motor is increased, the motor rotation speed is reduced, the rotation speed difference is formed, and turning is completed;

s4: after the equipment finishes dredging the pipeline, the input pipe mechanism (2) is cut off, and after the front end guide mechanism (3) is removed, the subsequent required electric wires pass through the integral safety rope (111) to finish line placement.