CN215498003U - Hybrid optical fiber coaxial cable installation mechanism - Google Patents

Abstract

The utility model relates to the field of cable installation, in particular to a hybrid optical fiber coaxial cable installation mechanism, which can automatically install a cable.

Description

Hybrid optical fiber coaxial cable installation mechanism

Technical Field

The utility model relates to the field of cable installation, in particular to a hybrid optical fiber coaxial cable installation mechanism.

Background

The wire and cable industry is the second industry in China next to the automobile industry, and both the product variety satisfaction rate and the domestic market share rate exceed 90%. The total output of electric wires and cables in China exceeds the United states worldwide, and the electric wires and cables become the first large electric wire and cable producing country in the world, and generally, when the electric wires and cables are installed, a ditch is dug out on the ground by manpower, then the electric wires and cables are laid in the ditch, a large amount of manpower is consumed, the laying speed is low, and a device for automatically installing the electric wires and cables is needed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a hybrid optical fiber coaxial cable installation mechanism which can automatically install a cable.

The utility model provides a hybrid fiber coaxial cable installation mechanism, includes kinking roller, conveying roller, soil spade and sweep, and the kinking roller is installed on the sweep, and two conveying rollers are all installed on the sweep, and the soil spade is installed at the sweep front end, and moving mechanism is installed to the sweep lower extreme.

And rubber pads are arranged on the two conveying rollers.

The utility model provides a hybrid fiber coaxial cable installation mechanism, still includes gear motor, gear motor installs on the sweep, and the kinking roller is installed on gear motor's output shaft.

Drawings

The utility model is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of the overall structure of a hybrid fiber optic coaxial cable mounting mechanism;

FIG. 2 is another schematic view of the overall structure of a hybrid fiber optic coaxial cable mounting mechanism;

FIG. 3 is a schematic view of the construction of a shovel;

FIG. 4 is a schematic view of the construction of the squeegee;

FIG. 5 is a schematic view of the structure of the vehicle body panel;

FIG. 6 is a schematic view of the conveyor roller;

fig. 7 is a schematic structural view of the wheel.

In the figure: a vehicle body panel 101; a wheel 102; a reduction motor III 103; a paving port 104; a reduction motor II 201; a conveying roller 202; a reduction motor 203; a wind-up roll 204; a reduction motor IV 301; a squeegee 302; a cylinder 401; a mounting frame 402; a shovel 403.

Detailed Description

Referring to fig. 1-7, schematic views of embodiments of the present invention that enable automatic installation of a cable in the ground are shown, and further,

the winding roller 204 is rotatably connected to the vehicle board 101, the two conveying rollers 202 are rotatably connected to the vehicle board 101, the soil spade 403 is arranged at the front end of the vehicle board 101, the moving mechanism is arranged at the lower end of the vehicle board 101, when a cable is usually installed, a ditch needs to be dug on the ground by manpower, then the cable is paved in the ditch, the manpower is consumed greatly, and the paving speed is low, so a device for automatically installing the cable is needed, when the device is used, the moving mechanism drives the vehicle board 101 to move forwards, the vehicle board 101 drives the soil spade 403 to move forwards, the soil spade 403 shovels the soil and reserves the ditch on the ground, the winding roller 204 is used for winding the cable, the space is saved, the two conveying rollers 202 can straighten and convey the cable on the winding roller 204, the cable is prevented from being wound, the cable length is saved, when the vehicle board 101 moves forwards, one end of the cable on the winding roller 204 is inserted between the two conveying rollers 202, the two conveying rollers 202 rotate to convey the cable out, and finally the cable is laid in a ditch which is shoveled by the soil shovel 403.

Referring to fig. 6, a schematic diagram of an embodiment of the utility model capable of protecting cables is shown, and further,

all be provided with the rubber pad on two conveying rollers 202, two conveying rollers 202 are when carrying the cable, in order to prevent that the cable from skidding between two conveying rollers 202, lead to the cable bending or pile up and damage the cable, so need have sufficient frictional force to carry the cable on two conveying rollers 202, with two conveying roller 202 interval miniaturations, the rubber pad can prevent that two conveying rollers 202 from playing the protection cable effect owing to the interval is too little with the cable clamp bad.

Referring to fig. 5, a schematic view of an embodiment for facilitating the winding of a cable in accordance with the present invention is shown and, further,

gear motor 203 fixed connection is on sweep 101, and kinking roller 204 fixed connection is on gear motor 203's output shaft, and when using this device, operating personnel twines cable one end on kinking roller 204, and then gear motor 203 drives kinking roller 204 and rotates, and kinking roller 204 is twined the cable on kinking roller 204, and the use is laid in the later stage of being convenient for.

Referring to fig. 6, a schematic diagram of an embodiment of a transmission cable according to the present invention is shown and, further,

gear motor II201 fixed connection is on sweep 101, and one of them conveying roller 202 fixed connection is on gear motor II 201's output shaft, and when using this device, operating personnel injects the cable one end on the winding roller 204 in the middle of two conveying rollers 202, and gear motor II201 drives one of them conveying roller 202 and rotates, and two conveying rollers 202 mutually support and make the cable pass two conveying rollers 202, and then realize the transport of cable.

Referring to fig. 7, a schematic diagram of an embodiment of the present invention is shown that facilitates accurate cable routing within a trench, and further,

the laying port 104 is provided in the floor 101, and when the device is used, the cable conveyed by the two conveying rollers 202 enters the laying port 104, passes through the laying port 104 and is laid in the dug ditch, so that the cable can be prevented from inclining or separating from the floor 101.

Referring to fig. 3, there is shown a schematic view of an embodiment of the present invention that enables the blade 403 to be raised, and further,

cylinder 401 fixed connection is on sweep 101, shovel 403 articulates on the cylinder pole of cylinder 401, shovel 403 middle part sliding connection is in mounting bracket 402, when needing not to dig the irrigation canals and ditches, cylinder 401's cylinder pole stretches out and drives shovel 403 and rotate, shovel 403 slides at shovel 403 simultaneously, and then make shovel 403 lift up, when needs dig the irrigation canals and ditches, cylinder 401's cylinder pole shrink, shovel 403 can down, mounting bracket 402 plays limiting displacement, guarantee shovel 403 can turned angle.

Referring to fig. 7, a schematic diagram of an embodiment of the present invention for facilitating movement of the device is shown, further,

sweep 101 lower extreme rotates and is connected with a plurality of wheels 102, and the equal fixed connection of a plurality of wheels 102 is on the output shaft of a plurality of gear motor III103, and the equal fixed connection of a plurality of gear motor III103 is at sweep 101 lower extreme, and when using this device, a plurality of gear motor III103 drive a plurality of wheels 102 respectively and rotate, can realize that this device removes, still can realize turning to because a plurality of gear motor III103 rotational speed are different.

Referring to fig. 6, a schematic diagram of an embodiment of the present invention to facilitate trench fill is shown, further,

two scrapers 302 are both installed at the rear end of the sweep 101, and when the device is used, after cables are laid in a ditch, the two scrapers 302 scrape soil around the ditch into the ditch to fill the soil.

Referring to fig. 4, a schematic diagram of an embodiment of the present invention to facilitate lifting of the squeegee 302 is shown and, further,

two scraper blades 302 are all fixedly connected on the output shaft of the gear motor IV301, the gear motor IV301 is fixedly connected on the sweep 101, when the scraper blades 302 are not used, the gear motor IV301 rotates to drive the two scraper blades 302 to rotate, and then the two scraper blades 302 can be lifted.

Referring to fig. 3, 4, there is shown a schematic view of an embodiment of the utility model suitable for soil working, further,

both the scraper blades 302 and the earth shovel 403 are metal plates which are hard and can shovel or scrape the soil even if they hit a stone, without damaging it.

Claims (10)

1. A hybrid fiber coaxial cable installation mechanism comprising a take-up roller (204), a delivery roller (202), a shovel (403), and a sweep (101), characterized in that: the winding roller (204) is installed on the vehicle plate (101), the two conveying rollers (202) are installed on the vehicle plate (101), the soil shovel (403) is installed at the front end of the vehicle plate (101), and the moving mechanism is installed at the lower end of the vehicle plate (101).

2. A hybrid fiber coaxial cable mounting mechanism as recited in claim 1, wherein: rubber pads are arranged on the two conveying rollers (202).

3. A hybrid fiber coaxial cable mounting mechanism as recited in claim 2, wherein: the winding machine further comprises a speed reducing motor (203), wherein the speed reducing motor (203) is installed on the vehicle plate (101), and the winding roller (204) is installed on an output shaft of the speed reducing motor (203).

4. A hybrid fiber coaxial cable mounting mechanism as recited in claim 3, wherein: the automatic conveying device is characterized by further comprising a speed reducing motor II (201), wherein the speed reducing motor II (201) is installed on the vehicle plate (101), and one conveying roller (202) is installed on an output shaft of the speed reducing motor II (201).

5. The hybrid fiber coaxial cable mounting mechanism of claim 4, wherein: the vehicle plate (101) is also provided with a paving opening (104).

6. A hybrid fiber coaxial cable mounting mechanism as recited in claim 1, wherein: the device is characterized by further comprising a mounting frame (402) and an air cylinder (401), wherein the air cylinder (401) is mounted on the vehicle board (101), the soil shovel (403) is hinged to an air cylinder rod of the air cylinder (401), and the middle of the soil shovel (403) is connected into the mounting frame (402) in a sliding mode.

7. The hybrid fiber coaxial cable mounting mechanism of claim 6, wherein: the moving mechanism comprises a speed reducing motor III (103) and wheels (102), the lower end of the sweep (101) is rotatably connected with the wheels (102), the wheels (102) are all installed on output shafts of the speed reducing motors III (103), and the speed reducing motors III (103) are all installed at the lower end of the sweep (101).

8. The hybrid fiber coaxial cable mounting mechanism of claim 7, wherein: two scrapers (302) are mounted at the rear end of the sweep (101).

9. The hybrid fiber coaxial cable mounting mechanism of claim 8, wherein: the scraper type vehicle body scraper further comprises a speed reducing motor IV (301), the two scrapers (302) are mounted on an output shaft of the speed reducing motor IV (301), and the speed reducing motor IV (301) is mounted on the vehicle board (101).

10. A hybrid fiber coaxial cable mounting mechanism as recited in claim 9, wherein: the two scrapers (302) and the shovel (403) are both metal plates.

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