RU2488203C1 - Antenna post for radio relay station - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: antenna post for radio relay station comprises: a base made of steel in form of a base plate, a telescopic mast shaft consisting of one fixed section and four movable sections made from duralumin tubes of different diameter, a latch and a reading scale on the base plate, a cross-over winch built into the fixed section, having a drive and a double steel cable wounds on its drum, revolving rings with three lugs made in the top part of the fixed section and each of the four movable sections, a cantilever beam mounted at the top of the fourth movable section, the cantilever beam being fitted with an antenna unit having two antennae, a telescopic mast mounting consisting of six winches, on the axis of each of which there are two drums isolated from each other, on each of which is wound a steel cable of the corresponding guy-wire, six steel poles hammered into the ground at a small angle, on each of which is mounted the corresponding winch; a feeder cable, which is connected through the antenna unit to the first and second antennae, is mounted on the shaft of the mast by braces.

EFFECT: providing stable operation of the device in different climatic conditions and shorter time for unfolding the mast.

3 cl, 1 dwg

Description

The invention relates to a design of elements of radio systems and can be used as an antenna mast device for radio relay stations operating in the field.

It is known that in radio relay stations various antenna mast devices are used, including telescopic masts of various heights from 12 to 20 m or more, on which both directional and non-directional antennas are placed. Such masts can be installed both on stationary and on moving objects.

The closest in technical essence to the proposed invention is the antenna mast device (AMU), described in [1], which contains a rapidly expanding telescopic mast with a console mounted on it, on which an antenna unit is installed, consisting of two vertical log-periodic antennas located in vertical plane.

The main disadvantage of the known antenna mast device is that it does not provide for mounting the mast on the ground and there is no possibility of folding the mast for its transportation. This limits the possibility of using the known device in radio relay stations operating in the field, since the lack of mast mounting can lead to the fact that under the influence of wind the orientation of the antennas mounted on the mast can be impaired, communication stability will deteriorate and even organized radio relay communication line.

The aim of the invention is to ensure the stability of the device in various climatic conditions and reduce the deployment time of the mast.

This goal is achieved by the fact that in the antenna mast device (AMU) for a radio relay station containing a telescopic mast with a console fixed to its top, on which an antenna unit is installed, which includes the first and second antennas, the telescopic mast is structurally made integral, including a base made of steel in the form of a base plate on which, using a ball bearing, a mast shaft is fixed, consisting of one fixed and four movable sections made of duralumin pipes diameter, the largest diameter being the fixed section and the smallest diameter being the fourth movable section, which allows the movable sections to freely enter the fixed section when folding the mast when it is being rolled up, the base plate contains a stopper for fixing the mast when orienting it in azimuth and a reference scale of orientation angle , in the fixed section there is a bypass winch with a drive and a double (lifting and lowering branches) power steel cable wound on its drum, the second end of which is fixed to the top of the inside three fourth movable sections, in the upper part of the stationary section and in each of the four movable sections there are made rotating rings with three ears each, intended for fastening the cables of the corresponding guy wires, on the top of the fourth movable section a console is mounted on which the antenna unit is mounted on the mast trunk using staples, a feeder cable is connected, connected through the antenna unit to the antennas; The AMU additionally contains a telescopic mast mount, consisting of six traction winches, on the axis of each of which are two drums isolated from each other, on each of which a steel cable of the guy wire is wound, and six steel stakes, each of which is attached one traction winch, on the first, second and third ears of the rotating ring of the fixed section, the second ends of the guy ropes mounted on the first drums of the first, third and fifth traction winches, respectively, are fixed on the first with the torus and the third ears of the rotating ring of the second movable section, the second ends of the guy ropes mounted on the second reels of the first, third and fifth traction winches, respectively, are fastened with carabiners, the second ends of the cables are fixed with the help of carbines on the first, second and third ears of the rotating ring of the third movable section guy wires placed on the first drums of the second, fourth and sixth traction winches respectively, on the first, second and third ears of the rotating ring of the fourth movable section are fixed with p With the help of carbines, the second ends of the guy ropes placed on the second reels of the second, fourth and sixth traction winches, respectively, to ensure the stability of the telescopic mast on the ground, the traction winches are spaced on the ground and arranged in pairs (the first and second, third and fourth, fifth and sixth winches) through 120 degrees in a circle with a diameter of 30 meters, and the stakes on which the winches are fixed are driven into the ground at a small angle (about 20 degrees) to the vertical in the opposite direction from the center of the mast shaft.

Comparative analysis with the prototype shows that the inventive antenna mast device for a radio relay station is characterized by the presence of new units and their implementation: the implementation of a telescopic mast, which includes a base made of steel base plate, mast shaft, consisting of one fixed and four movable sections made of duralumin pipes of various diameters built into the fixed section of the overflow winch with a drive and a double power steel cable wound on its drum, designed for lifting the mast sections, attaching the mast, consisting of six of the same type of traction winches, on which are installed two drums isolated from each other with steel cables of guy ropes, six stakes for attaching the traction winches, as well as the bypass winch drive made in the form manual drive, consisting of a removable lever with a handle, and a semi-automatic drive in the form of an electric drill, which contributed to a significant reduction in the timing of the mast lifting and a decrease in power nd operators deploying AMU in the field.

In the study of known technical solutions in this technical field, the combination of features and the implementation of the elements of the device that distinguish the claimed antenna mast device for a radio relay station was not detected. The proposed solution is significantly different from the currently known technical solutions.

Thus, the claimed antenna mast device for a radio relay station meets the criteria of the invention of "novelty." A comparison of the proposed solutions with other technical solutions shows that the introduced blocks and elements are widely known and additional creativity for their implementation is not required. However, when they are introduced in this connection with the remaining structural elements in the inventive device, they exhibit new properties, which leads to the achievement of the goal.

This allows us to conclude that the technical solution meets the criterion of "significant differences".

The proposed device is structurally made using industrial materials. A prototype antenna mast device was manufactured, which was tested, on the basis of which it was concluded that it was possible to industrialize the proposed antenna mast device.

The drawing schematically shows an antenna mast device for a radio relay station in the expanded state.

Antenna mast device (AMU) for a radio relay station contains a base made of steel in the form of a base plate 1, a barrel 2 of a telescopic mast, consisting of one fixed section 3, the first 4, second 5, third 6 and fourth 7 movable sections made of duralumin pipes of various diameters.

The base plate 1 contains a stopper 8 for fixing the mast when orienting it in azimuth and a scale 9 of the reference angle.

In the lower part of the fixed section 3, an overflow winch 10 is mounted with a drive 11 and a double steel (lifting and lowering branches) power cable 12 wound on its drum.

In the upper part of the fixed section 3, a rotating ring 13 with three ears is made, and in the upper part of the first 4, second 5, third 6 and fourth 7 movable sections, rotating rings 14, 15, 16 and 17 with three ears each, respectively, are installed.

At the top of the fourth movable section 7, a console 18 is mounted on which an antenna unit 19 is installed, including the first 20 and second 21 antennas.

The antenna mast device also includes a telescopic mast mount, consisting of a first 22 traction winch, on the axis of which are placed the first 23 drum with a steel cable 24 of the guy wire wound on it and the second 25 drum with a steel cable of the 26 guy wire wound on it; second 27 traction winch, on the axis of which are placed the first 28 drum isolated from each other with a steel guy cable 29 drawn off on it and the second 30 drum with a steel cable 31 wound around it guy wires; third 32 traction winch, on the axis of which are placed isolated from each other, the first 33 drum with a steel guy cable 34 wound thereon and the second 35 drum with a steel cable 36 wound around it guy; fourth 37 traction winch, on the axis of which are placed isolated from each other, the first 38 drum with a steel guy cable 39 wound on it and the second 40 drum with a steel cable wound on it 41 guy; the fifth 42 traction winch, on the axis of which are placed isolated from each other, the first 43 drum with a steel cable 44 of the guy wire wound thereon and the second 45 drum with a steel cable 46 of the guy wire wound on it; the sixth 47 of the traction winch, on the axis of which are placed the first 48 drum isolated from each other with a steel guy cable 49 wound on it and the second 50 drum with a steel guy wire 51 wound on it.

AMU also contains the first 52, second 53, third 54, fourth 55, fifth 56 and sixth 57 steel stakes. At the same time, the first 22 traction winch is fixed on the first 52 steel stake, on the second 53 - the second 27 traction winch, on the third 54 - the third 32 traction winch, on the fourth 55 - the fourth 37 traction winch, on the fifth 56 - the fifth 42 traction winch and on the sixth 57 steel stake is fixed, respectively, the sixth 47 traction winch.

Traction winches are spaced on the ground and arranged in pairs (first 22 and second 27, third 32 and fourth 37, fifth 42 and sixth 47) through 120 degrees around a circumference of 30 meters in diameter. Stakes, on which traction winches are fixed, are driven into the ground at a small angle (about 20 degrees) to the vertical in the opposite direction from the center of the mast shaft 2.

On the trunk of the mast 2 with the help of brackets, a feeder cable 58 is connected, connected through the antenna unit 19 to the first 20 and second 21 antennas.

To ensure a more reliable fastening of the mast, the base plate 1 can be fixed to the ground using additional square stakes through holes in the plate (they are not shown in the drawing).

The telescopic mast 2 is designed to lift the first 20 and second 21 antennas to a height of up to twenty meters.

The mast barrel 2 is tubular, telescopic consists of one fixed 3 and four (4, 5, 6 and 7) movable sections.

In the lower part of the pipes of the first 4, second 5 and third 6 movable sections there is a lock connecting the sections to each other. The lock is made in the form of a welded case, inside of which a dog with a roller and a locking lever with a spring are fixed.

Inside the pipe of the fourth 7 movable section, a tensioning device is installed, with which the lowering end of the power steel cable 12 with a diameter of 4 mm is pulled.

The fixed section 3 is structurally made of a duralumin pipe with a diameter of 110 mm, and the diameter of the pipes of the first 4 and subsequent movable sections is reduced by about 12 mm, the diameter of the pipe of the fourth 7 of the movable section is not more than 60 mm.

The overflow winch 10 with drive 11 serves to extend and fold the movable sections of the telescopic mast.

As a bypass winch, a winch containing a drum, a special nut, a pin, a brake axle, a first gear, a ratchet wheel, a cable, a spring, a dog, a dog axle, a second gear, a first key, a drive in the form of a removable lever with a handle for deployment can be used the masts, the bronze ring, the second key, the third gear, the conical sleeve and the pin, while the first gear on the end on the side of the special nut has a helical depression, and the nut on the end on the side of the first gear has a protrusion, the second gear is fixed on the t axis the brakes with the keys, the first gear, the conical sleeve, the ratchet ring and the bronze ring are freely seated on the brake axis, a special nut is fixed to the brake axis with a pin with a gap formed between the screw protrusion at its end and the screw cavity on the end of the first gear, third the gear is integral with the drum, on which a double power steel cable is wound.

The overflow winch 10 is mounted in a housing fixed to the bottom of the fixed section 3.

As the drive 11 of the overflow winch 10, a manual drive consisting of a lever and a handle or a semi-automatic drive made in the form of an electric drill can be used, in which a nozzle is used instead of the drill, one end of which is inserted into the keyless drill chuck, and the other end is fixed to the overflow winch shaft 10. At the same time, the operating mode switch and the reverse device must be provided in the said drill to ensure the overflow winch shaft rotates in the opposite direction (counterclockwise The arrow).

As an electric drill, an electric drill of the Makita 6410 type can be used.

The specified electric drill provides a rotational speed of 2800 rpm powered by an alternating current main with a rated voltage of 220 V and a power consumption of 530 watts. It has a mode switch and a reverse device, a convenient and reliable switch.

An electric drill powered by a direct current source with a rated voltage of 28 V and power consumption of up to 500 W can also be used as an electric drive.

As the first antenna 20 of the antenna unit 19, an antenna can be used, which is a log-periodic antenna containing m (m≥5) vibrators and designed for directional radiation and directional reception of radio signals in the meter frequency range, and the second antenna 21 of the antenna unit 19 is in-phase a grating designed for directional radiation and directional reception of radio signals in the decimeter frequency range, containing two type Z emitters, a flat reflector and a power divider.

Each of the six (22, 27, 32, 37, 42, 47) traction winches consists of a frame-type housing on which two drums rotate on the axes. Each drum rotates with a handle that can be folded into the drum and held by a coil spring. On each drum, the end of the guy wire is fixed, on the second end of which a carabiner is fastened to fasten the guy to the corresponding eye of the rotating ring of the fixed section 3 and each (4, 5, 6 and 7) from the movable sections of the telescopic mast 2.

Each traction winch is mounted on one of the stakes (52-57) with the help of a device (clamp). To fix the drums in the working position on the outer surface of the cheeks there are protrusions into which the tooth of the holding lever enters. Each drum is equipped with a clamping plate that prevents the cable from slipping off and ensures that it is laid evenly during winding. The drums should be marked with the level of the guy line, and the carabiners of the guy cables and the ears of the rotating rings should be painted in the corresponding color.

After the traction winch is connected to the stake, the guy is loosely unwound from the drum. After fastening the guy on the mast shaft and extending the sections of the tension cable, the handle rotates counterclockwise while simultaneously holding the retracted lever. In this case, the lever tooth does not interfere with the rotation of the drum. At the end of the drawdown tension, it is necessary to engage the lever into engagement with the protrusions of the cheeks. To rewind braces on drums (when folding AMU), it is necessary to release the lever and, turning the handle counterclockwise, wind the cable onto the drum.

Braces (24, 26, 29, 31, 34, 36, 39, 41, 44, 46, 49 and 51) are made of a steel cable with a diameter of 3 mm.

As stakes 52-57 for fastening traction winches, stakes made of steel can be used. In this case, two types of stakes can be used for different operating conditions of the antenna mast device: winter (short), approximately 360 mm long, and summer (long), approximately 750 mm long.

Operation during the deployment and folding of the antenna mast device is described below.

Work overflow winch when lifting sections.

When lifting sections of the telescopic mast 2 using the drive 11, the shaft of the overflow winch 10 is rotated clockwise. Initially, when lifting, the whole package of movable sections inside the fixed section 3 moves. The lifting continues until the lever with the roller approaches the window of the fixed section 3. Turning through the window, the lever with the roller will connect two sections - fixed 3 and the first 4 movable section. At the same time, the shank of the second 5 movable section is released, which will allow its extension to begin, etc.

In this case, the axis of the winch 10 is screwed into the thread of the gear-nut and the discs tightly clamp the ratchet wheel. Due to friction, both disks begin to rotate together and stretch the power cable 12 stored between them. The dog jumps along the teeth of the ratchet wheel, as a result of which a characteristic click is heard in the winch mechanism. If during lifting, stop the rotation of the winch shaft, then the lifting force will be counteracted by the force, consisting of the weight of the lifting part of the mast and the weight of the antenna device. This force will tend to turn the gear in the opposite direction, that is, turn the axis counterclockwise. Since the ratchet wheel is held by a dog resting against the cavity of the ratchet wheel, the bypass winch mechanism 10 will not rotate.

The work of the overflow winch 10 when lowering the mast sections.

When folding the barrel, the upper one begins to decrease (the fourth 7th movable section), since it does not have a lock. When the shank approaches the above section to the locking lever of the lower section, it moves down and the lever with the roller is released. The lever roller is pushed out of the window of the connected section and thereby ensures the separation of adjacent sections (the lock is open).

When lowering the mast sections, the winch shaft rotates counterclockwise. The discs diverge and brake the ratchet wheel, forming an operational gap between them. In this case, the dog only keeps the ratchet wheel from rotation, without interfering with the rotation of the discs, and the power cable 12 moves in the opposite direction.

If, when lowering the sections, stop the rotation of the winch shaft, then the force on the cable 12 from the weight of the raised sections and the weight of the antenna devices will turn the gear-nut counterclockwise. The wheels clamp the ratchet wheel. Further rotation will stop, since the dog does not allow the ratchet and the discs firmly pressed against it to rotate counterclockwise, that is, the descent, in this case, will not spontaneously lower the mast sections.

Telescopic mast deployment.

The mast is deployed on a 30 × 30 m site with a team of four.

Initially, it is necessary to determine the location of the proposed installation of the mast shaft, designating it with a pin. Then determine the location of the stakes driving away from the center of the mast installation by a radius of 15 m and spaced 120 degrees around the circumference. Drive two stake in each of the three defined points, and the stake should be driven at a slight angle (about 20 degrees) in the opposite direction from the center of the mast shaft. Fasten the drums with braces on the stakes, unwind the cables of the braces towards the installation site of the mast, straighten them and lay them on the ground.

Install the base plate 1 on the mast 2 so that 0 (zero) degrees on the base body coincides with the risk on the mast stand. Fasten one or two antennas on the mast, attach guy cables to the ears of the rotating rings on the fixed and moving sections of the mast, being guided by the color applied on the carbines of the cables and on the ears, ensuring their relative position taking into account the direction of the subsequent rotation of the mast trunk. Mount the mast vertically on the ground, secure the cables (24, 34 and 44) of the first tier of guy wires. The mast should be so that the letter “C”, applied to the mast stand, is facing north.

Finally fix the cables of the guy ropes of the first tier, after which the drums of the towing winches mounted on the stakes are locked with latches, giving the mast trunk a vertical position. Attach the actuator 11 (a lever with a handle or an electric drill) to the shaft of the overflow winch 10 and, rotating it clockwise, extend the movable sections (4-7) of the telescopic mast 2. In this case, remember that the force applied to the handle of the lifting winch 10, should not exceed 20 kg.

For reliable fastening and ensuring the ability to work under strong wind loads, it is necessary to secure each extended section with guy wires. The mast trunk should be strictly vertical, without deflection.

During deployment, the winch drive 11 rotates clockwise. In this case, the lifting branch of the power cable 12 is passed through the winch 10 and raises the upper section. The upper section of the mast is coupled with the rest of the movable sections using locks located in the lower parts of the movable sections. As a result, at the beginning of the deployment of the mast, all the movable sections rise. Upon reaching the highest position, the first (lower) 4 section is activated by a lock that locks the first section 4 in the upper position and releases the next one from engagement. Similarly, the extension of the second 5, third 6 and fourth 7 movable sections.

Orientation of the antennas 20 and 21 to the correspondent is carried out by turning the mast shaft 2 around its axis by 5-10 degrees in any direction until the working position of the antenna is combined with the given direction in azimuth.

The principle of work when rolling up the mast.

When folding the telescopic mast 2 pipes of the movable sections enter the stationary section 3, starting from the first 4 sections, the second 5 section enters the first 4, the third 6 section inside the second 5, and the fourth 7 section enters the third 6. In the rolled state, the telescopic mast has height from 4.9 to 5.2 m.

When the drive 11 of the winch 10 is rotated counterclockwise, the lowering branch of the power cable 12 is bypassed through the winch and causes the upper section to lower. The upper section at the end of its stroke presses the lever of the lock located at the bottom of the second section. The lock of the second section disengages from the first section, engages with the upper section and both sections continue to move down.

When folding the telescopic mast 2, the drive 11 together with the shaft of the overflow winch 10 rotates counterclockwise, as a result of which the whole mechanism rotates in the direction opposite to that indicated by the arrows (for the case of the deployment of the mast). In this case, a special nut with the top of its helical protrusion passes to the cut of the helical cavity on the first gear. Between a special nut and the first gear, a gap of 0.1-0.3 mm is created. Since the first gear sits freely on the axis, it will move to the left along this axis and friction clutch will stop. The first gear will begin to rotate the third gear with the drum. From the last, the cable will rewind. At the same time, under the influence of the own weight of all the movable knees and the antenna device, the section pipes will begin to enter one another until the collars on them converge. After the convergence of the clamps, the rotation of the drive 11 together with the shaft of the winch 10 will stop. The finger, moving in the groove of the drum, abuts against the protrusions of the housing and limits the rotation of the actuator 11 when folding the mast. After the mast is fully collapsed, further rotation of the drive 11 of the winch 10 counterclockwise will become impossible. This eliminates the possibility of entanglement of the power cable 12 of the overflow winch 10.

If, when folding the mast, stop turning the handle, then the force acting on the power cable 12 when deploying and rolling the mast in the same direction will cause the entire winch mechanism 10 to turn in the opposite direction. Due to the pressure of the teeth of the third gear coupled to the drum, the teeth of the first gear will shift to the right under the action of the screw protrusion and obtain a friction clutch. The dog, resting against the cavity of the ratchet wheel, will not allow the entire friction brake to rotate, and the winch mechanism 10 will not rotate. As a result of this self-lowering of the mast sections will not occur.

The technical effect of the proposed antenna mast device for a radio relay station is to increase the stability of the device in various climatic conditions, reduce the time required for deployment and folding of the telescopic mast, achieved through the use of two types of drive shaft overflow winch used to lift the mast - manual and semi-automatic, including through the use of an electric drill with a special device for rotating the shaft of the overflow winch when lifting Me mast sections and the possibility of using an electric drill to screw the mast fastening stakes into the ground.

The introduction of a four-tier mast mounting system using three braces in each tier allowed the AMU to operate stably, and the presence of a base plate with a stopper for fixing the mast during azimuth orientation and a scale for counting the orientation angle helped to improve antenna orientation to the correspondent and reduce the time for setting the radio relay communication lines. At the same time, the proposed antenna mast device provides stable operation in conditions of wind load up to 30 m / s.

As calculations and operating experience have shown, the deployment time of a telescopic mast when using a semi-automatic drive based on an electric drill was about 10 minutes instead of 20 minutes for a manual AMU.

Information sources.

1. RU, patent for utility model No. 67780, class. H01Q 21/06, 2007 (prototype).

Claims (3)

1. Antenna-mast device (AMU) for a radio relay station, containing a telescopic mast with a console fixed to its top, on which an antenna unit is installed, which includes the first and second antennas, characterized in that the telescopic mast is structurally made integral, including a base made of steel in the form of a base plate on which, using a ball bearing, a mast shaft is fixed, consisting of one fixed and four movable sections made of duralumin pipes of various diameters, with the larger the diameter of the stationary section and the smallest diameter is the fourth movable section, which allows the movable sections to freely enter the stationary section when folding the mast when it is being rolled up, the base plate contains a stopper for fixing the mast when orienting it in azimuth and the reference scale of the orientation angle, in the fixed section built-in overflow winch with a drive and a double (lifting and lowering branches) power steel cable wound on its drum, the second end of which is fixed in the upper part inside the fourth of the main section, in the upper part of the fixed section and in each of the four movable sections, rotating rings with three ears each are made, designed to fasten the cables of the corresponding guy wires, on the top of the fourth movable section a console is mounted on which the antenna unit is mounted, on the mast trunk using brackets fixed feeder cable connected via antenna unit to antennas; The AMU additionally contains a telescopic mast mount, consisting of six traction winches, on the axis of each of which are two drums isolated from each other, on each of which a steel cable of the guy wire is wound, and six steel stakes, each of which is attached one traction winch, this, on the first, second and third ears of the rotating ring of the fixed section, the second ends of the guy ropes mounted on the first drums of the first, third and fifth traction winches, respectively, are fixed on the first with the torus and the third ears of the rotating ring of the second movable section, the second ends of the guy ropes mounted on the second reels of the first, third and fifth traction winches, respectively, are fastened with carabiners, the second ends of the cables are fixed with the help of carbines on the first, second and third ears of the rotating ring of the third movable section guy wires placed on the first drums of the second, fourth and sixth traction winches respectively, on the first, second and third ears of the rotating ring of the fourth movable section are fixed with p with the help of carbines the second ends of the guy ropes placed on the second reels of the second, fourth and sixth traction winches, respectively, to ensure the stability of the telescopic mast on the ground, the traction winches are spaced on the ground and arranged in pairs (first and second, third and fourth, fifth and sixth winches) through 120 ° in a circle with a diameter of 30 m, and the stakes on which the winches are fixed are driven into the ground at a small angle (about 20 °) to the vertical in the opposite direction from the center of the mast shaft. 2. The antenna mast device according to claim 1, characterized in that in the lower part of the first, second and third movable sections of the telescopic mast there is a lock containing a dog with a roller and a locking lever, by means of which the sections are connected (disconnected) with each other deployment (collapse) of the telescopic mast. 3. The antenna mast device according to claim 1, characterized in that the bypass winch drive is made in the form of a manual drive, consisting of a lever with a handle for rotating the winch shaft, and / or a semi-automatic drive made in the form of an electric drill, in which instead of a drill a nozzle was used, one end of which is inserted into the keyless chuck of the drill, and the other end is fixed to the input shaft of the overflow winch, while the switch of operating modes and a reverse device for Sintered rotation shaft bypass winch in the opposite direction (counterclockwise) when contracted telescopic mast.