CN113972592B

CN113972592B - Automatic laying equipment for cables

Info

Publication number: CN113972592B
Application number: CN202111284837.XA
Authority: CN
Inventors: 刘鹏岗; 何小冬; 侯杉; 周宏博; 褚旭亮
Original assignee: Beijing Urban Construction North Equipment Installation Co ltd; Beijing Urban Construction Group Co Ltd
Current assignee: Beijing Urban Construction North Equipment Installation Co ltd; Beijing Urban Construction Group Co Ltd
Priority date: 2021-11-01
Filing date: 2021-11-01
Publication date: 2023-03-03
Anticipated expiration: 2041-11-01
Also published as: CN113972592A

Abstract

The invention discloses automatic laying equipment for cables, which comprises a box body, wherein a brush block is fixedly connected to the top of the inner wall of the box body, a first roller is contacted with the bottom of the brush block, a first rotating rod is fixedly connected to the inner wall of the first roller, two ends of the first rotating rod are rotatably connected with the front side and the back side of the inner wall of the box body through bearings, a cable is contacted with the bottom of the first roller, a second roller is contacted with the bottom of the cable, a connecting rod is fixedly connected to the inner wall of the second roller, one end of the connecting rod is rotatably connected with the front side of the inner wall of the box body through bearings, and a gravity rotating cleaning mechanism is arranged inside the second roller. This kind of automatic laying equipment for cable is through setting up the rotatory clean mechanism of gravity to make when laying the conveying to the cable conductor, automatic release is cleaned at the friction of brush outer wall, clears up and collects the recovery in a concentrated way.

Description

Automatic laying equipment for cables

Technical Field

The invention relates to the technical field of cables, in particular to automatic laying equipment for cables.

Background

The cable laying refers to a process of laying and installing cables along the checked route to form a cable line. According to the use occasion, the method can be divided into a plurality of laying modes such as overhead, underground (pipelines and direct burial), underwater, walls, tunnels and the like. The reasonable selection of the laying mode of the cable is very important for ensuring the transmission quality, reliability, construction maintenance and the like of the line, and the direct-buried laying mode is generally adopted for the long-distance communication cable in order to ensure the safe and reliable communication. The main cables (trunk cables for relays and users) in cities generally adopt a pipeline laying mode to ensure safe and reliable communication, convenient installation and replacement, beautiful appearance and the like. The distribution cable in the city can adopt an overhead and wall laying mode, and is gradually replaced by a pipeline laying mode along with the development of modern city construction. At present when cable laying, lay to the assigned position through artifical pulling after the conveying of second gyro wheel, but at present in acting as go-between to the cable, the cable overlength is too much to make the cable outer wall also more because the residue that the transportation carried, lead to applying a large amount of residues in the inslot and pile up, thereby the mutual extrusion of cable leads to the cable exocuticle to take place the damaged condition of friction to appear easily.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides automatic laying equipment for cables, which solves the problems that a large amount of residues are accumulated in a laying groove, and the friction damage is easily caused on the outer skin of the cable due to the mutual extrusion of the cables.

In order to achieve the purpose, the invention is realized by the following technical scheme: an automatic laying device for cables comprises a box body, wherein a brush block is fixedly connected to the top of the inner wall of the box body, a first roller is contacted with the bottom of the brush block, a first rotating rod is fixedly connected to the inner wall of the first roller, two ends of the first rotating rod are rotatably connected with the front side and the back side of the inner wall of the box body through bearings, a cable is contacted with the bottom of the first roller, a second roller is contacted with the bottom of the cable, a connecting rod is fixedly connected to the inner wall of the second roller, one end of the connecting rod is rotatably connected with the front side of the inner wall of the box body through a bearing, a motor is fixedly connected to the other end of the connecting rod, the back side of the motor is fixedly connected with the back side of the inner wall of the box body, and a gravity rotating cleaning mechanism is arranged inside the second roller;

rotatory clean mechanism of gravity includes rubber pad, slider, ejector pad, elastic plate A, elevator, connecting pipe, gas tank, rubber pad inner wall and second gyro wheel outer wall fixed connection, the inside smooth chamber of having seted up of second gyro wheel, slider outer wall and smooth intracavity wall sliding connection, ejector pad outer wall fixed connection elastic cord, elastic cord one end and smooth intracavity wall fixed connection, the ejector pad outer wall and elastic plate A one end fixed connection, the elastic plate A other end and elevator outer wall fixed connection, elevator outer wall and ejector pad inner wall sliding connection, elevator inner wall and connecting pipe outer wall fixed connection, the connecting pipe other end and ejector pad inner wall fixed connection, the gas tank is seted up inside the elevator, and the brush top contacts with the rubber pad outer wall, the inside vertical lift mechanism that is provided with of second gyro wheel, second gyro wheel bottom is provided with magnetism vibrations shake-off mechanism.

Preferably, vertical lift mechanism includes elastic plate B, second bull stick, connecting block, magnetic path A, magnetic path B, dead lever, elastic plate B one end and smooth intracavity wall fixed connection, the elastic plate B other end and connecting block outer wall fixed connection, connecting block outer wall and second bull stick outer wall fixed connection, second bull stick both ends are passed through the bearing rotation with smooth intracavity wall openly, the inner wall back respectively and are connected, connecting block inner wall and magnetic path A outer wall fixed connection, the connecting block inner wall is articulated with dead lever one end, dead lever inner wall and magnetic path B outer wall fixed connection.

Preferably, magnetism vibrations shake off mechanism includes magnet A, brush, magnet B, lifter plate, gag lever post, elastic plate C, magnet A outer wall and lifter plate inner wall fixed connection, the contact of brush top and second gyro wheel bottom, brush bottom and lifter plate top fixed connection, magnet B outer wall and lifter plate inner wall fixed connection, lifter plate inner wall and gag lever post outer wall sliding connection, lifter plate top and brush bottom fixed connection, gag lever post one end and box inner wall bottom fixed connection, lifter plate bottom and elastic plate C one end fixed connection, the elastic plate C other end and box inner wall bottom fixed connection.

Preferably, the inside of the air tank is communicated with the inside of the connecting pipe, and the inside of the air tank is communicated with the outside of the lifting block, so that air can be communicated.

Preferably, the opposite side of the magnetic block B and the magnetic block A is opposite in magnetic polarity, so that opposite poles attract each other.

Preferably, the magnets a and B have the same magnetic polarity on the opposite side, so that the same magnetic polarity repels each other.

Preferably, the outer wall of the sliding block is provided with a groove, so that the fixing rod can move from space through the groove.

Preferably, open slots are formed in two sides of the box body, so that the cable is placed into the box body through the open slots.

The invention provides automatic laying equipment for cables. The method has the following beneficial effects:

(1) This kind of automatic laying equipment for cable, through setting up the rotatory clean mechanism of gravity, thereby make when laying the conveying to the cable conductor, along with the rotation of second gyro wheel, make and to carry out normal conveying in the conveying cable, when the ejector pad rotates to second gyro wheel bottom along with the second gyro wheel, release that can be automatic is cleaned the friction at the brush outer wall, make the rubbish after will gluing clear up and collect the recovery in a concentrated way, keep the cleanness of elevator outer wall, and reciprocating circulation carries out the clean conveying of adhesion to the cable conductor and lays work.

(2) This kind of automatic laying equipment for cable, through setting up the rotatory clean mechanism of gravity, thereby make inside elevator also can be released in elastic plate A's bounce along with the inertia of self when the ejector pad is released, can carry out reciprocal vibrations simultaneously under elastic plate A's bounce, thereby further carry out more efficient with the residue and the rubbish of elevator outer wall adhesion and shake off, the cleanliness of elevator has been promoted, also promote simultaneously and to the clear efficiency of cable conductor adhesion.

(3) This kind of automatic laying equipment for cable is through setting up the rotatory clean mechanism of gravity to make can be when the elevator is released and shakes through self inertia, can spout the intractable rubbish of elevator surface adhesion through the reciprocal jet-propelled in gas tank, avoid the unable condition of shaking off of residue that the adhesion is stronger to appear.

(4) This automatic laying equipment for cable is through setting up vertical lift mechanism to can guarantee to be in the fastest speed at the slider whereabouts at every turn and strike the ejector pad, guarantee the speed of being released of ejector pad every time, also further promote the vibration frequency of the inside elevator of ejector pad and shake and last long lasting, further guarantee the clean efficiency to the elevator surface.

(5) This kind of automatic laying equipment for cable, shake off the mechanism through setting up the magnetism vibrations, in the elevator in second gyro wheel bottom, magnet A of elevator inside is continuous relative and the magnetism through homopolar is repelled with magnet B, thereby continuous promotion lifter plate, the lifter plate then slides at the gag lever post outer wall and descends and constantly carries out the over-and-under type vibrations under springback force of elastic plate C, thereby constantly shake through the brush and clean with second gyro wheel outer wall, thereby promote the contact dynamics of brush and elevator outer wall and rubber pad outer wall, very big promotion is to the outside whole clean effect of whole second gyro wheel, the residue that also can sweep the brush simultaneously shakes off it to the lifter plate through the shake of self, the clean effect of brush has been guaranteed.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the invention at B of FIG. 3;

fig. 5 is an enlarged view of the invention 3 at C.

In the figure: 1 cable, 2 second rollers, 3 gravity rotary cleaning mechanisms, 301 rubber pads, 302 sliding blocks, 303 pushing blocks, 304 elastic plates A, 305 lifting blocks, 306 connecting pipes, 307 air grooves, 4 vertical lifting mechanisms, 401 elastic plates B, 402 second rotating rods, 403 connecting blocks, 404 magnetic blocks A, 405 magnetic blocks B, 406 fixing rods, 5 magnetic vibration shaking-off mechanisms, 501 magnets A, 503 brushes, 504 magnets B, 505 lifting plates, 506 limiting rods, 507 elastic plates C, 6 connecting rods, 7 boxes, 8 brush blocks, 9 first rotating rods and 10 first rollers.

Detailed Description

Referring to fig. 1-5, the present invention provides a technical solution: an automatic laying device for cables comprises a box body 7, open slots are formed in two sides of the box body 7, a brush block 8 is fixedly connected to the top of the inner wall of the box body 7, a first roller 10 is in contact with the bottom of the brush block 8, a first rotating rod 9 is fixedly connected to the inner wall of the first roller 10, two ends of the first rotating rod 9 are in front connection with the inner wall of the box body 7, the back of the inner wall is in rotating connection through a bearing, a cable 1 is in contact with the bottom of the first roller 10, a second roller 2 is in contact with the bottom of the cable 1, a connecting rod 6 is fixedly connected to the inner wall of the second roller 2, one end of the connecting rod 6 is in rotating connection with the front of the inner wall of the box body 7 through the bearing, a motor is fixedly connected to the other end of the connecting rod 6, the back of the motor is fixedly connected with the back of the inner wall of the box body 7, and a gravity rotating cleaning mechanism 3 is arranged inside the second roller 2;

the gravity rotating cleaning mechanism 3 comprises a rubber pad 301, a sliding block 302, a groove is formed in the outer wall of the sliding block 302, a pushing block 303, an elastic plate A304, a lifting block 305, a connecting pipe 306 and an air groove 307, the inside of the air groove 307 is communicated with the inside of the connecting pipe 306, the inside of the air groove 307 is communicated with the outside of the lifting block 305, the inner wall of the rubber pad 301 is fixedly connected with the outer wall of the second roller 2, a sliding cavity is formed in the second roller 2, the outer wall of the sliding block 302 is slidably connected with the inner wall of the sliding cavity, the outer wall of the pushing block 303 is slidably connected with the inner wall of the sliding cavity, an elastic rope is fixedly connected with the inner wall of the sliding cavity, the outer wall of the pushing block 303 of the pushing block is fixedly connected with one end of the elastic plate A304, the other end of the elastic plate A304 is fixedly connected with the outer wall of the lifting block 305, the outer wall of the lifting block 305 is slidably connected with the inner wall of the pushing block 303, the inner wall of the lifting block 305 is fixedly connected with the outer wall of the connecting pipe 306, the other end of the connecting pipe 306 is fixedly connected with the inner wall of the pushing block 303, the air groove 307 is formed in the lifting block 305, the top of a brush 503 is in contact with the outer wall of the rubber pad 301, a vertical lifting mechanism 4 is arranged in the second roller 2, and a magnetic shaking mechanism 5 is arranged at the bottom of the second roller 2.

The vertical lifting mechanism 4 comprises an elastic plate B401, a second rotating rod 402, a connecting block 403, a magnetic block A404 and a magnetic block B405, the magnetism of one side, opposite to the magnetic block A404, of the magnetic block B405 is heteropolar, a fixing rod 406, one end of the elastic plate B401 is fixedly connected with the inner wall of a sliding cavity, the other end of the elastic plate B401 is fixedly connected with the outer wall of the connecting block 403, the outer wall of the connecting block 403 is fixedly connected with the outer wall of the second rotating rod 402, two ends of the second rotating rod 402 are respectively connected with the front face of the inner wall of the sliding cavity and the back face of the inner wall through bearings in a rotating mode, the inner wall of the connecting block 403 is fixedly connected with the outer wall of the magnetic block A404, the inner wall of the connecting block 403 is hinged to one end of the fixing rod 406, and the inner wall of the fixing rod 406 is fixedly connected with the outer wall of the magnetic block B405.

The magnetic vibration shaking-off mechanism 5 comprises a magnet A501, the magnetism of the opposite side of the magnet A501 and the magnet B504 is homopolar, a brush 503, a magnet B504, a lifting plate 505, a limiting rod 506 and an elastic plate C507, the outer wall of the magnet A501 is fixedly connected with the inner wall of a lifting block 305, the top of the brush 503 is contacted with the bottom of a second roller 2, the bottom of the brush 503 is fixedly connected with the top of the lifting plate 505, the outer wall of the magnet B504 is fixedly connected with the inner wall of the lifting plate 505, the inner wall of the lifting plate 505 is slidably connected with the outer wall of the limiting rod 506, the top of the lifting plate 505 is fixedly connected with the bottom of the brush 503, one end of the limiting rod 506 is fixedly connected with the bottom of the inner wall of the box body 7, the bottom of the lifting plate 505 is fixedly connected with one end of the elastic plate C507, and the other end of the elastic plate C507 is fixedly connected with the bottom of the inner wall of the box body 7.

When the cable conveying device is used, a cable 1 is placed into a box body 7 through an open slot on one side of the box body 7, then the cable 1 is placed between a second roller 2 and a first roller 10, then a starting motor drives a connecting rod 6 to rotate, the connecting rod 6 drives the second roller 2 to rotate, the second roller 2 is clung to the cable 1 through a rubber pad 301 on the outer wall, and the cable 1 is clung to the first roller 10, so that the cable 1 is transmitted along with the rotation of the second roller 2, meanwhile, the first roller 10 is also driven by the cable 1 to rotate, so that the cable 1 is clamped, fixed and slowly conveyed, then when the cable 1 rotates slowly, a sliding block 302 in the cable 1 slides along with the rotation from top to bottom, the sliding block 302 slides in a sliding cavity along with the self gravity and pushes a pushing block 303, the pushing block 303 is pushed to fall, so as to pull an elastic rope to deform, meanwhile, when the pushing block 303 is impacted and popped downwards, a large amount of dust and debris adhered to the outer wall of the cable 1 are pushed out by the surface of the lifting block 305 through the vibration of quick pushing and are in contact with the brush 503, so that the dust and debris are swept away by the brush 503, and when the pushing block 303 is pushed out quickly, the lifting block 305 inside the pushing block 303 is also pushed out at the same time and passes through the elastic force of the elastic plate A304, so that the bottom of the second roller 2 is vibrated in a reciprocating manner, a large amount of garbage adhered to the outer wall of the cable 1 is further cleaned through the pushing and vibrating of the lifting block 305 and the pushing block 303, the cable 1 is laid cleanly, and simultaneously when the lifting block 305 vibrates in a reciprocating manner, air between the lifting block 305 and the pushing block 303 enters the air groove 307 through the connecting pipe 306, then the air is sprayed out of the lifting block 305 in a reciprocating manner, and residues with strong adhesion are sprayed out, meanwhile, when the sliding block 302 rotates from the top of the second roller 2 to the bottom of the second roller 2 for half a turn along with the second roller 2, the sliding block 302 falls on the fixing rod 406 along with the self gravity, until the sliding cavity outside the sliding block 302 is vertical, the self gravity of the sliding block 302 completely falls on the fixing rod 406, so that the elastic plate B401 is pressed on the connecting block 403 supported by the fixing rod 406, the rebound force of the elastic plate B401 is smaller than the gravity of the sliding block 302, so that the elastic plate B401 is pressed to deform, the sliding block 302 falls off the fixing rod 406, then the sliding block 302 is quickly impacted by the acceleration, then the sliding block 302 pushes the fixing rod 406 from one side of the fixing rod 406 along with the second roller 2 rotating for half a turn again, so that the gravity is larger than the magnetism of the magnetic block a404 of the magnetic block B405 and the magnetic block 406, the fixing rod is separated from the connecting block 403, and then returns to the original position until the sliding block 302 is on the top of the second roller 2, the sliding block 302 is arranged at the bottom in the cavity and reciprocates, so that the sliding block 302 can be ensured to impact the pushing block 303 at the fastest speed when falling down each time, the pushing speed of the pushing block 303 each time is ensured, the vibration frequency and the vibration duration of the lifting block 305 inside the pushing block 303 are further improved, the cleaning efficiency of the surface of the lifting block 305 is further ensured, meanwhile, when the lifting block 305 is arranged at the bottom of the second roller 2, the magnet A501 inside the lifting block 305 is continuously opposite to the magnet B504 and is repelled through the magnetism of the same pole, so that the lifting plate 505 is continuously pushed, the lifting plate 505 slides down on the outer wall of the limiting rod 506 and is continuously lifted and vibrated under the counter elasticity of the elastic plate C507, so that the outer wall of the second roller 2 is continuously cleaned through the vibration 503, and the contact force between the brush 503 and the outer wall of the lifting block 305 and the outer wall of the rubber pad 301 is improved, the whole cleaning effect of the whole second roller 2 is greatly improved, and meanwhile, the residues swept away by the brush 503 can be shaken off to the lifting plate 505 through self shaking, so that the cleaning effect of the brush 503 is ensured.

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 should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides an automatic laying equipment for cable, includes box (7), its characterized in that: the cleaning device is characterized in that a brush block (8) is fixedly connected to the top of the inner wall of the box body (7), a first roller (10) is contacted with the bottom of the brush block (8), a first rotating rod (9) is fixedly connected to the inner wall of the first roller (10), two ends of the first rotating rod (9) are rotatably connected with the front side and the back side of the inner wall of the box body (7) through bearings, a cable (1) is contacted with the bottom of the first roller (10), a second roller (2) is contacted with the bottom of the cable (1), a connecting rod (6) is fixedly connected to the inner wall of the second roller (2), one end of the connecting rod (6) is rotatably connected with the front side of the inner wall of the box body (7) through bearings, a motor is fixedly connected to the other end of the connecting rod (6), the back side of the motor is fixedly connected with the back side of the inner wall of the box body (7), and a gravity rotating cleaning mechanism (3) is arranged inside the second roller (2);

the gravity rotating cleaning mechanism (3) comprises a rubber pad (301), a sliding block (302), a pushing block (303), an elastic plate A (304), a lifting block (305), a connecting pipe (306) and an air groove (307), the inner wall of the rubber pad (301) is fixedly connected with the outer wall of the second roller (2), a sliding cavity is arranged in the second roller (2), the outer wall of the sliding block (302) is connected with the inner wall of the sliding cavity in a sliding way, the outer wall of the push block (303) is connected with the inner wall of the sliding cavity in a sliding way, the outer wall of the push block (303) is fixedly connected with an elastic rope, one end of the elastic rope is fixedly connected with the inner wall of the sliding cavity, the outer wall of the push block (303) is fixedly connected with one end of an elastic plate A (304), the other end of the elastic plate A (304) is fixedly connected with the outer wall of the lifting block (305), the outer wall of the lifting block (305) is connected with the inner wall of the push block (303) in a sliding way, the inner wall of the lifting block (305) is fixedly connected with the outer wall of the connecting pipe (306), the other end of the connecting pipe (306) is fixedly connected with the inner wall of the push block (303), the air groove (307) is arranged in the lifting block (305), the top of the brush (503) is contacted with the outer wall of the rubber pad (301), a vertical lifting mechanism (4) is arranged in the second roller (2), and a magnetic vibration shaking-off mechanism (5) is arranged at the bottom of the second roller (2).

2. An automated cabling apparatus according to claim 1, wherein: vertical lift mechanism (4) include elastic plate B (401), second bull stick (402), connecting block (403), magnetic block A (404), magnetic block B (405), dead lever (406), elastic plate B (401) one end and sliding chamber inner wall fixed connection, elastic plate B (401) other end and connecting block (403) outer wall fixed connection, connecting block (403) outer wall and second bull stick (402) outer wall fixed connection, second bull stick (402) both ends pass through the bearing rotation with the sliding chamber inner wall is positive, the inner wall back respectively and are connected, connecting block (403) inner wall and magnetic block A (404) outer wall fixed connection, connecting block (403) inner wall is articulated with dead lever (406) one end, dead lever (406) inner wall and magnetic block B (405) outer wall fixed connection.

3. An automated cabling apparatus according to claim 2, wherein: magnetic vibration shakes off mechanism (5) and includes magnet A (501), brush (503), magnet B (504), lifter plate (505), gag lever post (506), elastic plate C (507), magnet A (501) outer wall and elevator block (305) inner wall fixed connection, brush (503) top and second gyro wheel (2) bottom contact, brush (503) bottom and lifter plate (505) top fixed connection, magnet B (504) outer wall and lifter plate (505) inner wall fixed connection, lifter plate (505) inner wall and gag lever post (506) outer wall sliding connection, lifter plate (505) top and brush (503) bottom fixed connection, gag lever post (506) one end and box (7) inner wall bottom fixed connection, lifter plate (505) bottom and elastic plate C (507) one end fixed connection, the elastic plate C (507) other end and box (7) inner wall bottom fixed connection.

4. An automated cabling apparatus according to claim 3, wherein: the inside of the air groove (307) is communicated with the inside of the connecting pipe (306), and the inside of the air groove (307) is communicated with the outside of the lifting block (305).

5. An automated cabling apparatus according to claim 4, wherein: and the opposite side of the magnetic block B (405) and the magnetic block A (404) is opposite in magnetism.

6. An automated cabling apparatus according to claim 5, wherein: the magnetism of the side of the magnet A (501) opposite to the magnet B (504) is homopolar.

7. An automated cabling apparatus according to claim 6, wherein: the outer wall of the sliding block (302) is provided with a groove.

8. An automated cabling apparatus according to claim 7, wherein: open slots are formed in two sides of the box body (7).