RU2776318C1 - Method for installing high-frequency information communication equipment - Google Patents

Abstract

FIELD: communication.

SUBSTANCE: invention relates to a method for assembling and installing units of high-frequency information communication equipment on supports, towers. The technical result is ensured by the fact that in the method for installing high-frequency information communication equipment, a base station is first mounted on a support, connected by means of electrical wires and cables with radio modules installed in the upper part of the support and connected with antennas by a high-frequency cable. The radio modules and antennas are installed in a radio antenna module made in the form of separate units - radio module and antenna. The units are therein made in the form of frames with at least one tier, made of at least three vertical racks located between two round flanges around the perimeter thereof at the same distance from each other, connected by the ends thereto. The antenna unit is mounted above the radio module unit and by means of a flange connection connected into a single structure of the radio antenna module mounted on the upper flange of the cylindrical support. A radio relay station is installed on the upper flange of the radio antenna unit on top of the cylindrical support with a mounted radio antenna module, wherein all electrical wires and cables connecting the base station with the radio modules and antennas are located in the cavity of the support and inside the radio module unit. Protective doors or panels are mounted on each vertical rack of the radio module unit on each of at least one tier, and the length of the high-frequency cable connecting the radio modules and antennas is made no greater than the height of the antenna and radio module units.

EFFECT: creation of a method for installing information communication equipment providing high signal performance coefficient with minimal windage of the structure and additional protection of the equipment and cables from impact of natural and man-made precipitation.

5 cl, 2 dwg

Description

The present invention relates to a method for assembling and mounting blocks of high-frequency information communication equipment on poles, towers, etc. It is mainly used for placing blocks of communication equipment, video surveillance equipment, control equipment, various types of sensors.

It is known that at present, equipment for high-frequency information communication equipment and other purposes has to be placed on various kinds of structures, both capital construction and temporary structures. See the link https://rtowers.ru/telecom-operators/portfolio-of-constructions/obekty-dvoynogo-naznacheniya/nekapitalnyy-metallicheskiy-stolb-dvoynogo-naznacheniya-obshchey-vysotoy-14m. Dual-purpose pole, carries the equipment of two telecom operators.

The disadvantages of this method of mounting high-frequency communication equipment include a small signal coverage area, high-frequency electromagnetic radiation near the earth's surface, since the equipment is located at a low altitude. Also, the disadvantages include the impact on equipment, cable lines, natural and man-made precipitation, and various kinds of interference that reduce the quality of communication. Also, the disadvantages include the deterioration of the aesthetic appearance of the streets.

It is known to place information communication equipment on specially built communication towers made using frame technology, in the form of articulated pipe sections, etc. The equipment of the radio modules is placed, as a rule, without additional protection, and the connecting cables are laid along the structural elements, while each operator installs his own modules and antennas, hangs them at different levels.

The disadvantages of this method of mounting high-frequency communication equipment and other equipment, in particular radio modules and connecting cables, include the windage of the structure, the large length of the high-frequency cable connecting the radio modules with antennas - since the longer the cable, the lower the efficiency at the antenna output, which negatively affects on the quality of communication, and leads to a forced increase in the power of the base station and radio modules. The disadvantages also include the impact of natural and man-made precipitation on unprotected cables and equipment, the possibility of nesting birds on the equipment of radio modules.

The technical result of the proposed invention is to eliminate the shortcomings of the prototype, namely the creation of a method for mounting information communication equipment that provides a high signal efficiency with a minimum windage of the structure and additional protection of equipment and cables from the effects of natural and man-made precipitation.

The technical result supplied by the proposed invention is achieved by using features common with the prototype, namely, that they are initially mounted on a base station support, connected by means of an electric cable and a radio cable with radio modules that are installed in the upper part of the support and connected by a radio frequency cable to antennas, and a radio relay station is installed on the top of the support and new features are that the radio modules and antennas are installed in the radio antenna module, which is manufactured in the form of separate blocks - radio module and antenna, mounted one above the other and connected by means of a flange connection, while the blocks are manufactured, in in the form of a frame with at least one tier, made of at least three vertical racks connected with flanges at the ends and mounted on the top of the support, while all the wires and cables that connect the base station with radio modules and antennas are located inside the support and inside three radio modules, and the length of the high-frequency cable connecting the radio modules and antennas is made no more than the height of the antenna and radio modules.

At least one radio module on a tier is installed on a vertical rack by means of a detachable connection with the possibility of rotation on a hinged or swivel mechanism.

On each vertical rack of the radio module unit, on each tier, protective doors or panels are mounted.

Antennas in the block are fixed along the perimeter of the frame parallel to its longitudinal axis.

The radio antenna module is mounted on top of the support by flange or bolt connection.

Each tier is formed by a horizontally mounted ring or collar mounted on vertical posts.

The novelty of the proposed invention is that the radio modules and antennas are installed in the radio antenna module, which is made in the form of separate blocks - radio module and antenna, mounted one above the other and connected by flange connection, while the blocks are made in the form of a frame with at least one tier, made of at least three vertical racks connected with flanges and mounted on the top of the support, while the wires and cables that connect the base station with the radio modules and antennas are located inside the support and the radio module unit, and the length of the high-frequency cable connecting the radio modules and antenna is made no more than the height of the antenna and radio modules.

So, the sign of installing radio modules and antennas in the radio antenna module provides a minimum windage of the structure, high signal efficiency at the output, since this installation ensures the minimum length of the high-frequency cable. So, when installing radio modules and antennas, the longer the high-frequency cable between them, the more powerful the base station and the radio module itself should be, and the proposed installation method ensures the minimum length of the high-frequency cable and high-quality communication.

Thus, the sign of manufacturing a radio antenna module in the form of separate blocks - a radio module and an antenna, provides the possibility of separately mounting a different number of radio modules and antennas, depending on the need, the number of operators and subscribers (in the case of using equipment for cellular communication).

The feature of mounting the blocks one above the other and connecting by means of flanges provides ease of assembly and installation and the possibility of installing additional blocks if necessary.

Thus, the feature of manufacturing blocks in the form of a frame with at least one tier provides the possibility of compact placement of several modules in the block at the same time.

Thus, the feature of making blocks of at least three vertical racks connected with flanges at the ends ensures the rigidity of the block structure and at the same time makes it possible to install radio modules and antennas.

Thus, the sign of mounting a radio antenna module on the top of the pole provides an additional height of the pole and, as a result, a larger signal coverage area.

Thus, the location of wires and cables that connect the base station with radio modules and antennas inside the support and the radio module unit provide protection against vandalism, minimize the impact of natural precipitation and exclude the spread of high-frequency radiation.

So, the feature of making the length of the high-frequency cable connecting the radio modules and antennas is not more than the height of the antenna and radio module units, provides maximum efficiency at the output, with the available power of the radio modules.

Thus, the sign of mounting on each vertical rack of the radio module unit, on each tier of protective doors or panels helps to protect the equipment from the effects of natural precipitation and prevent unauthorized access.

So, the sign of mounting a horizontally located ring or clamp on vertical posts on each tier helps to strengthen the frame structure.

Signs of installing at least one radio module on a tier, on a vertical rack by means of a detachable connection with the possibility of rotation on a hinged or swivel mechanism, mounting antennas in a block along the perimeter of the frame parallel to its longitudinal axis, mounting a radio antenna module on the top of a support by means of a flange or bolted connection - are additional signs that contribute to the achievement of the result set by the alleged invention.

It is the combination of the above features that provides the claimed technical result, namely the use of a method for installing information communication equipment that ensures minimum windage of the structure, ensuring high signal efficiency, and additional protection of equipment and cables from vandalism, the effects of natural and man-made precipitation.

According to the conducted patent information studies, no combination of known and new features of the proposed invention was found in the sources of patent and scientific and technical information, which makes it possible to classify the features as having novelty.

Since the proposed combination of features is not known from the existing level of technology and does not follow from it explicitly - it allows to obtain a higher and even unexpected technical result, the proposed essential features and their combination can be considered as having an inventive step.

Description of the implementation of the invention allows us to classify it as industrially feasible.

In FIG. 1 schematically shows a general view of the tower with installed high-frequency information communication equipment. In FIG. 2 schematically shows a general view of the radio antenna module with two tiers of the radio module unit.

The proposed method of mounting high-frequency information communication equipment, which consists in the fact that initially the base station 1 is mounted on a support 2, connected by means of an electric cable and a radio cable with radio modules 3, which are installed in the upper part of the support 2 and connected by a high-frequency cable 4 to antennas 5 , and a radio relay station 6 is installed on top of the support 2, while the radio modules 3 and antennas 5 are installed in the radio antenna module, which is manufactured in the form of separate blocks - radio module 7 and antenna 8. Production of a radio antenna module in the form of separate blocks - radio module 7 and antenna 8, provides the possibility of separate mounting of a different number of radio modules 3 and antennas 5, depending on the need, the number of operators and subscribers (in the case of using equipment for cellular communication), while maintaining the minimum length of the high-frequency cable 4 and the windage of the entire structure. The radio modules 3 are mounted on vertical racks, for example, by means of a swivel, and the antennas 5 are fixed along the perimeter of the frame parallel to its longitudinal axis.

The radio module 7 and antenna 8 blocks are mounted one above the other and connected by means of a flange connection 9. Thus, mounting the blocks one above the other and connecting via flanges provides ease of assembly and installation and the possibility of installing additional blocks if necessary. At the same time, the blocks are made in the form of a frame with at least one tier, made of at least three vertical racks 10 connected with flanges 11 and mounted on the top of the support 2. The blocks are made of at least three vertical racks 10 connected with ends with flanges 11 provides structural rigidity of the blocks and at the same time makes it possible to install radio modules 3 and antennas 5. A horizontally mounted ring 12 on vertical posts 10 of the radio module block 7 forms tiers and additionally reinforces the structure. On each vertical rack 10 of the radio module 7 block, on each tier, protective doors 13 or panels are mounted that protect the equipment from the effects of natural precipitation and prevent unauthorized access.

The installation of radio modules 3 and antennas 5 in the radio antenna module, due to their compact arrangement and the proposed method of installation, provides a minimum windage of the structure, high output signal efficiency, since this installation ensures the minimum length of the high-frequency cable 4. At the same time, all wires and cables that connect base station 1 with radio modules 3 and antennas 5, located inside the support 2 and inside the radio module block 7. The location of wires and cables that connect the base station 1 with radio modules 3 and antennas 5 inside the support 2 and the radio module block provide protection from vandalism minimizes the impact natural precipitation and eliminates the spread of high frequency radiation.

The length of the high-frequency cable 4 connecting the radio modules 3 and the antenna 5 is made no more than the height of the antenna 8 and the radio module 7. The length of the high-frequency cable 4 connecting the radio modules 3 and the antenna 5 is made no more than the height of the antenna 8 and the radio module 7 blocks provides maximum output efficiency, with the available power radio modules.

The method of mounting high-frequency information communication equipment can be carried out in the factory directly at the assembly site, under control, and with the direct participation of communication specialists. At the same time, to install equipment on a support, there is no need to involve specialists to work at height, use towers for mounting and setting up equipment. The assembled and configured communication equipment, together with the support, remains to be delivered to the site and installed, followed by connection to the source of electrical energy. It is also possible to use this method of mounting high-frequency information communication equipment on existing supports that are being upgraded or newly built. A specific example of using the proposed mounting method: Between two flanges, along their perimeter, at the same distance from each other, three vertical racks are installed, connected by welding into a radio module unit. Also, between two flanges of a smaller diameter, along their perimeter at the same distance from each other, three vertical posts are placed and connected by welding into an antenna unit. By means of a flange connection, the radio module and antenna units are mounted one above the other and combined into a single structure - the radio antenna module. This installation allows you to reduce the windage of the structure - the support. From the beginning, the support is assembled from sections using a flange connection, on which the base station is installed. Electrical wires and radio cables connected to it are placed in the cavity of the support. Thus, reliable protection is provided not only from vandalism, but also from the influence of natural phenomena and birds. A radio antenna module is attached to the upper flange of the assembled support by means of a flange connection. Then, in the radio module block, with the help of hinges on vertical racks, nine radio modules are installed in three tiers and radio cables and wires are connected to them. Close the radio module unit with doors. After that, three antennas are installed on the antenna unit and connected to the radio modules with high-frequency cables. Thus, high-quality communication is ensured, high efficiency with minimal losses. At the same time, it was not necessary to increase the power of the radio modules and the base station. A radio relay station is installed separately. The support prepared for installation with a radio antenna module is delivered to the installation site and installed using a truck crane.

The proposed mounting method provides high signal efficiency with minimal windage of the structure and additional protection of equipment and cables from the effects of natural and man-made precipitation. It also allows you to place several different cellular operators, radio modules for a weather station, radio modules of the Ministry of Internal Affairs, the Ministry of Emergency Situations, an ambulance or, for example, radio modules - a smart city, in one radio module.

In the near future, it is planned to start installing high-frequency information communication equipment using the proposed method.

Claims (5)

1. The method of mounting high-frequency information communication equipment, which consists in the fact that the base station is initially mounted on a support, connected by means of electrical wires and cables to radio modules that are installed in the upper part of the support and connected by a high-frequency cable to antennas, characterized in that the radio modules and the antennas are installed in a radio antenna module, which is made in the form of separate blocks - a radio module and an antenna, while the blocks are made in the form of frames with at least one tier, made of at least three vertical racks located between two round flanges along their perimeter on at the same distance from each other and the ends connected to them, the antenna unit is mounted above the radio module unit and connected by means of a flange connection into a single structure of the radio antenna module, which is mounted on the upper flange of the cylindrical support, over the cylindrical support with the mounted radio antenna m module, a radio relay station is installed on the upper flange of the radio antenna unit, while all electrical wires and cables that connect the base station with radio modules and antennas are placed in the support cavity and inside the radio module unit, on each vertical rack of the radio module unit on each of at least protective doors or panels are mounted in one tier, and the length of the high-frequency cable connecting the radio modules and antennas is not more than the height of the antenna and radio module units. 2. The method according to claim 1, characterized in that at least one radio module on the tier is installed on a vertical rack by means of a detachable connection with the possibility of rotation on a hinged or turning mechanism. 3. The method according to claim 1, characterized in that the antennas in the block are fixed along the perimeter of the frame parallel to its longitudinal axis. 4. The method according to claim 1, characterized in that the radio antenna module is mounted on the top of the support by means of a flange or bolted connection. 5. The method according to claim 1, characterized in that each tier is formed by a horizontally mounted ring or collar mounted on vertical posts.

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