• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    In a multifunctional, freestanding, transportable building (1) comprising a rigid, in particular cuboid support structure, which carries a roof, which is provided with elements (6) of a solar system, at least one surface extension element (8) of the solar system is provided, which contributes the roof surface Demand increased beyond the floor plan of the building (1).
    公开号:AT513032A4
    申请号:T968/2012
    申请日:2012-09-04
    公开日:2014-01-15
    发明作者:
    申请人:HBT ENERGIETECHNIK GmbH;
    IPC主号:
    专利说明:

    The invention relates to a multifunctional, free-standing, transportable building comprising a rigid, in particular cuboid support structure, which carries a roof, which is provided with elements of a solar system.
    Due to the limited resources of fossil fuels, the use of renewable energy is becoming increasingly important. The present invention relates to the use of solar energy. Solar energy converts solar energy into another form of energy. Solar systems can be subdivided into three basic types according to the working principle and the energy form obtained.
    Thermal solar systems provide heat energy in the low temperature range mainly for direct use in the home, e.g. through solar panels. Thermal solar power plants also provide heat, but on a larger industrial scale and usually at much higher temperatures. The heat here is mainly converted into electricity. Finally, there are the photovoltaic systems that provide electrical energy.
    Solar systems, such as in particular thermal solar systems and photovoltaic systems are usually designed as roof-mounted systems, building-integrated systems (so-called BIPV) or free-field systems. While in the rooftop systems and in the building-integrated systems, the output size is essentially determined by the existing building surfaces, in free-field systems also a much higher nominal power can be achieved by the installation of large areas.
    Rooftop systems are generally not suitable for ensuring fully autonomous energy supply of the building in question over 24 hours or throughout the year due to the limited space available. An autonomous supply, in particular with electrical energy, which can be dispensed with the use of energy from a local or public power grid but is desirable in many areas, especially where a public power grid is not available or in places that are difficult to develop are. Especially in mobile buildings, such as at mobile stalls,
    Housing units, bars or the like, it would be desirable if the site could be selected regardless of the local power situation.
    The present invention therefore aims to meet the above requirements.
    To solve this problem, the building of the type mentioned is inventively developed such that at least one surface extension element of the solar system is provided, which increases the roof area if necessary on the floor plan of the building. With the at least one surface expansion element can
    Energy converter elements of the solar system are also arranged outside the roof surface of the building, wherein the surface enlargement element is preferably integrated into the building structure and can be moved as needed between a retracted, non-active and an extended, active position. The area expansion serves to increase the usable area for the conversion of solar energy, so that a continuous autonomous energy supply is ensured. In particular, the%
    3. at least one surface enlargement element has an area that corresponds to at least half of the total area of the solar system elements positioned on the roof surface. Optimally, the at least one surface enlargement element has an area which is essentially the same as the total area of the solar system elements positioned on the roof surface, so that a doubling of the total usable area is achieved. Preferably, two, three or four area expansion elements may be provided, wherein in the case of a cuboid or cube-shaped building, each area expansion element emanates from one of the four sides of the roof, so that a corresponding multiplication of the total useful area succeeds. For the extension and retraction of the at least one surface expansion element any known mechanisms can be used. According to a preferred embodiment, it is provided that the at least one surface enlargement element is arranged foldable, extendable, roll-out, fold-out, swing-out and / or suspendable.
    Particularly preferred is the hinged arrangement of the at least one surface expansion element. It can be provided that the at least one surface enlargement element can be pivoted back and forth between a position forming at least one part of a side wall of the building and a position enlarging the roof surface. Thus, in the folded-in position, the area expansion element forms a side wall or a part thereof of the building, whereby the wall can be folded upwards to be brought to the level. In the unfolded state, for example, a • »» »* · · · ··························································· t * * * * * · Made available behind the side wall counter of a stall or bar.
    As already mentioned, the total useful area of the solar system can be maximized if a plurality of area expansion elements is provided, which are each mounted pivotably about a pivot axis extending along a side edge of the roof. In this way, each surface-extension element in the folded-down state forms a side wall or an upper part thereof, so that the provision of the surface extension elements does not increase the weight of the building, especially since side walls would in any case have to be provided if the building is to be closable.
    Preferably, the inclination of the at least one surface enlargement element is adjustable and fixable in the set position. In this way, the surface enlargement element can be adapted or tracked to the angle of the solar radiation. The tracking may be passive, i. dog, or active, i. by means of an automatic tracking mechanism. Corresponding mechanisms are widespread in the solar system industry and therefore known to the skilled person.
    In order to achieve a lightweight, cost-effective and easy to manufacture construction, the training is preferably made such that the support structure is formed as a framework of the side edges of a cuboid or cube-forming bars and uprights, which are connected to each other at the corners. The spars and uprights can be made up of the most varied 5 • * • Φ Φ • Φ • Φ «Φ * · •« · Φ Φ
    Be formed materials, in particular of metal.
    Hollow profiles are particularly preferred.
    It is preferably provided that the solar system is designed as a photovoltaic system and optionally has an electrical energy storage. As a result, an autonomous power supply is ensured, with no limit to the type of electrical consumers. These can be selected according to the purpose of the building. In particular, it is contemplated that the photovoltaic system will feed into the building integrated electrical loads, such as e.g. Cooling units, lamps, communication devices and the like. The cooling units are e.g. In addition, any excess electrical energy can be fed into a public distribution network.
    Basically, the building according to the invention can be brought in parts to the site and built only in place. Preferably, however, it is provided that the building has such a stability and the supporting structure has such rigidity that the building can be transported in the completely or at least partially constructed state. In order to enable transport in standard containers, it is preferably provided that no edge length of the building exceeds 3.4 m. In particular, the building is cube-shaped and has an edge length of about 3m. The cube-shaped design facilitates the use of the building in modular design, with several buildings can be modularly assembled into a total structure. 4 4 44 4 4 4 4 4 4 4 4 4 4 4 444 4 t 4 4 4 4 4 4 4 4 4 4
    In order to simplify the transport of the building, the support structure, in particular the support frame of the building with eyelets or forklift lugs may be provided.
    The building according to the invention can be used in a variety of ways due to its autonomous power supply. In particular, the building can be designed as a residential unit, sales booth or bar and be provided with a corresponding interior and equipment.
    The invention will be explained in more detail with reference to an embodiment schematically illustrated in the drawing. 1 shows a cube-shaped building with folded-down area expansion elements, FIG. 2 shows the building according to FIG. 1 with folded-up area expansion elements, FIG. 3 shows a first alternative embodiment of the retraction and extension mechanism for the area expansion elements, FIG. 4 shows a second alternative embodiment of FIG Retracting and Ausfahrmechanismus and Fig. 5 shows a third alternative embodiment of the retraction and extension mechanism.
    In Fig. 1, a cube-shaped building 1 with external dimensions of about 3x3x3 m is shown. The supporting structure of the building 1 is formed by a cube-shaped supporting framework of four vertical uprights 2 and these connecting horizontal bars 3. On the bottom side rails 3, a floor structure 4 is fixed, which forms the bottom of the building 1. The roof 5 of the building 1 carries a plurality of photovoltaic elements 6, which cover substantially the entire roof area. The photovoltaic elements 6 are connected to a non-illustrated electrical unit of the photovoltaic system, which includes, inter alia, an inverter and an electrical energy storage.
    The four side walls 7 of the building 1 are pivotably articulated about pivot axes extending along the upper edges of the cube and carry a plurality of photovoltaic elements 8, so that substantially the entire side wall 7 can be used in each case for the energy supply. The photovoltaic elements 8 can be used as area expansion elements for the photovoltaic system. The side walls can be folded up from the position shown in Fig. 1 folded down position in the position shown in Fig. 2, whereby the building is opened at the respective sides and at the same time a surface extension of the roof surface is achieved. In Fig. 2, the side walls 7 are shown in a horizontal, with the roof surface substantially aligned position. The side walls can be fixed depending on the angle of sunlight but also in an inclined position. In the upwardly folded state, the side walls 7 provide weather protection, which is particularly advantageous when using the building 1 as a sales stand, bar or the like.
    In the embodiment according to FIGS. 1 and 2, the photovoltaic elements 8 are arranged in the folded-down state on the outside of the side walls 7. Alternatively, a mechanism may be provided to rotate the side walls 7 before folding down so that the
    Photovoltaic elements 8 come to lie on the inside of the side walls 7 in the folded-down state, in order to avoid the "* t" + "* ♦« · «* * * * *« «« «· · ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦. * 0 ···· «··· · · ♦
    Photovoltaic elements 8 to better protect against external influences.
    In the embodiment according to FIG. 3, the photovoltaic elements 8 which can be used as area enlargement elements are not arranged on hinged side walls but on panels which can be pulled out of the roof construction in a load-shaped manner. The panels can be displaced in accordance with the double arrow 11.
    In the embodiment according to FIG. 4, the panels 10 can be pivoted out of the roof structure in a fan-like manner. The pivot axes extend in the vertical direction.
    In the embodiment according to FIG. 5, the photovoltaic elements 8 are arranged on - a .auseinander- and collapsible construction. The foldable elements 12 are guided along rails 13.
    权利要求:
    Claims (10)
    [1]
    9 • * * * * »ft • • • t t t t t t t Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent Patent , transportable building (1) comprising a rigid, in particular cuboid support structure carrying a roof (5) which is provided with elements (6) of a solar system, characterized in that at least one surface extension element (8) of the solar system is provided which the If necessary, the roof area is enlarged beyond the floor plan of the building (1).
    [2]
    2. Building according to claim 1, characterized in that the solar system elements (6) cover the roof (5) substantially over the entire surface or form this.
    [3]
    3. Building according to claim 1 or 2, characterized in that the at least one surface enlargement element (8) is foldable, extendable, ausrollbar, foldable, swing out and / or suspended.
    [4]
    4. Building according to claim 1, 2 or 3, characterized in that the at least one surface enlargement element (8) between a at least part of a side wall (7) of the building (1) forming position and the roof surface magnifying position back and forth is swiveled ,
    [5]
    5. Building according to one of claims 1 to 4, characterized in that a plurality of surface enlargement elements (8) is provided, which are each mounted pivotably about a along a side edge of the roof (5) extending pivot axis. I 10 • 99 • 9 9 • 9 * 9 9 9 9 9 • 999 9 Λ 9
    [6]
    6. Building according to one of claims 1 to 5, characterized in that the inclination of the at least one surface enlargement element (8) is adjustable and fixable in the set position.
    [7]
    7. Building according to one of claims 1 to 6, characterized in that the supporting structure as a framework of the side edges of a cuboid or cube-forming bars (3) and uprights (2) is formed, which are connected to each other at the corners.
    [8]
    8. Building according to one of claims 1 to 7, characterized in that the solar system is designed as a photovoltaic system and optionally has an electrical energy storage.
    [9]
    A building according to claim 7 or 8, characterized in that the photovoltaic system feeds into the building integrated electrical consumers, e.g. Cooling units, lamps, Koramunikationsgeräte and the like.
    [10]
    10. Building according to one of claims 1 to 9, characterized in that no edge length of the building (1) exceeds 3.4 m and / or that the building (1) is designed as a residential unit, sales booth or bar. Vienna, on 4 September 2012 by applicant

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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE2944726A1|1979-11-06|1981-06-04|Reinhard Klaus Ing. 1000 Berlin Hager|Mobile town built from containers - comprises standard transportable containers set up in high solar radiation areas|
    DE10054253A1|2000-11-02|2002-09-26|Joerg Erhardt|Combined water, electricity and heating or air-conditioning supply unit, has all components housed within container provided on its outside with photovoltaic elements|
    US20080196758A1|2006-12-27|2008-08-21|Mcguire Dennis|Portable, self-sustaining power station|
    US20110056146A1|2008-02-29|2011-03-10|Jean-Pierre Appert|Housing unit module and corresponding housing unit|
    US20110253193A1|2010-04-16|2011-10-20|General Electric Company|Deployable solar panel system|
    WO2003031341A1|2001-10-11|2003-04-17|Robert Niederer|Mobile cube for the production of energy and the purification of water by reverse osmosis and similar techniques|
    CH695707A5|2003-04-07|2006-07-31|Robert Niederer|Supply unit for electricity and water on the basis of renewable energies.|
    DE202007012724U1|2007-09-11|2007-12-06|Institut für Luft- und Kältetechnik gGmbH|Air-conditioned container|
    ITRM20100015U1|2010-02-04|2011-08-05|Pro D3 S R L|MOBILE SOLAR GENERATOR|
    ES2408331B1|2010-04-13|2014-01-02|Tempero 2000 S.L.|Transportable power plant|JP6452222B2|2014-05-01|2019-01-16|積水化学工業株式会社|Solar power plant|
    BE1022801B1|2015-04-21|2016-09-08|Tiger Power Bvba|DEVICE CONTAINING MULTIPLE SOLAR PANELS|
    WO2017100862A1|2015-12-16|2017-06-22|5B Ip Holdings Pty Ltd|Portable solar photovoltaic array|
    WO2018044796A1|2016-08-29|2018-03-08|SacTec Solar Inc.|Rapidly deploying transportable solar panel systems and methods of using same|
    EP3331159B1|2016-12-02|2020-08-19|Marcus Meier|Solar cell assembly|
    DE102018119915B4|2018-08-16|2020-10-22|NYTEK GmbH|Module for a modular structure and modular structure|
    DE102020118210A1|2020-07-10|2022-01-13|Werner Reichert|Energy efficient modular greenhouse|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA968/2012A|AT513032B1|2012-09-04|2012-09-04|Multifunctional, transportable building|ATA968/2012A| AT513032B1|2012-09-04|2012-09-04|Multifunctional, transportable building|
    PCT/AT2013/000172| WO2014036582A2|2012-09-04|2013-10-15|Multipurpose, transportable building|
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