CN113663948A - Rust removing and ice and snow removing mechanism for 5G communication network communication tower - Google Patents

Abstract

The invention provides a rust removing and ice and snow removing mechanism for a 5G communication network communication tower, and relates to the field of 5G communication equipment. This rust cleaning of 5G communication network communication tower, ice and snow removing mechanism, through windage block, motor one, steel wire cooperation, the motor is a winding steel wire, drives the rubber tube gliding, makes the doctor-bar of rubber sleeve bottom scrape out the layer of growing rust with main signal pole surface friction, realizes cleaing away the purpose of rust. And simultaneously, coating a paraffin layer on the surface of the main signal rod by using paraffin for rust prevention treatment. And then the collision ball continuously collides the connecting cylinder through the rotation of the rotary roller, and the ice wrapping the main signal rod is cracked and loosened through vibration, so that the aim of deicing is fulfilled. Replace the manual clearance of traditional manual work, it is more convenient.

Description

Rust removing and ice and snow removing mechanism for 5G communication network communication tower

Technical Field

The invention relates to the technical field of 5G communication equipment, in particular to a rust removing and ice and snow removing mechanism for a 5G communication network communication tower.

Background

The fifth generation mobile communication technology is the latest generation cellular mobile communication technology. The performance goals of 5G are high data rates, reduced latency, energy savings, reduced cost, increased system capacity, and large-scale device connectivity. 5G communication also requires the use of a communication tower. The communication tower belongs to a signal transmitting tower, also called a signal transmitting tower or a signal tower. The communication tower is a high-rise structure for installing communication antenna, and features high structure, relatively small cross section and transverse load.

For example, "a 5G communication network communication tower" is disclosed in chinese patent network, and the patent number is 201911155237.6. The device comprises a signal rod, a ball, a windproof mechanism, an underframe and inclined struts, wherein the underframe is arranged in the middle of the bottom of the windproof mechanism, the underframe is mechanically connected with the windproof mechanism vertically, the inclined struts are arranged around the underframe and fixed with the underframe, a signal transceiver is arranged in the windproof mechanism, the ball is arranged right above the signal transceiver, the signal rod is arranged at the top end of the ball opposite to the windproof mechanism, and the signal rod is vertically fixed with the ball.

The existing network communication tower is simple in structure, and because the communication tower is placed outdoors, the surface of a metal signal rod at the top of the communication tower can rust after rainwater is poured, and a rust layer can continuously corrode the signal rod, so that rust removal is required at regular intervals. The traditional rust removing mode is that the rust removing device climbs to the top of the communication tower manually and is removed or replaced manually. Is very inconvenient and has certain danger.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a rust removing and ice and snow removing mechanism for a 5G communication network communication tower, and solves the problems that the traditional 5G communication tower in the background art is simple in structure, lacks of a rust removing mechanism, is very troublesome in the traditional manual rust removing mode and is dangerous to some extent.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a 5G communication network communication tower rust cleaning, ice and snow removing mechanism, includes the tower roof, and tower roof top is equipped with the protective housing, and the protective housing top is equipped with hollow connecting cylinder, and the connecting cylinder top is connected with the main signal pole, and the connecting cylinder lower extreme extends to in the protective housing, the circular groove has been seted up at tower roof top, and the circular groove uses the main signal pole as the axis, circular groove sliding fit has the slider, and the slider top is equipped with the windage piece, and windage piece one side is inwards sunken, and the main signal pole top is located axis department pivot joint and has the pivot, and main signal pole body cover has elastic rubber tube, is connected with a plurality of rubber bands between rubber tube top and the pivot, and the windage piece is equipped with motor one, and motor transmission shaft is connected with the steel wire, and windage piece one end is kept away from to the steel wire is connected with rubber tube. The lower end of the rubber cylinder is provided with a cutter for cleaning rust.

Preferably, the rubber band is fixed around the axis equiangular binding at the pivot top, and the rubber tube top is equipped with the turn-ups, and the rubber band is kept away from pivot one end and is fixed with the rubber tube turn-ups and bond, rubber tube inner wall top is inlayed and is had a plurality of paraffin, and rubber tube inner wall bottom is equipped with a plurality of doctor-bars.

Preferably, the center of the scraping blade is fixedly bonded with the rubber cylinder, the plurality of scraping blades are annularly arranged around the axis in a head-to-tail fit mode around the axis, and the scraping blades are used for scraping rust on the surface of the main signal rod.

Preferably, be equipped with two commentaries on classics rollers in the protective housing, changeing the roller and being rotated by motor drive, the connecting cylinder lower extreme is located between two commentaries on classics rollers, and commentaries on classics roller pole body is equipped with the holding ring, and the holding ring is connected with a plurality of rubber poles all around, and the holding ring one end is kept away from to the rubber pole is connected with and hits the ball, change the roller towards the connecting cylinder direction rotatory, make the holding ring drive hit the ball and rotate, take place the striking with the connecting cylinder when hitting the ball motion highest point.

Preferably, the top of the tower is provided with a cylinder, the connecting cylinder and the main signal rod are arranged on the same axis, the upper end of the cylinder is in contact with the bottom of the connecting cylinder, the lower end of the main signal rod is connected with the connecting cylinder in an inserting mode, a vertical auxiliary signal rod is arranged below the top of the tower, and the upper end of the auxiliary signal rod penetrates through the top of the tower, the cylinder and the bottom of the connecting cylinder to be in contact.

Preferably, the rod bodies of the auxiliary signal rods are bulged outwards at equal intervals, a sponge layer matched with the auxiliary signal rods is arranged in the cylinder, and the auxiliary signal rods are wrapped by the sponge layer.

Preferably, top of the tower board bottom bilateral symmetry is equipped with the driver, and vice signal pole is located the driver both sides, the driver includes connecting rod, slide bar, spring, support, compression roller and motor two, and connecting rod and top of the tower board bottom welding, slide bar sliding fit are in the connecting rod, the slide bar extends to outside the connecting rod towards vice signal pole one end to with scaffold weldment, the spring housing is on the slide bar shaft, motor two and scaffold weldment, and motor two transmission shafts and the welding of motor two, motor two are used for the vice signal pole of centre gripping.

Preferably, the outer side of the connecting cylinder is fixedly bound with a steel cable, and one end of the steel cable, which is far away from the connecting cylinder, is fixedly bound with the tower top plate.

Preferably, the slot has been seted up at the protective housing top, and the connecting cylinder is pegged graft with the slot, and a plurality of holes have been seted up around the axis in protective housing top, and hole department fixed mounting has the probe of making a video recording.

(III) advantageous effects

The invention provides a rust removing and ice and snow removing mechanism for a 5G communication network communication tower. The method has the following beneficial effects:

1. this rust cleaning of 5G communication network communication tower, ice and snow removing mechanism, through windage block, motor one, steel wire cooperation, the motor is a winding steel wire, drives the rubber tube gliding, makes the doctor-bar of rubber sleeve bottom scrape out the layer of growing rust with main signal pole surface friction, realizes cleaing away the purpose of rust. And simultaneously, coating a paraffin layer on the surface of the main signal rod by using paraffin for rust prevention treatment. And then the collision ball continuously collides the connecting cylinder through the rotation of the rotary roller, and the ice wrapping the main signal rod is cracked and loosened through vibration, so that the aim of deicing is fulfilled. Replace the manual clearance of traditional manual work, it is more convenient.

Drawings

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is an enlarged view of the structure of FIG. 1 at A according to the present invention;

FIG. 3 is a cross-sectional view of the structure of the present invention;

FIG. 4 is another angular cross-sectional view of the structure of the present invention;

FIG. 5 is a schematic view of the protective case of the present invention;

FIG. 6 is a schematic view of a driver according to the present invention;

FIG. 7 is a schematic view of the structure of the wind-blocking block of the present invention;

FIG. 8 is a partial structure display diagram of the present invention;

FIG. 9 is a structural view of a rubber cylinder according to the present invention;

FIG. 10 is a schematic view of an arrangement of blades according to the present invention.

In the figure: the device comprises a tower top plate 1, a protective shell 2, slots 21, holes 22, a cylinder 3, a sponge layer 31, a connecting cylinder 4, a steel cable 41, a main signal rod 5, an auxiliary signal rod 6, a rotating shaft 7, a rubber band 71, a rubber tube 8, paraffin wax 81, a scraper 82, a sliding block 9, a wind resistance block 10, a motor I101, a steel wire 102, a circular groove 11, a rotating roller 12, a positioning ring 13, a rubber rod 131, a collision ball 132, a driver 14, a connecting rod 141, a sliding rod 142, a spring 143, a bracket 144, a compression roller 145, a motor II 146 and a camera probe 15.

Detailed Description

The embodiment of the invention provides a rust removing and ice and snow removing mechanism for a 5G communication network communication tower, which comprises a tower top plate 1, wherein a protective shell 2 is fixedly arranged at the top of the tower top plate 1, as shown in figures 1-10. A communication device is placed inside the protective case 2. The specific communication facilities are not described in detail since they are prior art.

A hollow connecting cylinder 4 is inserted into the top of the protective shell 2, and a main signal rod 5 is fixedly mounted on the top of the connecting cylinder 4. 4 lower extremes of connecting cylinder extend to in the protective housing 2, and annular groove 11 has been seted up at 1 top of the tower board, and annular groove 11 uses main signal pole 5 as the axis, and 11 sliding fit in annular groove have slider 9, and 9 top fixed mounting of slider have windage block 10, and windage block 10 one side is inside sunken.

The top end of the main signal rod 5 is pivoted with a rotating shaft 7 at the axis, the body of the main signal rod 5 is sleeved with an elastic rubber tube 8, and the rubber tube 8 tightly wraps the main signal rod 5. A plurality of rubber bands 71 are fixedly bound between the top of the rubber tube 8 and the rotating shaft 7. The first motor 101 is welded on the wind resistance block 10, the steel wire 102 is welded on a transmission shaft of the first motor 101, and one end, far away from the wind resistance block 10, of the steel wire 102 is fixedly bound with the rubber barrel 8. The lower end of the rubber cylinder 8 is provided with a cutter for cleaning rust.

In operation, the first motor 101 rotates the winding wire 102, and the wire 102 pulls the rubber tube 8 to slide downwards. Because the rubber tube 8 tightly wraps the main signal rod 5, the cutter at the lower end of the rubber tube 8 rubs with the surface of the main signal rod 5 to scrape off the rusted layer. When the rubber tube 8 descends, the rubber band 71 is stretched to generate a force of contraction. When the first motor 101 stops working, the rubber band 71 contracts to pull the rubber tube 8 to the highest position.

According to the above, in order to enable the motor one 101 to work, a battery and a control module are fixedly installed in the slider 9. Since this is a conventional technical means, it is not drawn in the drawings.

Due to the high height of the communication tower, the air flow above the communication tower passes through the wind resistance block 10, so that the sliding block 9 moves along the circular groove 11. When removing rust, wind is blown through the tower top, so that the rubber cylinder 8 descends while rotating. And force in multiple directions is applied to the surface of the main signal rod 5, so that the rust removing effect is further improved.

The rubber band 71 is fixedly bound around the top of the rotating shaft 7 at equal angles around the axis, a flange is arranged at the top of the rubber cylinder 8, one end, away from the rotating shaft 7, of the rubber band 71 is fixedly bonded with the flange of the rubber cylinder 8, a plurality of paraffin 81 are embedded at the top of the inner wall of the rubber cylinder 8, and a plurality of scraping blades 82 are arranged at the bottom of the inner wall of the rubber cylinder 8.

The center of the scraping blade 82 is fixedly bonded with the rubber cylinder 8, the scraping blades 82 are annularly arranged around the axis in a head-to-tail fit mode around the axis, and the scraping blade 82 is used for scraping rust on the surface of the main signal rod 5. This is so because part of the signal rod is tapered and the diameter gradually increases from top to bottom. The wiper blade 82 is adapted to contract and expand in a first position.

The paraffin 81 functions as: the surface of the main signal rod 5 is coated with a paraffin layer. The surface of the main signal rod 5 is isolated from the outside, and the purpose of preventing rusting is temporarily achieved before a maintainer maintains the communication tower.

Two rotating rollers 12 are pivoted in the protective shell 2, the rotating rollers 12 are driven by a motor to rotate, and the lower end of the connecting cylinder 4 is positioned between the two rotating rollers 12. The body of the roller 12 is welded with a positioning ring 13, a plurality of rubber rods 131 are connected around the positioning ring 13, and one end of each rubber rod 131 far away from the positioning ring 13 is connected with a ball 132. The positioning ring 13, the rubber rod 131 and the ball 132 are integrally formed.

The rotating roller 12 rotates towards the connecting cylinder 4, so that the positioning ring 13 drives the ball 132 to rotate, and when the ball 132 moves to the highest position, the ball collides with the connecting cylinder 4. The knock ball 132 is continuously hit against the connector cylinder 4, and the generated high frequency vibration is transmitted to the main signal rod 5. So that the ice on the surface of the main signal rod 5 is cracked and loosened due to vibration. At the moment, the first motor 101 winds the steel wire 102, so that the rubber barrel 8 slides downwards to wrap the ice shovel outside the main signal rod 5. The purpose of deicing is achieved.

Referring to fig. 5, there is a gap at the slot 21 of the protective shell 2, so that the ball 132 can touch the connecting cylinder 4.

The welding of 1 top of tower roof board has cylinder 3, and cylinder 3, connecting cylinder 4, main signal pole 5 are in same axis, and 3 upper ends of cylinder contact 4 bottoms of connecting cylinder. The lower end of the main signal rod 5 is inserted into the connecting cylinder 4, and a vertical auxiliary signal rod 6 is arranged below the tower top plate 1. The upper end of the auxiliary signal rod 6 penetrates through the tower top plate 1 and the column 3 to be contacted with the bottom of the connecting cylinder 4.

The rod bodies of the auxiliary signal rods 6 are bulged outwards at equal intervals, the cylinders 3 are internally provided with sponge layers 31 matched with the auxiliary signal rods 6, and the auxiliary signal rods 6 are wrapped by the sponge layers 31. Play fixed purpose through sponge layer 31, the rough frictional force in sponge surface is big, avoids vice signal rod 6 gliding.

Meanwhile, the bottom of the auxiliary signal rod 6 is provided with a placing plate, and the placing plate is welded with the tower body. The resting plate itself serves to receive the secondary signal rod 6. The main signal rod 5 and the auxiliary signal rod 6 are electrically connected with other communication equipment.

Drivers 14 are symmetrically arranged on two sides of the bottom of the tower top plate 1, and the auxiliary signal rods 6 are located on two sides of the drivers 14. The driver 14 includes a link 141, a slide bar 142, a spring 143, a bracket 144, a pressure roller 145, and a second motor 146. The pressing roller 145 is made of a rubber material. The connecting rod 141 is welded with the bottom of the tower top plate 1, the sliding rod 142 is in sliding fit in the connecting rod 141, one end of the sliding rod 142, facing the auxiliary signal rod 6, extends out of the connecting rod 141 and is welded with the bracket 144, the spring 143 is sleeved on the rod body of the sliding rod 142, the second motor 146 is welded with the bracket 144, a transmission shaft of the second motor 146 is welded with the second motor 146, and the second motor 146 is used for clamping the auxiliary signal rod 6.

The communication equipment of the communication tower is provided with a master control module, and the master control module operates a driver 14 to work, which is a conventional technical means. In operation, the second motor 146 of the two-side driver 14 rotates upward, so that the pressing roller 145 lifts the sub signal rod 6.

When the main signal rod 5 is damaged, the driver 14 ejects the top end of the auxiliary signal rod 6 out of the protective shell 2. The sub signal rod 6 is operated in place of the damaged main signal rod 5 before the arrival of a maintenance worker.

The outer side of the connecting cylinder 4 is fixedly bound with a steel cable 41, and one end of the steel cable 41 far away from the connecting cylinder 4 is fixedly bound with the tower top plate 1. When the auxiliary signal rod 6 is ejected, the connecting cylinder 4 is separated from the protective shell 2, so the steel cable 41 is required to pull the connecting cylinder 4 to prevent the connecting cylinder from falling and hitting a person.

Slot 21 has been seted up at the protective housing 2 top, and connecting cylinder 4 pegs graft with slot 21, and a plurality of holes 22 have been seted up around the axis at the protective housing 2 top, and hole 22 department fixed mounting has camera probe 15. The image pickup probe 15 picks up whether or not the main signal rod 5 is damaged. When the main signal rod 5 is broken or bent, a signal is transmitted to the communication tower master control unit, so that the driver 14 operates.

In summary, the rust removing and ice and snow removing mechanism for the 5G communication tower is characterized in that the wind resistance block 10, the first motor 101 and the steel wire 102 are matched, the first motor 101 winds the steel wire 102 to drive the rubber cylinder 8 to slide downwards, so that the scraping blade 82 at the bottom of the rubber sleeve 8 rubs the surface of the main signal rod 5 to scrape a rust layer, and the purpose of removing rust is achieved. At the same time, paraffin 81 is used to coat the surface of the main signal rod 5 with a paraffin layer for rust prevention treatment. Then the rotating roller 12 rotates to enable the collision ball 32 to continuously collide the connecting cylinder 4, ice wrapping the main signal rod 5 is cracked and loosened through vibration, and the aim of deicing is achieved. Replace the manual clearance of traditional manual work, it is more convenient.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a rust cleaning of 5G communication network communication tower, removes ice and snow mechanism, includes tower roof (1), its characterized in that: the tower top plate (1) is provided with a protective shell (2) at the top, a hollow connecting cylinder (4) is arranged above the protective shell (2), the top of the connecting cylinder (4) is connected with a main signal rod (5), the lower end of the connecting cylinder (4) extends into the protective shell (2), the top of the tower top plate (1) is provided with a circular groove (11), the circular groove (11) takes the main signal rod (5) as an axis, the circular groove (11) is in sliding fit with a sliding block (9), the top of the sliding block (9) is provided with a wind resistance block (10), one side of the wind resistance block (10) is inwards sunken, the top end of the main signal rod (5) is pivoted with a rotating shaft (7) at the axis position, the rod body of the main signal rod (5) is sleeved with a rubber cylinder (8) with elasticity, a plurality of rubber ribs (71) are connected between the top of the rubber cylinder (8) and the rotating shaft (7), the wind resistance block (10) is provided with a motor I (101), and the transmission shaft of the motor I (101) is connected with a steel wire (102), one end of the steel wire (102) far away from the wind resistance block (10) is connected with the rubber cylinder (8), and the lower end of the rubber cylinder (8) is provided with a cutter for clearing rust.

2. The rust removing, ice and snow removing mechanism for the 5G communication network communication tower according to claim 1 is characterized in that: rubber band (71) are around axis equiangular fixed binding around pivot (7) top, and rubber tube (8) top is equipped with the turn-ups, and pivot (7) one end and rubber tube (8) turn-ups fixed bonding are kept away from in rubber band (71), rubber tube (8) inner wall top is inlayed and is had a plurality of paraffin (81), and rubber tube (8) inner wall bottom is equipped with a plurality of doctor-bars (82).

3. The rust removing, ice and snow removing mechanism for the 5G communication network communication tower according to claim 2 is characterized in that: the center of the scraping blade (82) is fixedly bonded with the rubber cylinder (8), the scraping blades (82) are annularly arranged around the axis in a head-to-tail fit mode around the axis, and the scraping blade (82) is used for scraping rust on the surface of the main signal rod (5).

4. The rust removing, ice and snow removing mechanism for the 5G communication network communication tower according to claim 1 is characterized in that: be equipped with two in protective housing (2) and change roller (12), change roller (12) and rotate by motor drive, connecting cylinder (4) lower extreme is located two and changes between roller (12), changes roller (12) pole body and is equipped with holding ring (13), and holding ring (13) are connected with a plurality of rubber poles (131) all around, and rubber pole (131) are kept away from holding ring (13) one end and are connected with and hit ball (132), it is rotatory towards connecting cylinder (4) direction to change roller (12), makes holding ring (13) drive and hits ball (132) and rotate, takes place the striking with connecting cylinder (4) when hitting ball (132) motion highest point.

5. The rust removing, ice and snow removing mechanism for the 5G communication network communication tower according to claim 1 is characterized in that: the tower top board (1) top is equipped with cylinder (3), connecting cylinder (4), main signal pole (5) are in same axis, and cylinder (3) upper end and connecting cylinder (4) bottom contact, main signal pole (5) lower extreme are pegged graft with connecting cylinder (4), and tower top board (1) below is equipped with vertical vice signal pole (6), runs through tower top board (1), cylinder (3) and connecting cylinder (4) bottom contact on vice signal pole (6).

6. The rust removing, ice and snow removing mechanism for the 5G communication network communication tower according to claim 5 is characterized in that: the auxiliary signal rod (6) is characterized in that the rod body is outwards bulged at equal intervals, a sponge layer (31) matched with the auxiliary signal rod (6) is arranged in the cylinder (3), and the auxiliary signal rod (6) is wrapped by the sponge layer (31).

7. The rust removing, ice and snow removing mechanism for the 5G communication network communication tower according to claim 5 is characterized in that: the tower top plate (1) bottom bilateral symmetry is equipped with driver (14), and vice signal pole (6) are located driver (14) both sides, driver (14) include connecting rod (141), slide bar (142), spring (143), support (144), compression roller (145) and motor two (146), and connecting rod (141) and tower top plate (1) bottom welding, slide bar (142) sliding fit is in connecting rod (141), slide bar (142) extend to outside connecting rod (141) towards vice signal pole (6) one end to weld with support (144), spring (143) cover is on slide bar (142) shaft, and motor two (146) and support (144) welding, and motor two (146) transmission shaft and motor two (146) welding, and motor two (146) are used for centre gripping vice signal pole (6).

8. The rust removing, ice and snow removing mechanism for the 5G communication network communication tower according to claim 1 is characterized in that: the outer side of the connecting cylinder (4) is fixedly bound with a steel cable (41), and one end, far away from the connecting cylinder (4), of the steel cable (41) is fixedly bound with the tower top plate (1).

9. The rust removing, ice and snow removing mechanism for the 5G communication network communication tower according to claim 1 is characterized in that: slot (21) have been seted up at protective housing (2) top, connecting cylinder (4) are pegged graft with slot (21), and a plurality of holes (22) have been seted up around the axis at protective housing (2) top, and hole (22) department fixed mounting has camera probe (15).

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