NL1001402C2 - Inflatable building construction for tunnel greenhouse - Google Patents

Abstract

The construction comprises a film (2) with longitudinal edges (3,4) anchored to the ground. For anchoring the longitudinal edges of the film, at least one flexible, expandable hose or tube (21,22) is used which lies on or against a longitudinal edge in a trench (5,6) in the bottom. The hose or tube is filled with a fluid under excess pressure and clamps the film edges in the trench. At least one expandable hose or tube forms one whole with the film of the film greenhouse. At least one expandable hose or tube comprises a connecting member for a filling line. At least one expandable hose or tube comprises a submerged pump. A double-walled configuration has two film covers spaced apart using air pressure. The edges of the two film covers are jointly retained in the same trench and by the same hose or tube. Between the environment and the inter-space between the two film covers, at least one first fan is operative. Between the space between the two film covers and the useful space at least one second fan is operative.

Description

Title: Tunnel greenhouse.

The invention relates to a tunnel greenhouse comprising a foil with longitudinal edges, anchored to the ground by an air pressure increased in relation to the environment, in a tunnel-shaped condition of use.

Such tunnel greenhouses are known from practice in various embodiments. In the simplest embodiment, such a tunnel greenhouse consists of an elongated strip of plastic foil, the longitudinal edges of which are buried in the ground, the part between the buried longitudinal edges being held in a dome-shaped position by increased air pressure, provided by a fan. For example, an airlock can be arranged at the ends and / or the end edge can be buried in the ground.

In such a foil greenhouse, all (storm) forces acting on the foil 15 must be absorbed by the ballast on the buried longitudinal edges. This also applies to the invention from foil tunnel greenhouse with inflatable ribs and ballast chambers known from US patent 4856228, to the foil tunnel greenhouse from FR-A-2560742 and from the structures known from Belgian patent 713761 and from US patent specification 3800468. In another known embodiment, a net is stretched over the tunnel greenhouse, the edges of which are buried in the ground again, which is attached to ground anchors on either side of the tunnel greenhouse.

Although, when such a net is used, the longitudinal edges need to be buried less far in order to obtain a stable construction, a drawback of the use of a net is that this requires an extra strip of expensive horticultural land on either side of the actual tunnel greenhouse. It is also difficult and labor-intensive to install a net over a tunnel greenhouse.

A drawback of the types of tunnel greenhouses with buried foil edges described above is that it is virtually impossible to clear the 100 1 4 0 2 2 buried foil edges without damage. Removal of earth lying on and against a buried foil edge using a plow or the like will inevitably lead to damage of the foil. Damage to the foil is practically unavoidable also when releasing a buried foil edge by hand with the aid of a shovel, which is often unacceptably time-consuming. These known foil tunnel greenhouses are therefore in practice only suitable for single use.

The object of the invention is to overcome the drawbacks outlined and to provide an effective, wind-resistant, tunnel-shaped tunnel greenhouse which is easy to install and / or remove.

For this purpose, according to the invention, a tunnel greenhouse of the type described above is characterized in that, for anchoring the longitudinal edges of the film, at least one expandable hose or tube, which is filled with at least one fluid and under pressure, which is filled with at least one fluid, is located in a slot in the bottom which clamps the film edges in the slot 20. According to the invention, a method for installing a foil tunnel greenhouse is characterized in that a trench is mechanically provided in the ground for anchoring each longitudinal edge; that a longitudinal edge of the foil is placed in the slot and that on the longitudinal edge lying in the slot at least one expandable hose or tube is placed, which is filled under pressure with an appropriate fluid to anchor the longitudinal edge.

In the following, the invention will be further described with reference to the accompanying drawing.

Figure 1 shows schematically in cross section a known tunnel greenhouse of foil; Fig. 2 schematically shows in cross section another known tunnel greenhouse of foil; figure 3 shows schematically in cross section an example of a foil greenhouse according to the invention.

Figure 1 shows a schematic cross-sectional view of a first example of a known foil tunnel greenhouse 1. The 100 1 402 2a foil tunnel greenhouse shown is constructed using an elongated strip of a suitable plastic foil 2, for example polyethylene, commercially available for this purpose, of which the longitudinal edges 3,4 are buried in the ground in order to fix the tunnel greenhouse. Under operation, an overpressure 1001402 -3- is created under the plastic foil in operation, for example, so that the tunnel greenhouse assumes and retains the shape shown in the figure, so that a greenhouse space for the crop 9 is created. In practice, the tunnel greenhouse can be provided at one or both ends with an airlock (not shown) with a sealing flap, not shown, which forms a lockable access opening. The end edge of the foil can lie over the airlock and be buried next to the airlock. In practice, such a tunnel greenhouse can be many tens of meters long, even 100 meters or more.

The longitudinal edges 3 and 4 are placed in a preferred plowed 5.6. In the drawing the furrow 5 is already filled with soil, while the furrow 6 is still open. The earthen bank raised during plowing or milling, such as the bank indicated at 7, can be pushed back into the furrow 15 with the plow, as indicated with an arrow 8.

It can be seen from the figure that in practice it is virtually impossible to excavate the foil edges without damage occurring. In practice, such foil tunnel greenhouses can be used once again.

A similar drawback applies to the foil tunnel greenhouse shown in Figure 2, which corresponds substantially to the foil tunnel greenhouse shown in Figure 1. The construction shown in figure 2 differs from the construction shown in figure 1 in that a net is shown schematically at 10 over the foil tunnel 2, which forms an additional anchoring for the greenhouse. The net 10 is anchored to the ground on either side of the foil tunnel greenhouse by means of ground anchors 11. A drawback of this construction is that strips of soil are seized on either side of the foil tunnel greenhouse, which are then no longer available for growing crops. is. Furthermore, the installation of the net and in particular the ground anchors is labor-intensive and time-consuming.

Figure 3 shows schematically in cross section an example of a foil tunnel greenhouse 20 according to the invention. The foil tunnel greenhouse of Figure 3, like the foil tunnel greenhouses of Figures 1 and 2, consists of a strip of foil 2 with longitudinal edges 3 and 4, which are anchored in or to the ground.

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For clarity, the foil is drawn with double lines and cross-section shading. The longitudinal edges lie in slots 5.6 with a plow or cutter. The trenches, however, are not filled with earth on the longitudinal edges but with an expandable hose 21,22 filled with a pressurized fluid, for instance water or air, which lies on the anchoring longitudinal edges and anchors them. The hoses can be made of any suitable expandable material, for example rubber, canvas, plastic, etc. The hoses can be filled in situ, that is to say lying in the slots, for instance by means of a water hose or air hose connected to a suitable valve, as schematically indicated at 23. The water hose can be connected to a pump and if an air hose is used it can be connected to a compressor 15. The hose is filled with increased pressure, so that it presses the foil edges 3,4 firmly against the bottom and side walls of the slots 5.6. The film edges are therefore clamped in the slots. It is also possible to first partially fill the hoses while the hoses are still next to the 20 slots and then roll the hoses into the slots and pressurize them.

Since the slots are not plowed shut after the foil edges have been applied, there is also no chance that the foil edges, if placed relatively far into the slots, are folded back. When using pressurized anchoring hoses, the foil edges can be placed in the slots without any problem, such that the foil edges extend over the entire width of the bottom and over the opposite wall of the slots, so that a large contact surface 30 and a correspondingly stronger anchoring effect arises.

Because both the hose and the foil itself are made of a flexible material, the foil is able to adhere well to the walls and bottoms of the slots over the entire surface of the longitudinal edges situated in the slots.

A great advantage of the foil tunnel greenhouse according to the invention is that it can be broken down easily, quickly and without damage. For this purpose, only the hoses 21, 22 have to be removed and then the foil to roll up or fold The hoses can be removed by emptying them in the slots (in whole or in part) and then taking them away, or by first pulling the hoses out of the slots and next to the slots and only then deflate (further) later.

The foil of a broken-off tunnel greenhouse according to the invention normally remains undamaged and can therefore be reused. From a business economic point of view, this also makes it possible to use a high-quality film, which is resistant to adverse weather conditions such as strong wind and storm. As a result, such a foil greenhouse can be used again earlier in the season. Another advantage of high-quality foil is that it can usually be repaired if damaged, which is often not the case with lesser quality foils.

If a foil greenhouse is damaged by storm, it can be replaced very quickly by applying the pressure hose anchoring, so that the crop is not lost.

On the other hand, the foil greenhouse can also be broken down very quickly if the temperature suddenly rises early in the growing season, which can be unfavorable for the crop.

The foil tunnel greenhouse according to the invention also offers the possibility of adjusting the greenhouse height during the growing season. For example, it is possible to fold one or both edges of the film several times early in the season and then install the hoses 21,22. The actual greenhouse space 24 then remains relatively low, which allows rapid heating to a relatively high temperature. The crop can therefore develop rapidly in the initial phase. Subsequently, at least one of the hoses can then be temporarily removed from the slot, the associated longitudinal edge can be unfolded slightly, so that more space is created in the central part, and the hose is reattached. It is also possible to partially deflate the hose and then fold out a fold under the hose

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-6- pull the foil to create more space in the central part.

In this way the foil tunnel greenhouse can be adapted relatively easily to the development or the nature of the crop, and to the changing weather type during the successive seasons.

A greenhouse according to the invention is very suitable for use in asparagus cultivation. The surface loss when using a greenhouse according to the invention in the asparagus cultivation 10 can be very small or even zero if the longitudinal edges of the foil are anchored in a suitable place between the asparagus backs. A greenhouse according to the invention can even be set up on existing plots without modification. When a low tunnel is used in early spring as described above, the asparagus harvest can be brought forward a few weeks. This of course also applies to other crops.

It is noted that after the foregoing various modifications are obvious to the skilled person. For example, several expandable hoses or tubes can be used per longitudinal edge, which connect with the ends. If desired, a few filled hoses or tubes of relatively small diameter could also be arranged next to each other. Furthermore, a similar anchoring could be applied at the end ends of the tunnel greenhouse, for instance by means of a short hose or by means of a section of an anchoring hose lying on a longitudinal edge of the foil, which is arranged in a bend. Furthermore, a liquid other than water or a gas other than air can in principle be used for the filling of the hoses. If desired, a pump can be used to empty a hose, for example a submersible pump fitted in the hose (if the hose is filled with liquid), or a suction pump connected to the valve. The hoses can also form a whole with the greenhouse foil if desired. It is further possible to partially fill the anchoring hoses with liquid and then bring them to the desired pressure with the aid of a gas. Also, if desired, the anchoring 4 r '</ "<o -7- according to the invention can, of course, be combined with the use of a net, for instance at large spans. Furthermore, rainwater can be discharged via the longitudinal edges of the film, which are located in the slots, insofar as the hoses do not prevent this, these and similar modifications are considered to fall within the scope of the invention.

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Claims (10)

1. Tunnel greenhouse comprising a foil with longitudinal edges anchored to the ground by an air pressure which is elevated relative to the environment, with longitudinal edges anchored to the ground, characterized in that at least one on one in a slot for anchoring the longitudinal edges 5 of the foil in the bottom, longitudinal edge lying, expandable hose or tube filled with at least one fluid under pressure, is used, which clamps the foil edges in the trench. 2. Tunnel greenhouse according to claim 1, characterized in that the at least one expandable hose or tube is integral with the foil of the foil greenhouse. Tunnel greenhouse according to claim 1 or 2, characterized in that the at least one expandable hose or tube is provided with a connecting element for a filling hose. 15 Tunnel greenhouse according to claim 1 or 2 or 3, characterized in that the at least one expandable hose or tube is provided with a submersible pump. Tunnel greenhouse according to one of the preceding claims, characterized in that the hose or tube is made of flexible material. 6. A method of installing a tunnel greenhouse comprising a foil held in a tunnel-like condition of use by an air pressure which has increased relative to the environment, with longitudinal anchored longitudinal edges, characterized in that, for anchoring each longitudinal edge, a slot is mechanically inserted in the soil is applied; that a longitudinal edge of the foil is placed in the slot and that on the longitudinal edge lying in the slot at least one expandable hose or tube is placed, which is filled under pressure with an appropriate fluid to anchor the longitudinal edge. A method according to claim 5, characterized in that the expandable hose or tube is at least partly filled, while it lies next to the slot and is placed in the slot in the at least partly filled state, and is then brought to overpressure. 1001402 -9- 8. Method as claimed in claim 6 or 7, characterized in that at least one of the longitudinal edges of the foil is placed in the slot with one or more longitudinal folds in order to enable a later increase of the greenhouse space. A method according to any one of claims 6 to 8, characterized in that the hose or tube is partly filled with a liquid and partly with a gas. A method according to any one of claims 6 to 8, characterized in that the fluid is air. 100 1 402