专利汇可以提供Building专利检索,专利查询,专利分析的服务。并且The greenhouse dome is constructed of identical rhombic surfaces on identical struts and is mounted on a base with vertical surfaces and can be both land and water-based.
In the water-based embodiment, the shell (51) rests on a block of foamed plastic (42) with a central through-pipe (46) for ventilation and serving as a point of attachment when the entire arrangement is lifted up out of the water by a crane.
For construction on land, there are vertical pipes (47,48) for insertion of supporting legs. Air circulation (53,46,49,52,50) can be regulated by a damper (55). The water is collected in a reservoir (54) on the sheet (43) enclosing the bottom of the floating body (42). Nutrient solution is circulated from the bottom (58) of the cultivation troughs (59) with a pump (57) to the highest point (60) of the troughs.,下面是Building专利的具体信息内容。
In recent years, interest has increased in economical and energy-efficient small-scale cultivation and created a need for simple, inexpensive and highly efficient greenhouses suitable for more or less do-it-yourself construction. Also, a revised legislation in Sweden has facilitated the construction of small buildings with a floor area of less than 10 m 2
The present invention intends to provide small high- efficiency greenhouses at low cost. According to the invention, the greenhouses are constructed of a small number of standard components which are designed for very inexpensive manufacture and minimum transport volume. The standard components are made so that assembly is simple and does not require special tools, and minimizing the risk of error in assembly. The materials can be inexpensive and rugged and can be used to provide good insulation. The incident light energy can be used efficiently, and heat losses are brought down by virtue of the fact that the surface is small in relation to the enclosed volume. In order to be usable in various contexts, the geometric form has been made aesthetically pleasing so as to permit connection to other structures and expansion by coupling together of a plurality of units. The functional flexibility is great as regards the cultivation itself covering everything from conventional cultivation to fluid film cultivation; insulation, either single or double shells with reinforced insulation effect; screening covering everything between simple reflective sheets to advanced solar collectors; and heat storage in the form of simple stone magazines up to advanced deep-heat storage.
The structures according to the invention are intended both for land-based and marine-based cultivation taking into consideration utilization of available space and irrigation problems in dry climates.
According to the present invention, all of these purposes are achieved with a simple dome geometry based on equilateral rhombic wall sections. The structure is also applicable to clerestories, storehouses, halls etc. and will be described in detail with reference to the accompanying figures, of which
The dome shown in Fig. 1 cohsists of 20 identical wall sections 1, 10 of which are vertical and are fixed to a base 2. The framework of the dome is constructed of 45 identical struts 3. The struts can be manufactured of pressure-creosoted wood, which combines both strength and relatively poor heat transference. Such materials as iron, fiber-reinforced plastic etc. can of course be considered. Air ducts 4 are drilled into the strut and the ends are provided with notches and slots 5,6 so that one end 5 can be coupled to a support disc 7 of a hub 8 with five wings, and the other end 6 to a corresponding support disc in a hub with three wings. The hubs are made of steel, but aluminum or another strong material can also be used. Each hub 8 is, as shown in Fig. 3, built around a post 9 provided with seven longitudinal conical slots positioned to correspond to the slots in the disc 7 when it is fixed in the proper position at one end of the post with a screw 10. A screw 11 is screwed into the other end of the post to anchor three or five support wings 12 which are pushed down into the slots 13 in the post. These depositions for said wings are indicated in Fig. 3 with o for hubs with five wings and x for hubs with three wings. The dashed lines in Fig. 3 show position 14 for a strut in the former case and position 15 for a strut in the latter case. The support wing 12 is provided at its upper edge with a bend so that it can be anchored securely in the slots 13 in the post 9. For fixing the strut to the support wing, there is a screw hole 16. A corresponding screw hole 17 in the strut is shown in Fig. 4 which also shows the slot 18 into which the support wing is inserted into the strut 3. The various slots and notches are best revealed in Fig. 5. Narrow T-profiles 23,24,25,26, preferably of plastic, can be pressed into narrow slots 19, 20,21,22 to anchor exterior 27,28 or interior 29 skins or sheets. Air-tight connections are assured by strips of tape 30,31. Notches are made in the strut which permit fitting of doors for example, or an alternative covering of glass or fiberboard, and a rhombic grid 32 made of strips of plexiglass for example. The grid supports and fixes the exterior and the interior plastic sheeting to prevent condensation and increase the insulation capacity by maintaining a slight underpressure of dry air between the sheets. With thinner rhombic grids 33,34 between the sheets, it is also possible to define a space for insulation sheeting. With the aid of cords in special slots 35, such insulation sheets can be pulled out from rollers placed along the diagonals of the rhombi. The edges of said sheets can be provided with magnetic strips which lock the sheets to corresponding sheets or plates along the struts when the sheet is completely extended.
A structure of this type with a single dome skin, without reflecting insulation membranes, can serve as a simple greenhouse which is ventilated by lifting up the dome as needed. In a more advanced embodiment, the dome is built with double sheets and planters on a circular rock magazine through which the air is drawn by means of a fan from the top of the dome via a plastic hose through the magazine. The cultivation system can be developed further by using manually operated insolation membranes on the inside of a double-membrane wall. Further improvement is obtained by a slight underpressure and dry air, insulation membranes between the sheets and electric operation. It is also possible to use artificial lighting at night. By circulating the air in this embodiment through tubes in a heat magazine containing water, it is possible to make a bench for fluid film cultivation. Finally, this system can be combined with a pump for deep-heat accumulation.
An embodiment which particularly emphasizes water conservation and which is therefore of interest in dry climates is shown in Figs. 7 and 8. A raft or large body of expanded polystyrene 42 floats on the water surface 41. Its underside is covered with polyethylene sheeting 43 which is fixed to the edge of a platform or a deck 44 of wood around the edge of the raft 42. A large net 45 hangs from the wooden deck down under the entire raft. A large pipe 46 is disposed through the polystyrene body and serves both as a ventilation pipe and as a point of attachment when the entire arrangement is to be lifted up out of the water by a crane. The arrangement can then be placed on five legs inserted in vertical pipes 47 fixed to five heavy arms 48 extending from the central, vertical pipe 46.
The central pipe 46 communicates with radial ducts 49 formed between the polyethylene sheeting 43 and gutters cut in the bottom surface of the polystyrene body. At the periphery, the ducts 49 communicate with other vertical ducts 50 which open to the inside of the dome 51. The vertical pipe 46 also communicates with horizontal ducts 52 which form a shunt to the vertical ducts 50 at the periphery. The air which is pressed down through the central pipe by a fan 53 can thus proceed by two paths back to the dome, either over the bottom membrane whereby the humidity in the air condenses and forms a fresh water reservoir 54, or through the duct 52 whereby no heat is lost. A damper 55, which can be moved up and down under the influence of a temperature sensor at the top of the dome, functions as a geared valve and controls the temperature.
Condensed fresh water is returned to the medium by a pump 56. Nutrient solution is collected from the inclined growing trough 59 at the bottom 58 and is returned by a pump 57 to the highest point 60. The arrows indicate the liquid flow which becomes a fluid film when flowing over the structured surface of the inclined troughs. The troughs 59 can be made in five segments of fiberglass-reinforced plastic, and the polystyrene body can be divided in the same way in five like segments, as illustrated by the solid line 61 in Fig. 7. The functioning of the system is clearly described in the description, but it can be operated in various ways. Harvesting can be done in situ but it is also possible to lift the troughs out of the dome with a crane, wash the plants and process them automatically. The power for the operation of fans, pumps and lighting can be obtained, especially for remote non-industrialized areas, from diesel generators or Sterling engines, which also produce pure carbon dioxide.
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