FR2980308A1 - Support assembly for supporting relay antennas of cellular telecommunication system, has moving element receiving relay antennas, where motor associated with cable allows mobile element to slide between base and top of support tower - Google Patents

Abstract

The support assembly (1) has a support tower (2) including a base (21) and a top (22), and a moving element (3) receiving relay antennas, where the moving element is slidably mounted on the outer periphery of the support tower. A motor (4) associated with a cable allows the mobile element to slide between the base and the top of the tower, where the relay antennas are arranged in the support assembly such that they are not visible from the outside of the support assembly. The moving element is coupled to a counterweight sliding in an internal duct of the tower.

Description

GENERAL TECHNICAL FIELD The present invention relates to the technical field of support assemblies for cellular telecommunication system relay antennas, that is to say the supports for the equipment used in particular by telecommunication networks, typically relay antennas. STATE OF THE ART Telecommunication networks require a network of relay antennas and, more generally, equipment and installations distributed over the territory they are intended to cover in order to transmit the signals necessary for communications.

In urban areas, these relay antennas and equipment are commonly located at the top of existing buildings, which allows to position them in height without the need to build a dedicated structure.

On the other hand, in areas without high structures, it is necessary to create dedicated structures so that the equipment is sufficiently high to have sufficient geographical coverage, this geographical coverage in fact depending in particular on the height at which the equipment is arranged. and the topography of the surroundings of the equipment. Solutions proposing telecommunication support assemblies are known, comprising a support tower forming a slender structure at the top of which telecommunications equipment such as antennas are arranged. These telecommunication support sets, however, pose significant constraints both during maintenance operations, and in case of modification or replacement of equipment.

Indeed, because of the positioning of telecommunication equipment at the top of the support tower, maintenance operations require a nacelle that can bring technicians to the height of telecommunication equipment, and require the presence of several technicians, to the extent that at least one person must remain on the ground while one of the technicians gets into the basket to intervene on telecommunication equipment. These constraints have a significant impact in terms of cost and complexity for these operations. In addition, existing solutions have a visual appearance that does not allow good integration with the surrounding environment; cellular telecommunication system equipment such as relay antennas being large and unsightly.

In addition, equipment such as cellular telecommunications system relay antennas evolve rapidly according to the evolution of technologies, and may have significant dimensions. For example, relay antennas commonly include an emitting surface of several square meters, which implies high constraints of space and wind. Several solutions have been proposed to try to answer this problem. For example, DE 102008063298 discloses an articulated support assembly, the structure of the support comprises a base and an upper part which can be tilted by means of jacks in order to bring it into a horizontal position and thus to facilitate access to telecommunication equipment arranged at its summit. This solution, however, has a disadvantage consequent in that it requires a significant clearance on the ground for the tilting of the upper part of the structure, and important means to achieve this changeover.

The present invention therefore aims to provide a support assembly for relay antennas of cellular telecommunications system does not have these disadvantages.

PRESENTATION OF THE INVENTION To this end, the invention proposes a support assembly for relay antennas of a cellular telecommunication system characterized in that it comprises a support tower having a base and a top, and a crew adapted to receive telecommunication equipment, said crew being mobile, said assembly further comprising means adapted to slide said crew between the base and the top of the tower.

According to a particular embodiment, said telecommunication equipments are arranged in said support assembly, so that they are not visible from the outside of said support assembly. According to a first variant, said mobile assembly is slidably mounted on the outer periphery of the support tower. Said crew is typically coupled to a sliding counterweight in an inner conduit of the support tower depending on the displacement of said moving assembly. Another variant, said crew is maintained by a set of cables connected to a motor for vertical translation of the crew. This set of cabling will be positioned inside the tower. According to a particular embodiment, the assembly comprises means for connecting the mobile equipment to the support tower, adapted to make the electrical and radio connection between said mobile equipment and said support tower when the crew is at the top of the tower support.

According to another variant, said movable assembly is slidably mounted in an inner duct of the support tower, the mobile equipment comprising a carriage in which at least one antenna, an amplifier and an electrical rack are arranged.

The support tower then typically comprises an air intake at its base, and an extraction of air at its top, so that an updraft is formed in an internal conduit of said support tower under the effect of a gradient temperature, the support tower further comprising a turbine disposed in said inner conduit, coupled to an alternator so that said updraft drives said turbine in rotation and generates electricity. The support assembly then advantageously comprises means for capturing the heat associated with said air intake, so as to achieve a rise in temperature at the base of the support tower.

The support assembly according to one of the preceding variants, may comprise photovoltaic means disposed on the outer surface of the support tower for supplying telecommunication equipment of the support assembly.

PRESENTATION OF THE FIGURES Other characteristics, objects and advantages of the invention will emerge from the description which follows, which is purely illustrative and nonlimiting, and which should be read with reference to the appended drawings, in which: FIG. overview of a support assembly for cellular telecommunication system relay antennas according to one aspect of the invention, - Figure 2 shows a detailed view of a mobile assembly support assembly according to one aspect of the invention, FIGS. 3 to 6 show particular embodiments of the support assembly; FIGS. 7 and 8 show sectional views of an alternative support assembly according to one aspect of the invention. In all the figures, the common elements are identified by identical reference numerals. DETAILED DESCRIPTION FIG. 1 shows an overall view of a support assembly 1 according to one aspect of the invention, comprising: - a support tower 2, - a moving equipment 3, - drive means 4, for example a engine associated with a winch for driving the moving equipment 3 in motion. The support tower 2 has a base 21 and a top 22 defining its two ends. The support tower 2 forms a slender structure comprising an internal duct extending substantially from its base 21 to the top 22. The mobile assembly 3 is slidably mounted on the outer periphery of the support tower 2, and is adapted to move between the base 21 and the top 22 of the support tower 2. As shown in FIG. 1, the mobile assembly 3 is in an intermediate position on the support tower 2. The drive means 4 carry out the movement of the movable element 3 along the support tower 2. These drive means 4 can take several forms, for example a winch, a rack or a cable driven by a motor. The support tower 2 and the moving assembly 3 typically comprise complementary translational guiding means to ensure that the displacement of the moving assembly 3 is vertical along the support tower 2, and is not impeded by example in case of side wind that would likely hinder this movement.

The drive means 4 typically comprise a driving portion disposed at the base 21 of the support tower 2 for example in the inner conduit of the support tower 2 to facilitate maintenance. For example, in the case of a cable driven by a motor, the motor is typically arranged in the inner duct of the support tower 2, and the cable is connected to this motor and extends over the entire height of the tower support 2, then is connected to the mobile assembly 3 typically via a pulley disposed at the top 22 of the support tower 2.

FIG. 2 shows a more detailed view of the mobile assembly 3 illustrated on the support tower 2. The mobile assembly 3 comprises a carriage 31 defining a housing 32 internal to said carriage 31, and adapted to receive telecommunication equipment 33, typically antennas such as relay antennas. The inner housing 32 of the mobile assembly 3 is advantageously dimensioned so as to receive communication equipment such as relay antennas. This figure also illustrates the internal conduit 23 of the support tower 2, which opens here at its top 22. FIG. 3 shows a particular embodiment of the support assembly 1, in which the latter comprises means for generating energy advantageously to self-power telecommunication equipment of said support assembly 1, or at least to feed them in part.

In the embodiment shown in Figure 3, the support tower 2 has an air intake 24 substantially at its base 21, and an air extraction 25 substantially at its apex 22. This air intake 24 combined with the extraction of air 25 and the inner duct of the support tower 2 causes an updraft which is formed in said inner duct of the support tower 2, under the effect of a temperature gradient between the base 21 and the top 22 of the support tower 2. A turbine 5 is disposed in the inner duct of the support tower 2, typically close to the top 22 of the support tower 2. This turbine 5 is rotated due to the upward flow of forming in the support tower 2, and is typically coupled to an alternator to transform this rotation of the turbine 5 into electricity. Heat capture means 26, for example a prism or a greenhouse, are advantageously arranged substantially at the level of the air intake 24, so as to concentrate or reflect the light radiation towards the inner duct of the support tower 2 and thus increase the thermal gradient between the base 21 and the top 22 of the support tower 2, which promotes the drive of the turbine 5 and thus increases the energy it generates. The support tower 2 as shown also comprises photovoltaic means 6 disposed on its outer periphery, preferably on the face of the support tower facing south. These photovoltaic means make it possible to supply electricity to all or part of the telecommunication equipment of the support assembly 1. These photovoltaic means 6 can take several forms, for example a painting or a photovoltaic coating disposed on the front of the support tower 2, or a photovoltaic panel integrated in the structure of the support tower 2, so as not to hinder the movement of the moving element 3 along the support tower 2.

Figure 4 shows a view of the lower part of the support assembly 1 according to a particular embodiment. In this embodiment, the base 21 of the support tower 2 is associated with a canopy 8 here having a conical frustum shape and provided with one or more panes 81 in order to accentuate the thermal gradient between base 21 and the top. 22 of the support tower 2, and thus to promote the drive of a turbine 5 disposed inside said support tower 2. The canopy 8 typically comprises one or more ventilation 82, and a hatch or door of access 83 to enter and thus access the interior of the support tower 2. Above this canopy 8 is disposed a platform 7 advantageously provided with a guard 71 and a ladder 72 crinoline allowing an operator to access it without danger. This platform 7 is typically arranged substantially at the base of the support tower 2, at the height at which the mobile assembly 3 is located when it is in the low position, so that an operator can carry out the operations there. maintenance. An example of the low position of the moving equipment 3 is shown in dashed lines in FIG. 4.

FIG. 5 shows a view of an embodiment of the support assembly 1 according to the invention, in which the moving element 3 is driven in displacement by a motor 41 arranged at the base of the support tower 2, this motor 41 driving a cable 42 which is itself connected to the moving element 3 via pulleys 43 typically disposed at the top 22 of the support tower 2. In the embodiment shown, the mobile assembly 3 is coupled to a counterweight 44 slidably mounted in the inner duct of the support tower 2. This counterweight 44 compensates all or part of the weight of the moving assembly 3, and thus reduces the effort required by the motor 41 to drive the moving equipment 3 traveling along the support tower 2, and therefore avoids oversizing the motor 41.

This figure also has a cap 28 at the top of the support tower 2. This cap 28 typically has an outer diameter greater than that of the support tower 2, so that the mobile assembly 3 abuts against the underside of the cap 28 when positioned at the top 22 of the support tower 2. Thus, by positioning connectors on the underside of the cap 28 and on the upper face of the crew 3, we can condition the connection of telecommunication equipment 33 disposed in the movable element 3 to elements arranged in the support tower 2 to the fact that the mobile assembly 3 is positioned at the top 22 of the support tower 2. The mobile assembly 3 and the cap 28 of the support tower are then advantageously provided with a self-centering connection, to ensure the connection of the telecommunication equipment 33 even in the case where the mobile assembly 3 is no longer perfectly centered on the support tower 2 following its The self-centering connection is for example made by means of a conically projecting element, which is housed in a complementary conical shape of greater maximum diameter. The projecting element will then be automatically guided by the housing until the conical projecting element and the complementary housing are coaxial. FIG. 6 shows a sectional view of the top of the support tower, and presents in detail an arrangement of the turbine 5 as well as drive means for the moving equipment 3. In this embodiment, the telecommunication equipment 33 are fixed in the carriage 31 by means of a fixing structure 34. In addition, detection and centering means 35, typically beveled metal stops are mounted on the outer walls of the support tower 2. When the mobile assembly 3 arrives at the upper end 22 of the support tower 2, these means 35 allow due to their beveled or inclined shape to achieve a centering of the moving element during its translation. Moreover, by making these means 35 of conductive material and connecting them to contact cables 36, they can be used to detect the presence or absence of the moving element in contact with said means 35, and therefore its positioning at the top of the support tower 2, for example by putting contacts of conductive material on said moving element, positioned so that they are opposite said means 35 when said moving element 3 is correctly positioned. As previously presented, the mobile assembly 3 is driven in motion by cables 42 associated with pulleys 43. The turbine 5 is provided with a wiring 51 which typically connects it to a transformer. It is advantageously fixed to the cap 28 by means of fasteners 52 providing a vibration damping that it is likely to generate. The cap 28 is advantageously provided with a rain shield 53, adapted to protect the support tower from penetration of water due to the openings or openings arranged to allow the escape of air entrained by the turbine 5. In the embodiment shown, the support tower has a central air extraction at its top; the rain shield 53 is typically a sloping plate or member having a dimension greater than that of said opening 52, and disposed substantially above it to prevent rain from passing through the air exhaust 25, while allowing the air to escape, here radially.

FIGS. 7 and 8 show two sectional views of a variant of the support assembly 1 according to one aspect of the invention, respectively in a transverse plane and in a longitudinal plane to the support tower 2. In this embodiment, the moving element 3 is slidably mounted inside the inner duct of the support tower 2. The carriage 31 of the moving assembly 3 as shown defines an internal channel 53 advantageously allowing the circulation of the ascending air flow within The carriage 31 is adapted to receive, in particular, the following telecommunications equipment: antennas, amplifiers and electric racks. Thus, all of these telecommunication equipment 5 moves together during the movement of the carriage 31. This arrangement of telecommunications equipment in the carriage 31 makes it possible not to modify the connections when moving the moving element 3, for example not to change the connection between an antenna or relay antenna, an amplifier and an associated electrical rack 10 when the moving equipment 3 slides along the support tower 2. In this way, the signal delivered by these equipment of telecommunication, for example by one or more relay antennas is only little or not affected by the movement of the mobile assembly 3 within the support tower 2. The carriage 31 as presented includes housing distributed over several levels to to receive therefrom telecommunication equipment 33. For example, a first level of the trolley 31 in which antennas and a seco are arranged can be defined. nd 20 level of the carriage 31 in which are disposed the electric bays. In the embodiment shown, the support tower 2 comprises a constriction 54 in its internal duct, so as to direct the flow of air and for example to concentrate it in the center of said inner duct of the support tower 2, for example in the internal channel 53 defined by the moving element 3. In the embodiment shown, the internal channel 53 has an octagonal section. Other variants are possible, in particular in which the inner channel 53 has a hexagonal or circular section. In this particular embodiment, the support tower 2 typically has a circular section with a large external diameter, so as to have sufficient internal space to dispose the mobile assembly 3 and that the latter can accommodate telecommunications equipment having important dimensions. The support tower 2 thus has for example an outer diameter of several meters, for example of the order of 4 meters.

The mobile assembly 3 as presented has a hexagonal section allowing it to slide in the support tower 2, it being understood that other variants are possible, in particular a mobile unit 3 having a circular or polygonal section.

The support assembly 1 as proposed thus has several advantages. Maintenance and / or replacement of the telecommunication equipment arranged in the mobile equipment 3 is simplified. Indeed, to the extent that the mobile unit 3 can move between the base 21 and the top 22 of the support tower 2, it will no longer be necessary to have a nacelle to reach the telecommunications equipment, and a technician alone can therefore carry out maintenance operations.

In addition, the support assembly structure 1 as proposed does not have the disadvantages of existing articulated support assemblies, and has a relatively small footprint.

Moreover, the different variants make it possible to integrate the support assembly 1 in the landscape. The telecommunication equipment is indeed arranged in the support assembly 1, either in the mobile assembly 3 disposed outside the support tower 2 but provided with a formwork for masking them, or directly in the support tower 2 Thus, telecommunication equipment such as relay antennas are masked. In addition, to the extent that the volume and the wind resistance of the support assembly remain unchanged even in the event of modifications of the telecommunication equipment which are arranged therein, it is not necessary to ensure that the wind of the support assembly 1 at each change of equipment such as a relay antenna.

In addition, the mobile equipment 3 can receive telecommunication equipment of variable dimensions, and thus allows to receive the various evolutions of telecommunication equipment over time, without requiring a complete replacement of the telecommunication support tower.

Claims (9)

REVENDICATIONS1. Support assembly (1) for cellular telecommunication system relay antennas characterized in that it comprises a support tower (2) having a base (21) and a top (22), and a crew (3) adapted to receive telecommunications equipment (33), said crew (3) being mobile, said assembly (1) further comprising means adapted to slide said crew between the base (21) and the top (22) of the tower (2). 2. support assembly (1) according to the preceding claim, wherein said telecommunication equipment (33) are arranged in said support assembly, so that they are not visible from outside said support assembly (1). 3. support assembly (1) according to one of the preceding claims, wherein said movable assembly (3) is slidably mounted on the outer periphery of the support tower (2). 4. support assembly (1) according to the preceding claim, wherein said crew (3) is coupled to a counterweight (44) sliding in an inner conduit of the support tower (2) according to the displacement of said moving element (3). 5. support assembly (1) according to one of the preceding claims, comprising connecting means of the movable element (3) to the support tower (2), adapted to make the electrical connection between said movable element (3) and said support tower (2) when the crew is at the top (22) of the support tower (2). 6. support assembly (1) according to one of claims 1 or 2, wherein said movable assembly (3) is slidably mounted in an inner conduit of the support tower (2), the mobile assembly (3) comprising achariot ( 31) in which at least one antenna, an amplifier and an electrical rack are arranged. 7. Support assembly (1) according to one of the preceding claims, wherein the support tower (2) comprises an air inlet (24) at its base (21), and an air extraction (25) to its apex (22), so that an updraft is formed in an inner conduit of said support tower (2) under the effect of a temperature gradient, the support tower (2) further comprising a turbine (5) disposed in said inner conduit, coupled to an alternator such that said upward flow drives said turbine (5) in rotation and generates electricity. 8. support assembly (1) according to the preceding claim, further comprising heat sensing means (26) associated with said air intake (24), so as to achieve a rise in temperature at the base ( 21) of the support tower (2). 9. support assembly (1) according to one of the preceding claims, comprising photovoltaic means (6) disposed on the outer surface 20 of the support tower (2) for supplying telecommunication equipment of the support assembly (1). ).