HU192414B - Building mountable from container units - Google Patents

Abstract

The invention provides a mobile breeding and/or cultivation enclosure having free-standing units (14) supporting a roof framework (11) which in turn supports a roof. The roof is made up of an array of panels (2) that are placed side-by-side and provided with ducts running across the roof, heat insulating material (4), a base (6), a layer of glass (5) and profile ties 3. <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to a building made up of container units having an assembled _space .

It is known that facilities to produce and process vegetables and / or produce different types of vegetables * and / or fruits, which are in line with particular climatic and other conditions, have been on the agenda everywhere to better meet the increased nutritional requirements of the world. These facilities generally require the use of advanced materials and technologies; however, these materials and technologies are not available in the areas where food is most concerned. Therefore, in such cases, raw materials and equipment need to be transported over very long distances to their destination, and there they must be relatively quick and easy to set up.

That is why various lightweight and lightweight prefabricated buildings are used for such purposes, which are easy to transport and easy to assemble, with relatively little labor and little expertise.

The buildings used for this purpose are generally no different from the lightweight solutions used in other areas (such as parade buildings, exhibition halls, workshops, etc.). Among many other such solutions, see, e.g., U.S. Patent No. 180,761. Hungarian or 2,547,399 German patent specification describes such lightweight buildings. These constructions are easy to transport, re-erect and dismantle.

Container solutions are also a common category of easy-to-move and assemble prefabricated buildings, where the containers themselves form part of the building to be built, and the remainder of the building components are located in the same containers.

Also known are building blocks which are also solar collectors. They provide energy-saving hot water supply in the building or roof structure. Such a collector element is described, for example, in U.S. Pat. GDR or Nos. 1,530,980 and 2,003,216 respectively. English patent specification.

It is also known that, to date, various production or rearing systems, such as fish breeding stations, are custom-designed and use conventional building structures for their construction. The obvious downside to továbl unique design and expensive as a result of construction and the built objects, as well _as technological equipment is fairly inelastic, ie the production or cultivation systems ^r evelopment or very difficult to change.

It is particularly difficult, for example, to build and operate these fish breeding stations in countries which, without industrial and technological background, rely on import equipment to develop their aquaculture lira. In these locations, the compatibility of the on-site building with the technology equipment often supplied by multiple suppliers is difficult to achieve and also involves difficulty in transporting 4 «β.

Due to the trade-offs resulting from the above difficulties, there is usually no way of satisfying the demands of the product I have with the product, so in principle the breeding and rearing rates are generally lower than those available. It is therefore an object of the present invention to provide a building made up of mosul units capable of carrying out particularly high heat and water demanding production and / or rearing processes, such as fish breeding stations, and which eliminate these disadvantages both in their manufacture and transport. and they are simple, cheap and economical to operate.

According to the present invention, the object of the present invention is to provide the roof of the building with trays, a light-transmitting topsheet and a frame arranged on an insulating layer overlapping the entire space between the eaves and the eaves, the trays being provided with the orifice tubes being connected at both ends of the collector elements and having outlet and inlet connections, and the frame is formed by at least U-profile extruded sections facing outwards on at least two longitudinal sides, such that the collector elements are joined together its frame sections form corneal beams.

The edges and mixing tubes of the trays in the collector elements are preferably formed as one piece extruded profile and the edges of the trays inside the collector elements are fixed to each other.

Preferably, the collector elements are connected to the spacers by means of spaced-apart spacers and a reverse U-section which interconnects the edges of the frames, and the joints between the elements are covered by a cover section.

The basic advantage of the construction according to the invention is that it combines the advantages of the various types of lightweight structures and building elements listed in the introduction, thus making it possible to produce buildings which are particularly suitable for high heat and water intensive production and / or cultivation processes easy to transport, easy to set up and extremely economical to operate.

This is mainly due to the special design of the collector elements, which, in addition to using cheap solar energy, make the roof structure of the building extremely simplistic as self-supporting roof elements.

Further details of the invention will be illustrated by way of an exemplary embodiment. In the drawing it is

Figure 1 is a perspective view of an embodiment of a building according to the invention, a

Figure 2 is a side view of the tray forming the collector element used in the embodiment of Figure 1, a

Figure 3 is a sectional view of a collector element, a

Figure 4 shows the connection of two units of the collector element shown in Figure 3, and

Figure 5 is a plan view of the collector element.

Figure 1 shows a preferred embodiment of the building according to the invention. The roof structure 1 shown is formed by the collector elements 2 according to the invention. The entire roof structure 1 rests on rooms formed from container units 3 and storage enclosures 4 and is secured with a releasable bond. The embodiment shown is a convenient arrangement for a fish breeding station, where the 3 container units form the various technical units (water preparation, heat center, etc.) and the Camp.

192,414 rium beers and social units.

The collector elements 2 are formed from the trays 5 shown in FIG. The trays 5 are extruded aluminum profiles with flanges 6 on both sides and a liquid circulating tube 7 in the center, which at the same time serves as a stiffening element.

Further reinforcement is provided by the ribs 8 formed on the sides of the trays 5.

3 shows that the collector elements 2 are arranged on a motherboard 9. A heat insulating layer 10 is applied to the motherboard 9 and the trays 5 are placed thereon. The trays 5 may move freely on the thermal insulating layer 10, but are attached to the seed, but are welded.

The collector element 2 is held together by 77 frames. The frame is made of a die-cut section formed from a U-profile 12, the spine of which is reinforced by a stiffening rib 14, one of which is bent to a flange 13. Opposed to the stiffening rib 14, a guide strip 15 is welded to the frame 11, where the edge of the extreme trays 5 is fitted.

Above the trays 5, a glass plate 16 is placed on the belt plate 20 of the U-profile 12 of the frame 11, as is known in the solar panels.

All the frames are screwed together by 17 screws to the motherboard 9 and this ensures that the trays 5 are joined together into one unit.

Figure 3 is a sectional view of one half of a collector element 2, and Figure 4 illustrates the connection of two collector elements 2.

The frames 11 of the collector elements 2 placed side by side form a hollow corneal beam. The adjacent frames 11 are held together by spacers 18 by means of nuts 19.

A base 20 is provided at the bottom of the spacer connectors 18, and the upper nuts 18 engage a U-profile 21 on the edges 13 of the frame sections 11.

The joint is covered by 22 U-profiles and the same element also secures the glass sheets 16. gg

Figure 5 is a plan view of a complete collector element 2. The illustrated collector element 2 consists of four trays 5, which, as already mentioned, are welded along their edges 6. The fluid circulating tubes 7 running through the center of the trays 5 are connected to the collecting tubes 23 on both sides and the collecting tubes 23 are inlet 24 and 25. and their outlet ports are connected to the piping 26 of the water system.

From the foregoing it can be seen that, according to the invention, extremely lightweight, container-transported, easy-to-assemble buildings suitable for the use of solar energy are produced. The collector elements used as the roof structure of the building at the same time form the roof frame and the shell, while forming solar collectors.

accordingly, the buildings of the present invention are particularly suitable for the construction of high energy and water intensive technologies, such as fish breeding or plant growing stations, and for their fast and easy assembly.

Of course, in addition to the example shown, many other constructions can be constructed according to the phenyl principles within the scope of the appended claims.

Claims (5)

Claims Container unit building comprising a roof assembled from elements transported in containers, characterized in that the roof shell is formed by self-supporting collector elements (2) covering the entire distance between the ridge and the eaves, which are provided with a heat insulation comprising trays (5) on a layer (10), a light-transmitting topsheet and a frame (11), the trays (5) having longitudinal flanges (6) and also longitudinal fluid recirculation tubes (7), the recirculating tubes (7) being collector elements (7). 2) are connected at both ends and provided with outlet and inlet stubs (24, 25) and the frame (II) is pressed on at least two longitudinal sides with a stiffening rib (14) pressed on one of its legs and facing outwards. formed by U-profile sections (12), interconnected collector elements (2) t frame sections form corneal beams. Building according to Claim 1, characterized in that the flanges (6) and the circulating pipes (7) of the trays (5) in the collector elements (2) are integral with the sashes as a molded profile. . Building according to claim 1 or 2, characterized in that the edges (6) of the trays (5) inside the collector element (2) are fixed to each other. 4. A building according to any one of claims 1 to 3, characterized in that the collector elements (2) are mounted along the frames (11). spaced together by means of spacers (18) and a U-profile (21) which engages the edges (13) of the frames (11). Building according to Claim 4, characterized in that the expanded hat section between the collector elements (2) is covered by a shaped cover (22).