CN113009640A

CN113009640A - Auxiliary connecting device of network signal line

Info

Publication number: CN113009640A
Application number: CN202110199480.9A
Authority: CN
Inventors: 王林宁; 王贤明; 郑冬松; 王文安; 张谦
Original assignee: Wenzhou University Oujiang College
Current assignee: Wenzhou University of Technology
Priority date: 2021-02-22
Filing date: 2021-02-22
Publication date: 2021-06-22

Abstract

The invention discloses an auxiliary connecting device of a network signal line, which comprises a connecting box, a positioning device, a connecting box and a splicing device, wherein the space close to the left side inside the connecting box is a positioning space, the positioning device is arranged above, below and on the left side of the positioning space so as to position the connecting box arranged inside the connecting box, the splicing device is arranged on the right side of the connecting box, the end head of a driving network cable is connected with the network cable port of the connecting box, the right side of the splicing device is embedded into a cavity on the left side of a fixed sleeve to be in sliding connection, the right side of the fixed sleeve is fixed with the left side of a protection ring shell, the protection ring shell is embedded into the right side wall of the connecting box and matched with the bending of the external network cable on the right side of the end head of the network cable, a clamping cavity is formed in the middle part of the.

Description

Auxiliary connecting device of network signal line

Technical Field

The invention relates to the technical field of transmission line connection, in particular to an auxiliary connection device of a network signal line.

Background

A network is made up of nodes and links connecting the nodes, representing objects and their interrelationships. A signal is a physical quantity representing a message, e.g. an electrical signal may represent different messages by variations in amplitude, frequency, phase. Such electrical signals are classified into analog signals and digital signals. The signal is a vehicle for carrying the message and is a carrier of the message. The connection port of the network signal line needs to be ensured to be tightly connected with the network cable end, and the network cable end at the connection port is often loosened and disconnected in the actual use process of the conventional auxiliary connection device of the network signal line; in the process of installation and connection, the connection ports which are deeper and have smaller port diameters are unstable in splicing, the joints are not in tight contact, and the splicing efficiency is lower; when the cable is used for a long time, the cable jacket at the cable end is often cracked, so that signal transmission is unstable, and signals are weak.

Accordingly, those skilled in the art have provided an auxiliary connection device for a network signal line to solve the problems set forth in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a supplementary connecting device of network signal line, it includes connecting box, positioner, connecting box and splicing apparatus, the connecting box is inside to lean on the left side space to be the location space, the last, left and below in location space is equipped with positioner, places to its inside the connecting box advances line location, the right-hand splicing apparatus that is equipped with of connecting box, drive net twine end with connecting box net twine port is connected, the inside sliding connection of fixed cover left side cavity of splicing apparatus right side embedding, fixed cover right side is fixed mutually with protection ring shell left side, in protection ring shell embedding connecting box right side wall, the crooked of the outside net twine in cooperation net twine end right side, the card chamber has been seted up at connecting box case middle part, card intracavity portion is equipped with the card key, right splicing apparatus fixes.

As a best embodiment, positioner includes positioning seat, elastic expansion piece and positioning disk, the positioning seat left side is fixed mutually with connecting box shell inner wall, the positioning seat right side is connected with elastic expansion piece, sets up three groups along its right flank, elastic expansion piece right-hand member is connected with fixed plate left side face, and is located the centre the left and right-hand member of elastic expansion piece is connected with positioning seat, fixed plate are articulated, the fixed plate right flank is fixed mutually with the positioning disk left surface.

As a best embodiment, the splicing device comprises a fixed box, positioning push-pull pieces and splicing rings, wherein the fixed box is fixed on the upper inner wall and the lower inner wall of the connecting box and is symmetrically arranged up and down, a positioning block is fixed at the lower end of the fixed box close to the left side surface, cylindrical slideways are transversely arranged in the positioning block and are arranged in three groups in a vertical linear arrangement, and a vertical clamping groove is formed at the position close to the left side surface of the positioning block;

a transverse screw rod is arranged in the fixed box, a threaded sleeve is sleeved on the screw rod, the lower end of the threaded sleeve is connected with a positioning push-pull piece, a connecting column which is in sliding connection with the cylindrical slideway is fixed on the left side surface of a connecting block on the left side in the positioning push-pull piece, and a clamping groove hole is formed in the connecting column which corresponds to the clamping groove;

the lower end of the right push-pull rod in the positioning push-pull piece is connected with the upper end of the splicing ring, the center inside the splicing ring is of a hollow structure, and the left side and the right side inside the splicing ring are provided with a clamping transmission device and a fixing assembly.

As a best embodiment, the splicing ring is vertically provided with strip-shaped slide rails close to the left side wall, two groups of strip-shaped slide rails are symmetrically arranged up and down, a sensing plate is connected onto the strip-shaped slide rails in a sliding mode, a straight gear rack is installed on the sensing plate, a first motor is arranged above the clamping transmission device, a first straight gear is fixed to the output end of the first motor, and the straight gear is connected with the straight gear rack in a meshed mode.

As a best embodiment, the clamping transmission device comprises an auxiliary clamping assembly, a driving assembly and clamping assemblies, wherein the auxiliary clamping assembly, the driving assembly and the clamping assemblies are arranged in four groups in a circumferential manner, the driving assembly is positioned at the cross section of the middle part of the clamping transmission device, and the left side and the right side of the driving assembly are respectively provided with the clamping assembly and the auxiliary clamping assembly.

As a best embodiment, the auxiliary clamping assembly comprises a second telescopic machine, two telescopic rods and clamping rollers, the bottom ends of the second telescopic machine and the telescopic rods are hinged to the center of the same trapezoidal base, the two groups of telescopic rods are arranged in bilateral symmetry, the upper ends of the telescopic rods are hinged to guide slide rods, and strip-shaped sliding cavities are formed in the centers of the guide slide rods;

the output end of the second telescopic machine is fixed with the center of the lower end face of the arc-shaped push plate, the left end and the right end of the arc-shaped push plate are provided with guide sliding columns, and the guide sliding columns are embedded into the strip-shaped sliding cavities and are connected in a sliding mode;

arc push pedal upper end is equipped with three compression spring of group along the cambered surface, the compression spring upper and lower extreme is connected with cambered surface, concave type shell, the lower terminal surface of the little short slab that concave type shell upper end and centre gripping gyro wheel axle center both ends are fixed mutually, and is adjacent little short slab in the centre gripping gyro wheel is articulated to be connected each other, and is located left and right side the outside of centre gripping gyro wheel all articulates and is connected with the sensing wheel, articulated connection is on the terminal surface under the little short slab in right side in the sensing wheel in direction slide bar upper end.

As a best embodiment, fixed subassembly includes transmission case, triangle connecting piece and micro arc shaped plate, transmission case upper end central plane is fixed mutually with the flexible quick-witted output of vertical setting, the lower extreme of the thread bush on the threaded rod of the inside of transmission case is fixed with the triangle connecting piece, triangle connecting piece lower extreme is fixed mutually with micro arc shaped plate by right side up end, the inside right side of micro arc shaped plate transversely is fixed with flexible push rod, flexible push rod output is fixed with the grip block.

As a best embodiment, the protective housing includes stretcher one, push pedal and flexible cotton, an output and the push pedal lower extreme central plane fixed connection of stretcher, the side still is equipped with supplementary slide rail about the stretcher one, the push pedal up end is fixed with the compression subassembly, the compression subassembly up end and the lower terminal surface fixed connection of flexible cotton.

As a best embodiment, the upper end and the lower end of a telescopic rod arranged at the axle center of a compression spring in the compression assembly are hinged with the flexible cotton and the push plate.

Compared with the prior art, the invention provides an auxiliary connecting device of a network signal line, which has the following beneficial effects:

1. according to the invention, the connecting box is positioned and adjusted through the positioning device, the matching is aligned with the splicing ring and the protective shell axial lead, the alignment efficiency and the splicing accuracy of the net wire end and the net wire port are improved, the phenomenon that the wires at the joint are scratched due to repeated splicing is avoided, the splicing ring is fixed in the longitudinal and transverse directions through the clamping key inclined telescopic rod, the swinging and bending of the net wire are matched in the actual process through the protective ring shell, the inclination radian of the net wire close to the net wire end is reduced, so that the net wire at the net wire end is not easy to break, and the stability of the net wire is ensured.

2. According to the invention, the insertion depth of the end of the network cable is pre-judged through the sensing plate, then the network cable is centrally positioned through the auxiliary clamping assembly and the clamping assembly, so that the network cable can be quickly aligned with the port of the network cable, the pressure for clamping the outer wall of the network cable can reach the optimal pressure well by taking the clamping force of the auxiliary clamping assembly to the outer side end of the network cable as the elastic force, the pressure cannot be too high, so that the internal wire of the network cable is inclined, and the larger optical fiber transmission loss is caused, and the end of the network cable is fixed and then certain elastic pressure is applied through the clamping block, so that the end of the network cable is not easy to loosen from the port of the network cable.

Drawings

FIG. 1 is a schematic view of a connecting device according to the present invention;

FIG. 2 is an enlarged view of a portion of the connecting device of the present invention;

FIG. 3 is an enlarged view of the structure at A of the present invention;

FIG. 4 is an enlarged schematic view of the cross-sectional configuration of the clamping actuator of the present invention;

in the figure: 1. a connecting box; 2. a positioning device; 3. a card key; 4. a connection box; 5. a protective ring housing; 6. a splicing device; 7. fixing a sleeve; 8. a clamping transmission device; 9. a fixing assembly; 21. positioning seats; 22. an elastic extensible member; 23. a fixing plate; 24. positioning a plate; 61. a fixed box; 62. a screw; 63. a threaded sleeve; 64. positioning the push-pull piece; 65. a splicing ring; 66. positioning blocks; 67. a first motor; 68. a sensor board; 91. a transmission case; 92. a triangular connector; 93. a micro-arc shaped plate; 94. a telescopic push rod; 95. a clamping block; 81. an auxiliary clamping assembly; 82. a second stretching machine; 83. an arc-shaped push plate; 84. a telescopic rod; 85. a guide slide bar; 86. a compression spring; 87. a micro-short plate; 88. clamping the roller; 89. a drive assembly; 810. a clamping assembly; 51. an auxiliary slide rail; 52. a first stretching machine; 53. pushing the plate; 54. a compression assembly; 55. flexible cotton.

Detailed Description

Referring to fig. 1, the present invention provides a technical solution: an auxiliary connecting device of a network signal line comprises a connecting box 1, a positioning device 2, a connecting box 4 and a splicing device 6, the space near the left side in the connecting box 1 is a positioning space, positioning devices 2 are arranged at the upper part, the left part and the lower part of the positioning space, the connecting box 4 arranged in the connecting box is positioned, the splicing device 6 is arranged on the right side of the connecting box 4, the end head of the driving network cable is connected with the network cable port of the connecting box 4, the right side of the splicing device 6 is embedded into the cavity at the left side of the fixed sleeve 7 and is in sliding connection with the cavity at the left side of the fixed sleeve 7, the right side of the fixed sleeve 7 is fixed with the left side of the protective ring shell 5, the protective ring shell 5 is embedded into the right side wall of the connecting box 1 and matched with the bending of the external network cable on the right side of the network cable end, the middle part of the box shell of the connecting box 1 is provided with a clamping cavity, and a clamping key 3 is arranged in the clamping cavity and used for fixing the splicing device 6.

Referring to fig. 2, in this embodiment, the positioning device 2 includes a positioning seat 21, an elastic expansion member 22, and a positioning plate 24, a left side of the positioning seat 21 is fixed to an inner wall of a case shell of the connection box 1, the right side of the positioning seat 21 is connected to the elastic expansion member 22, three sets of elastic expansion members 22 are arranged along a right side surface of the positioning seat 21, a right end of the elastic expansion member 22 is connected to a left side surface of a fixing plate 23, a left end and a right end of the elastic expansion member 22 located in the middle are hinged to the positioning seat 21 and the fixing plate 23, a right side surface of the fixing plate 23 is fixed to a left side surface of the positioning plate 24, and the elastic;

as a preferred embodiment, a distance sensor is installed in the middle of the elastic expansion piece 22, a horizontal center measuring sensor is installed on the right side surface of the positioning plate 24, and the connecting box 4 is spatially positioned by matching and adjusting the three groups of positioning devices 2, so that the port of the cable in the connecting box 4 is located on the internal horizontal center line of the connecting box 1.

In this embodiment, the splicing device 6 includes a fixed box 61, a positioning push-pull member 64 and a splicing ring 65, the fixed box 61 is fixed on the upper and lower inner walls of the connecting box 1 and is symmetrically arranged up and down, a positioning block 66 is fixed at the lower end of the fixed box 61 close to the left side surface, cylindrical slideways are further horizontally arranged in the positioning block 66, three groups are arranged in a vertical linear arrangement, and a vertical clamping groove is further formed at the position close to the left side surface of the positioning block 66;

a transverse screw rod 62 is arranged in the fixed box 61, a threaded sleeve 63 is sleeved on the screw rod 62, the lower end of the threaded sleeve 63 is connected with a positioning push-pull piece 64, a connecting column in sliding connection with a cylindrical slideway is fixed on the left side surface of a left connecting block in the positioning push-pull piece 64, and a clamping groove hole is formed in the connecting column corresponding to the clamping groove;

the lower end of a right push-pull rod in the positioning push-pull piece 64 is connected with the upper end of the splicing ring 65, the center inside the splicing ring 65 is of a hollow structure, the left side and the right side inside the splicing ring 65 are provided with the clamping transmission device 8 and the fixing component 9, it needs to be noted that the upper outer end and the lower outer end of the splicing ring 65 are provided with inclined telescopic pieces which form an included angle of 45 degrees with the push-pull rod, and as a best embodiment, the inclined telescopic pieces are provided with angle sensors for detecting the horizontal movement offset angle of the splicing ring 65.

Referring to fig. 3, in this embodiment, the concatenation ring 6 leans on the vertical bar slide rail that is equipped with of left side wall department, is that the symmetry sets up two sets ofly from top to bottom, sliding connection has sensor plate 68 on the bar slide rail, install straight-toothed rack on the sensor plate 68, centre gripping transmission 8 top is provided with a motor 67, a motor 67 output is fixed with the straight-toothed gear, the straight-toothed gear is connected with the meshing of straight-toothed rack, as best embodiment, be equipped with contact pick-up on the sensor plate 68 right flank for judge, detect the initial male degree of depth of net twine end.

Referring to fig. 4, in this embodiment, the clamping transmission device 8 includes an auxiliary clamping assembly 81, a driving assembly 89, and a clamping assembly 810, the auxiliary clamping assembly 81, the driving assembly 89, and the clamping assembly 810 are all circumferentially arranged in four groups, the driving assembly 89 is located at the cross section of the middle portion of the clamping transmission device 8, the clamping assembly 810 and the auxiliary clamping assembly 81 are provided on the left and right sides of the driving assembly 89, so as to form three groups of parallel and coaxial circular ring structures, the diameter of the mesh wire is determined in advance by the auxiliary clamping assembly 81, and the mesh wire is attached to the outer surface of the auxiliary clamping assembly, and the mesh wire travels, and is driven by the driving assembly 89 to actively move.

In this embodiment, the auxiliary clamping assembly 81 includes a second telescopic machine 82, two telescopic rods 84 and clamping rollers 88, the bottom ends of the second telescopic machine 82 and the telescopic rods 84 are hinged to the center of the same trapezoidal base, the two telescopic rods 84 are arranged in bilateral symmetry, the upper end of the telescopic rod 84 is hinged to a guide slide bar 85, and a strip-shaped sliding cavity is formed in the center of the guide slide bar 85;

the output end of the second telescopic machine 82 is fixed with the center of the lower end face of the arc-shaped push plate 83, the left end and the right end of the arc-shaped push plate 83 are provided with guide sliding columns, and the guide sliding columns are embedded into the strip-shaped sliding cavities and are connected in a sliding mode;

three groups of compression springs 86 are arranged at the upper end of the arc-shaped push plate 83 along the arc surface, the upper end and the lower end of each compression spring 86 are connected with the arc surface and the concave shell, the upper end of the concave shell is fixed with the lower end surface of a small short plate 87 fixed at two ends of the axle center of the clamping roller 88, the small short plates 87 in the adjacent clamping roller 88 are hinged with each other, and the outer sides of the clamping rollers 88 positioned at the left side and the right side are hinged with sensing wheels, the upper end of the guide slide bar 85 is hinged and connected on the lower end surface of a right side short plate 87 in the sensing wheels, and a torsion spring is sleeved on a hinge shaft which is hinged with the micro short plates 87, the micro short plates 87 are twisted to rotate towards the inner axis direction, the elastic pressure of the compression spring 86 is matched, the acting force of the multiple groups of the micro-short plates 87 is elastic force, so that the clamping force required for clamping the outside of the network cable is optimal, and the transmission line inside the network cable is not easily extruded.

In this embodiment, the fixing assembly 9 includes a transmission case 91, a triangular connector 92 and a micro-arc plate 93, the central surface of the upper end of the transmission case 91 is fixed to the output end of a vertically arranged telescopic machine, the lower end of a threaded sleeve on a threaded rod inside the transmission case 91 is fixed to the triangular connector 92, the lower end of the triangular connector 92 is fixed to the upper end surface of the micro-arc plate 93 close to the right side, a telescopic push rod 94 is transversely fixed to the right side inside the micro-arc plate 93, and a clamping block 95 is fixed to the output end of the telescopic push rod 94;

as a preferred embodiment, the fixing assemblies 9 are circumferentially arranged in multiple groups, the left and right ends of the clamping block 95 are connected through elastic telescopic rods to fix the right side surface of the end of the mesh wire protruding out of the mesh wire jacket, and when the fixing is performed, the elastic telescopic rods are in a compressed state to prevent the end of the mesh wire from loosening, and simultaneously, the external generated pulling force can be buffered.

In this embodiment, the protective housing 5 includes a first telescopic machine 52, a push plate 53 and flexible cotton 55, a first 52 output end of the telescopic machine and a lower end central plane fixed connection of the push plate 53, the left and right sides of the first 52 of the telescopic machine are still provided with the auxiliary slide rail 51, the upper end surface of the push plate 53 is fixed with a compression assembly 54, the upper end surface of the compression assembly 54 and the lower end surface fixed connection of the flexible cotton 55 are taken as the best embodiment, and eight groups are arranged and set up in a circumferential direction by the protection device arranged inside the protective housing 5.

In this embodiment, the upper and lower ends of the telescopic rod disposed at the axis of the compression spring in the compression assembly 54 are hinged to the flexible cotton 55 and the push plate 53, and can be tilted together with the tilted local network cable and tightly attached to the tilted local network cable.

In the specific implementation, the connecting box 4 is placed into the positioning device 2, the connecting box 4 is positioned and clamped by the positioning device 2, the cable port at the right side end of the connecting box 4 is positioned on the horizontal line of the axis of the splicing device 6, the cable end is transmitted into the axes of the protective ring shell 5 and the splicing ring 65 until the cable end collides with the wall of the right side surface of the sensing plate 68, meanwhile, the telescopic machine II 82 and the telescopic rod 84 in the auxiliary clamping component 81 drive the adjusting roller to be attached and fixed with the cable end, the clamping component 810 is matched for adjusting together, the cable end is positioned on the horizontal axis, the sensing plate 68 is driven by the motor I67 to move outwards, meanwhile, the positioning push-pull piece 64 is driven by the driving motor in the fixing box 61 to move leftwards, in this way, the connecting column is matched with the cylindrical chute, after the left side surface of the splicing ring 65 is attached to the right side surface of the connecting box 4, in pulling into vertical draw-in groove through card key 3, fix the spliced pole, shrink through centre gripping subassembly 810, inside rethread drive assembly 89 drive net twine end inserted net twine port, bulldoze net twine end right flank through fixed subassembly 9 simultaneously, at last, protect the outside net twine of net twine end through protection ring shell 5.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and the inventive concept within the technical scope of the present invention, and the technical solution and the inventive concept thereof should be covered by the scope of the present invention.

Claims

1. The utility model provides a network signal line's supplementary connecting device, its includes connecting box (1), positioner (2), junction box (4) and splicing apparatus (6), its characterized in that: connecting box (1) is inside leans on the left side space to be the location space, last, left, below in location space are equipped with positioner (2), place to its inside connecting box (4) are fixed a position, connecting box (4) right-hand splicing apparatus (6) that are equipped with, drive net twine end with connecting box (4) net twine port is connected, splicing apparatus (6) right side embedding fixed cover (7) left side cavity inside sliding connection, fixed cover (7) right side is fixed mutually with protection ring shell (5) left side, in protection ring shell (5) embedding connecting box (1) right side wall, the bending of the outside net twine in cooperation net twine end right side, the card chamber has been seted up at connecting box (1) case shell middle part, card intracavity portion is equipped with card key (3), and is right splicing apparatus (6) are fixed.

2. An auxiliary connection device for a network signal line according to claim 1, wherein: positioner (2) are including positioning seat (21), elastic expansion piece (22) and positioning disk (24), positioning seat (21) left side is fixed mutually with connecting box (1) case shell inner wall, positioning seat (21) right side is connected elastic expansion piece (22), sets up three groups along its right flank, elastic expansion piece (22) right-hand member is connected with fixed plate (23) left side face, and is located the centre the left and right-hand member of elastic expansion piece (22) is connected with positioning seat (21), fixed plate (23) are articulated, fixed plate (23) right flank is fixed mutually with positioning disk (24) left flank.

3. An auxiliary connection device for a network signal line according to claim 1, wherein: the splicing device (6) comprises a fixed box (61), a positioning push-pull piece (64) and a splicing ring (65), wherein the fixed box (61) is fixed on the upper inner wall and the lower inner wall of the connecting box (1) and is symmetrically arranged up and down, a positioning block (66) is fixed at the lower end of the fixed box (61) close to the left side surface, cylindrical slideways are transversely arranged in the positioning block (66) and are vertically and linearly arranged, three groups of the positioning blocks are arranged, and a vertical clamping groove is formed at the position close to the left side surface of the positioning block (66);

a transverse screw rod (62) is arranged in the fixed box (61), a threaded sleeve (63) is sleeved on the screw rod (62), the lower end of the threaded sleeve (63) is connected with a positioning push-pull piece (64), a connecting column in sliding connection with the cylindrical slideway is fixed on the left side surface of a left connecting block in the positioning push-pull piece (64), and a clamping groove hole is formed in the connecting column corresponding to the clamping groove;

the lower end of the right push-pull rod in the positioning push-pull piece (64) is connected with the upper end of the splicing ring (65), the center inside the splicing ring (65) is of a hollow structure, and the left side and the right side inside the splicing ring (65) are provided with a clamping transmission device (8) and a fixing assembly (9).

4. An auxiliary connection device for a network signal line according to claim 3, wherein: the splicing ring (6) is close to the vertical bar slide rail that is equipped with of left side wall department, and the symmetry sets up two sets ofly about being, sliding connection has sensor plate (68) on the bar slide rail, install straight-teeth gear strip on sensor plate (68), centre gripping transmission (8) top is provided with motor (67), motor (67) output end is fixed with the straight-teeth gear, the straight-teeth gear is connected with the straight-teeth gear strip meshing.

5. An auxiliary connection device for a network signal line according to claim 3, wherein: centre gripping transmission (8) are including supplementary centre gripping subassembly (81), drive assembly (89) and centre gripping subassembly (810), supplementary centre gripping subassembly (81), drive assembly (89), centre gripping subassembly (810) all are the circumference and arrange and set up four groups, just drive assembly (89) are located centre gripping transmission (8) middle part cross section department, drive assembly (89) left and right side is centre gripping subassembly (810), supplementary centre gripping subassembly (81).

6. An auxiliary connection device for a network signal line according to claim 5, wherein: the auxiliary clamping assembly (81) comprises a second telescopic machine (82), telescopic rods (84) and clamping rollers (88), the bottom ends of the second telescopic machine (82) and the telescopic rods (84) are hinged to the center of the same trapezoidal base, the telescopic rods (84) are symmetrically arranged in two groups in the left-right direction, the upper ends of the telescopic rods (84) are hinged to guide sliding rods (85), and strip-shaped sliding cavities are formed in the centers of the guide sliding rods (85);

the output end of the second telescopic machine (82) is fixed with the center of the lower end face of the arc-shaped push plate (83), the left end and the right end of the arc-shaped push plate (83) are provided with guide sliding columns, and the guide sliding columns are embedded into the strip-shaped sliding cavities and are connected in a sliding mode;

arc push pedal (83) upper end is equipped with three compression spring (86) of group along the cambered surface, lower extreme is connected with cambered surface, concave type shell on compression spring (86), concave type shell upper end is fixed mutually with the lower terminal surface of little short slab (87) that centre gripping gyro wheel (88) axle center both ends are fixed, and is adjacent little short slab (87) in centre gripping gyro wheel (88) are articulated each other and are connected, and are located left and right side the outside of centre gripping gyro wheel (88) is all articulated and is connected with the sensing wheel, direction slide bar (85) upper end is articulated to be connected on terminal surface under little short slab (87) in the sensing wheel on the right side.

7. An auxiliary connection device for a network signal line according to claim 3, wherein: fixed subassembly (9) are including transmission case (91), triangle connecting piece (92) and little arc shaped plate (93), transmission case (91) upper end central plane is fixed with the flexible quick-witted output of vertical setting, the lower extreme of the thread bush on the threaded rod of transmission case (91) inside is fixed with triangle connecting piece (92), triangle connecting piece (92) lower extreme and little arc shaped plate (93) are leaned on the right side up end and are fixed mutually, little arc shaped plate (93) inside right side is transversely fixed with telescopic push rod (94), telescopic push rod (94) output is fixed with grip block (95).

8. An auxiliary connection device for a network signal line according to claim 1, wherein: protective housing (5) are including the first (52) of stretch-shrink machine, push pedal (53) and flexible cotton (55), stretch-shrink machine output and push pedal (53) lower extreme central plane fixed connection, the side still is equipped with supplementary slide rail (51) about stretch-shrink machine (52), push pedal (53) up end is fixed with compression subassembly (54), compression subassembly (54) up end and flexible cotton (55) lower extreme plane fixed connection.

9. An auxiliary connection device for a network signal line according to claim 1, wherein: the upper end and the lower end of a telescopic rod arranged at the axis of a compression spring in the compression component (54) are hinged with the flexible cotton (55) and the push plate (53).