瑞典专利SE1300618A1 Post for transmission of electric power and / or telecommunications signals, networks for this and u

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专利摘要:
SUMMARY POST FOR TRANSMISSION OF ELECTRICITY AND / OR OF TELECOMMUNICATIONS SIGNALS, NAT FOR THIS AND USE AND PROCEDURE The invention relates to a post (1) for Transmission of electricity and / or telecommunication signals. The material in the post comprises reinforced concrete with a reinforcement of non-magnetic material. According to the invention, the post (1) is hollow at least along a part of its longitudinal stretch with a hollow (20) surrounded by a layer (9) of reinforced concrete. The post (1) comprises power transmission components (14-17) and / or telecommunication components (11-13) arranged in the cavity (20), the power transmission components (14-17) comprise at least one of the components transformer, energy storage, control equipment and inverter / inverter. The telecommunication components (11-13) include at least one of the components ICT equipment, transmitter, receiver and antenna. The invention also relates to a night with such posts as well as related use and method.
公开号:SE1300618A1
申请号:SE1300618
申请日:2013-09-27
公开日:2015-03-28
发明作者:Göte Lindfors；Günter Villman；Sten Bergman
申请人:Smart Innovation Sweden Ab；
IPC主号:

专利说明:

FIELD OF THE INVENTION The present invention relates from a first aspect to a pole for transmitting electric power and / or telecommunication signaling, each of which includes signaling. of non-magnetic material.
In this application, post refers to an element with a large length in relation to its cross-sectional dimensions, preferably a length in the order of 2 to 25 meters and a largest cross-sectional dimension of 0.5 m.
The pole is intended to be used as a line pole for electrical power experience at both voltage and intermediate voltage. It is further intended for telecommunications at saval wired as wireless Overfaring of the signals. The telecommunication signals can be analogue or digital and refer to Experience of speech, music, data, images, video, etc. One and the same pole can be used for simultaneous experience of electricity and telecommunication signals.
From a second aspect, the invention relates to a night for transmission of electric power and / or telecommunication signals.
From a third aspect, the invention relates to a use of such posts.
In a fourth aspect, the invention relates to a method for assembling components related to nat for overpass of electric power and / or telecommunication signals, which nat comprises concrete posts with reinforcement of non-magnetic material.
Background of the Invention Traditionally, posts of this kind have been laid out in tra or steel and have been homogeneous. Saval tra- as steel posts have disadvantages of various kinds. Other materials, such as e.g. mineral fiber-amirated concrete has therefore been endangered for such posts. By e.g. WO 2010/048688 is for edge reinforcement bars for concrete based on mineral fibers where the concrete construction can, for example, be posts for power lines or telephone lines. The low electrical conductivity and the electromagnetic permeability of such poles are particularly suitable for said applications.
It is also in front of the edge of uffOra other types of poles such as lampposts of similar material. Salunda describes CN 102192486 a lamp post where the material in the post consists of an outer layer consisting of fiber-reinforced resin where the fibers are glass, carbon or basal fibers and an inner layer of resin / concrete which may contain glass fibers.
It is also a good idea to generally use mineral fiber-reinforced high-performance concrete as a rock element in building structures, especially for building structures where the good half-strength properties of such elements are important, as in very tall buildings. WO 2010/098716 describes how such material is used for high towers such as towers for mobile antenna systems and towers for wind power units, i.e. large buildings several tens of meters high and higher and with a base of several meters. Of course, the necessary equipment of different shells is arranged inside these buildings. The buildings are intended primarily for Mr.
Poles of the type to which the present invention relates traditionally have the main function of only raising wires and / or antennas to the required height. Save! in the case of transfer of electric power as in the case of transfer of telecommunication signals, it is necessary to have equipment Mr control, regulation etc. These are traditionally arranged in separate building modules or are simply mounted on the outside of the posts. This entails disadvantages of various kinds.
Disclosure of the Invention The object of the present invention is to obviate the disadvantages associated with traditional posts of this kind.
In accordance with the first aspect of the invention, this breathable means by means of a post of the kind indicated at the outset has the special features stated in the cantilevered part of claim 1. The post is thus hollow at least along a part of its longitudinal stretch with a hollow enclosed by a layer of said reinforced concrete, the post comprising electrical transmission components and / or telecommunication components arranged in said hollow, which electrical transmission components comprise at least one of the energy control components, transformer inverters / inverters, and which telecommunication components include at least one of the components ICT equipment, sanders, receivers and antenna.
A post in this material has great advantages over conventional materials.
It has had a longer lifespan than a post of wood. Unlike a pole made of polymer, it is UV-resistant and also much cheaper than one. Compared with a post made entirely of steel or of reinforced concrete, no magnetic or electrical interference occurs from the post. Aft Ora post completely or partially ihalig gives the best possible hall strength in relation to weight and material access. ioThanks to the aft pillar being ihalig and this halih, Mr aft is used to house at least some of the components that MINN. The transfer system achieves significant benefits. Traditionally, these are usually mounted on the outside of a post. There they are exposed to the effects of winds and wind and there is a risk of RV being stolen. Alternatively, the components can be housed in special buildings to avoid the disadvantages just mentioned. It makes the facility more expensive and expensive. When the components are arranged inside the posts, external impact, steel risk and necessity of special buildings are avoided.
The energy storage can be based on different storage principles such as e.g. flywheel or compressed air.
An additional advantage over traditionally arranged arrangements of these components is that these with the invented post can be distributed more advantageously than can be done with conventional technology where for economic and practical reasons it is usually so that the components are concentrated in individual posts starting at a distance from each other. or in even more sparsely arranged buildings.
With a net built up of posts according to the invention, it is possible in a simple and cost-effective manner to arrange arranged components in basically each post or at least in posts relative to each other. This means that Okad precision in saval monitoring as control through aft status information becomes more precisely related to the location in the network and that control and other impact signals become more precisely addressed.
A night with some or all of the poles made in accordance with the invention thus becomes more adapted to the requirements that are increasingly placed on them when introducing smart electric power and at 4G / 5G telecommunications. Smart nights are being expanded to adapt to consumer power to an increasing degree affecting times 4 and power levels for consumption, to consumers as well as having the role of producer and to energy production increasingly taking place with varying effects over time. The locally distributed distribution of the components is of great advantage in terms of meeting the requirements set on such a night.
According to a preferred embodiment of the invented post, the non-magnetic materials in the reinforcement comprise carbon fibers, glass fibers, basal fibers and / or silicon fibers.
These types of fibers are specially lamped for the purpose of aft uttiver the property aft be non-magnetic are choice lamped Mr interaction with concrete and have good half-strength properties. Particularly good properties in these respects have basalt fibers, for which such are preferred. It should be understood that several different of these types of fibers can be mixed in one and the same reinforcement.
Each reinforcement bar consists of a starting number, up to several thousand fibers embedded in epoxy. Lamply, the fibers are prestressed for aft aka the buoyancy strength.
According to another preferred form of casting, the concrete is high-performance concrete.
This achieves optimal hall strength properties at the pole. High-performance concrete refers to concrete with a compressive strength greater than 80 MPa.
According to a further preferred form of deflection, the sloping surface extends along the greater part of the longitudinal extension of the post.
Even if only a part of the post needs to be durable to accommodate the necessary components, it is from a strength point of view a part of the part of the post that is possible to be durable. Preferably, essentially the entire post is hollow.
According to a further fig-shaped embodiment, the post is provided with at least two openings, each fig-binding cavity with the surroundings and coated at different heights, and of at least one of said components is arranged at a height between said openings.
Some of the components that are not present in the pole require cooling.
By arranging an opening below and an opening above the component or components to be cooled, the traction effect is achieved between the openings so that cooling can take place from the ambient air by natural draft. In some cases it may be relevant to keep the temperature up of components, whereby the openings and their traction are used for heating.
According to a further preferred embodiment, one of the openings is located near the lower end of the post and another of the openings near the upper end of the post.
Delta provides the greatest traction and also makes it possible to cool a large number of components in the pole.
According to a further preferred embodiment, the post comprises at least one sensor sensing operating condition or operating parameters.
Thus, in the case of a custom post made according to the invention, one can obtain information about quantities which affect the transfer and its status. As previously pointed out, such local status observation is of increasing importance in the development of smart nights. Information collected from the sensors can then be used to initiate relevant control measures at the power station. Sensors can be arranged as separate units inside the post or form part of any of the components. Sensors can alternatively or as a complement be coated in the concrete layer.
According to a further preferred embodiment, at least one sensor is arranged in the layer of reinforced concrete and is arranged to sense a mechanical parameter in the reinforced concrete.
This makes it possible to monitor the packages to which the posts have been subjected. In particular, it may be of interest to detect bending forces on a post due to different tensile forces from the wires extending on either side of the post. Delta can occur, for example, if one conduit is weighed down by ice, but not the other, or if the temperature is different on different sides of the pole if one conduit is in sun and the opposite in shade. In fact, the sensor is a strain gauge. Preferably, a plurality of such sensors are arranged circumferentially. Groups of sensors can also be coated at different heights.
According to a further preferred embodiment, a sensor is an optical sensor arranged in the cavity, directed towards the inner surface of the concrete layer and connected to an optical cable in the cavity.
In this way, you can get information about the condition of the concrete layer on a simple salt and take action if part is required.
According to a further preferred embodiment, the post is provided with a transmitter and / or receiver for transmitting signals representing the status of said components and sensors, and for receiving signals for controlling said components and sensors. 6 This makes it possible to monitor a post and its components as well as control the components from a location far from the location of the post. Della rationalizes operations. The signaling can be continuous or intermittent.
According to a further preferred embodiment, at least some of the components are attached to a common mounting unit which is removably attached to the inside of the concrete layer, and wherein the post is provided with a mounting opening through which the mounting unit and associated components are removable and insertable.
Della facilitates service on and maintenance of the components. Lampwise, all components can be attached to one and the same mounting unit. The mounting opening can be arranged at the post of the post for pulling out the mounting unit in the longitudinal direction of the post. The opening is suitably closable.
The housed breathing apparatus & Was from the second aspect of the invention through a night for transmitting electric power and / or telecommunication signals comprises poles according to the invention, especially in accordance with any of the preferred embodiments of such.
According to a preferred embodiment of the invented network, this comprises a monitoring center arranged to be able to receive information signals from the posts and / or true control signals to them.
With such a monitoring station, a rational operation of the network is obtained with remote monitoring and control of a large number of different poles at one and the same exchange. The signal transmission can be wireless or wired in both directions. Such central monitoring can advantageously be computerized and automated. Operational history can be stored, processed and provide a basis for updating and refining monitoring and control guards.
The third aspect of the invention relates to the use of poles in accordance with the invention, in particular according to any of the preferred embodiments of such, for transmitting electric power and / or telecommunication signals.
From the fourth aspect of the invention, the present object is provided by a method of the kind indicated in the introduction, comprising the special procedures set out in the characterizing part of the claim 15. At least some of the posts are thus provided as hollow posts and at least flakes of said components are arranged in the polarity of a post. 7 The components may include components listed above kir the invented post. As a matter of fact, components are arranged in a large number of the posts entering the net. Preferably, the method is applied by means of posts in accordance with the present invention, in particular according to any of the preferred embodiments of such.
The inventive invention, the inventive use and the inventive process entail advantages of the same kind as stated above for the inventive post and the preferred embodiments thereof and as described above.
The preferred embodiments set forth above are set forth in the dependent claims.
Further preferred embodiments may consist of a habitable conceivable combination of the above-mentioned preferred embodiments and of a habitable conceivable combination of these with features described in the following description of exemplary embodiments.
Brief description of the figures Fig. 1 is a side view of a post according to the invention.
Fig. 2 is a section along the longitudinal axis of the post in enlargement of a part of the post in Fig. 1.
Fig. 3 is a section along the line III-III in Fig. 2. Fig. 4 is an enlargement of Fig. 3.
Fig. 5 is a side view of a post according to a second embodiment of a post according to the invention. Fig. 6 is an illustration of a post according to the invention.
Description of exemplary embodiment Fig. 1 illustrates a post 1 according to the invention. In this example it is a question of a combined pole with a power line 2 and a telephone line 3 connected to the pole with the respective fasteners 4 and 5. The pole 1 is integral and contains components for transmission of electric power and for transmission of telecommunication signals as will be described later. At the top, the post is closed with a lid 6 that can be opened to lift out the components. 8 The post 1 is provided with a first opening 8 located at the bottom and a second opening 7 located at the top. Through these openings a natural draft arises which All the components inside the post are temperature controlled.
In the example shown, the post is cylindrical, but may alternatively be conically tapered at one hall, normally tapered upwards. The post 1 typically has a length of 15 m and a diameter of about 300 mm. The post can be cast in one piece or composed of sections that have been joined together.
Fig. 2, which is a partial enlargement of the post in section, shows how components 11-17 are mounted in the cavity 20 enclosed by a cylindrical layer 9 of reinforced concrete. The layer has a thickness of 20-50 mm. Additional layers may be present outside or inside the concrete layer, e.g. surface coating.
The components 11-17 are in the example shown transformer, energy storage, control equipment, inverter / inverter, ICT equipment, antenna and receiver / transmitter. In some cases, only some of these components are relevant. In other cases, additional components may be present. The required cabling (not shown) is also housed in the hall. The components 11-17 are mounted on a mounting unit 10 which is fixed to the inside of the concrete layer 9 in such a way that it can be fastened or detached therefrom, e.g. through the snap fastener or suspension hooks.
In this example there is also an optical cable 19 with an optical sensor 18 for inspecting the inside of the concrete layer 9.
Fig. 3 illustrates the post 1 in a section across its longitudinal axis and Fig. 4 shows a partial enlargement of Fig. 3. The concrete layer 9 consists of high-performance concrete 21 with longitudinal reinforcing bars 22. These consist of basal fibers 23 embedded in epoxy. The reinforcing bars are plywood and twisted and each bar contains several thousand fibers.
Fig. 4 also shows an example of how strain gauges 24 are arranged in the concrete layer 9 for detecting packing jugs in the post.
Fig. 5 illustrates a second embodiment of a post 101 according to the invention. In some cases, it is an antenna pole for wireless signal transmission. The pole has roughly the same dimensions as that according to Fig. 1 and is primarily intended for 4G / 5G networks where the same antenna masts are not required as in traditional mobile telecommunications systems, but where the antenna poles are faster. Fig. 6 schematically illustrates combined power and telephony with power line 2 and telecom 3, and where the posts 1ale are made according to the invention. A building 26 in which a monitoring and control center 27 is arranged is in contact with the line network via a connecting line 25. Information about the condition in the various parts of the wiring harness is sent to the control panel 27 from the components and sensors in the posts 1 a-1 e. Control signals are sent from the control panel 27 to the components in the posts 1 and 1 and in the places where it is needed. The control unit 27 also stores information on operating history and has process equipment for processing it in order to correct, improve and streamline the control.
The connection line 25 can of course be replaced by wireless communication.

权利要求:
Claims (15)
[1]
A post (1) for the transmission of electric power and / or telecommunication signals, the material of the post comprising reinforced concrete (21) with a reinforcement (22) of non-magnetic material, can be drawn from the post post (1) of its longitudinal stretch with a cavity (20) enclosed by a layer (9) of said reinforced concrete (21), the post (1) comprising power transmission components (14-17) and / or telecommunication components (11-13) arranged in said cavity ( 20), which power transmission components (14-17) comprise at least one of the components transformer, energy storage, control equipment and converter / inverter, and which telecommunication components (11-13) comprise at least one of the components ICT equipment, sanders, receivers and antenna.
[2]
A post according to claim 1, characterized in that said non-magnetic material comprises carbon fibers, glass fibers, basal fibers and / or silicon fibers.
[3]
Post (1) according to claim 1 or 2, characterized by the aft concrete (21) being high-performance concrete.
[4]
A post (1) according to any one of claims 1-3, characterized in that the abutment extends along the greater part of the longitudinal extension of the post, preferably along substantially the entire length of the post.
[5]
A post (1) according to any one of claims 1-4, characterized in that the post (1) is provided with at least two openings (7, 8), each connecting the cavity (20) with the surroundings and covered at different heights, and of aft at least one of said components (11-17) is arranged at a height between said openings (7, 8).
[6]
A post (1) according to claim 5, characterized in that a first (8) of said openings is coated near the lower end of the post (1) and a second (7) of said openings is coated near the upper spirit of the post (1). 11
[7]
A post (1) according to any one of claims 1-6, characterized in that the post (1) comprises at least one sensor (18, 24) sensing operating condition or operating parameters.
[8]
Post (1) according to claim 7, characterized by at least one sensor (24) is arranged in the layer (9) of reinforced concrete (21) and is arranged to sense a mechanical parameter in the reinforced concrete (21).
[9]
Post (1) according to claim 7 or 8, characterized in that at least one sensor is an optical sensor (18) arranged in the cavity (20), directed towards the inner surface of the concrete layer (9) and connected to an optical cable (19) in holiness (20).
[10]
Post (1) according to any one of claims 1-9, characterized in that the post (1) is provided with a transmitter and / or receiver for transmitting signals representing the status of said components (11-17) and sensors (18, 24). , respectively for receiving signals for controlling said components (11-17) and sensors (18, 24).
[11]
A post (1) according to any one of claims 1-10, characterized in that at least some of the components (11-17) are attached to a common mounting unit (10) which is releasably attached to the inside of the concrete layer (9), and wherein the post (1) is provided with a mounting opening through which the mounting unit (10) with associated components (11-17) is removable and insertable.
[12]
Nat (1a-e, 2, 3) for transmitting electric power and / or telecommunication signals, characterized by the aft (1a-e, 2, 3) comprises poles (la-le) according to any one of claims 1-11.
[13]
Nat (1a-e, 2,3) according to claim 12, characterized in that the net (1a-e, 2, 3) further comprises at least one monitoring center (27) arranged to be able to receive information signals from the posts (1a-e). and / or true control signals to these.
[14]
Use of poles (1) according to any one of claims 1-11 for the transmission of electric power and / or telecommunication signals.
[15]
A method for mounting components (11-17) related to nat for the transmission of electric power and / or telecommunication signals, which nat comprises posts (1) of concrete (21) with reinforcement (22) of non-magnetic material, may be characterized by at least some of the posts (1) of the net are provided as hollow posts (1) and that at least flakes of said components (11-17) are mounted inside the cavity of a post (1). -0 <11 LE

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同族专利:

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引用文献:

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

SE1300618A|SE537467C2|2013-09-27|2013-09-27|Post for transmission of electric power and / or telecommunications signals, networks for this and use and method|SE1300618A| SE537467C2|2013-09-27|2013-09-27|Post for transmission of electric power and / or telecommunications signals, networks for this and use and method|

PCT/SE2014/051086| WO2015047165A1|2013-09-27|2014-09-23|Pole for the transmission of electric power and/or telecommunication signals, and use and method|

US15/024,137| US10465410B2|2013-09-27|2014-09-23|Pole for the transmission of electric power and/or telecommunication signals, and use and method|

AU2014328802A| AU2014328802B2|2013-09-27|2014-09-23|Pole for the transmission of electric power and/or telecommunication signals, and use and method|

CA2925444A| CA2925444C|2013-09-27|2014-09-23|Pole for the transmission of electric power and/or telecommunication signals, and use and method|

EP14848847.1A| EP3049595B1|2013-09-27|2014-09-23|Pole for the transmission of electric power and/or telecommunication signals, and use and method|

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