NL1027065C2 - Underground reservoir, comprises flexible vessel with liquid inlet and outlet connections located inside reservoir casing - Google Patents

Abstract

A flexible vessel (7) is located inside the enclosed space (5) defined by the reservoir casing (2) and includes a means (8) for connecting it to a liquid inlet and outlet. The casing comprises two closure parts (4) and at least one casing section (3) resting on a base surface (1). Ribs extend along the casing section walls. Independent claims are also included for the following: (A) Combination of several of these reservoirs in which the casings are connected together on top of the same base surface to form separate reservoir spaces; and (B) Method for constructing the reservoir by erecting the casing on top of a base surface and then covering with soil.

Description

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Device with flexible reservoirs for receiving fluid underground.

The present invention relates to a device for absorbing fluid underground, which device is positioned underground and comprising a base surface and a housing member, which housing member comprises two closing elements and at least one housing element, which housing element is provided with ribs which extend along extend the wall thereof, and wherein the housing member is positioned on the base surface such that a substantially sealed space is formed.

Underground means that the device is positioned under a ground layer and can be located, for example, below ground level or a mound. The main function of the base layer above the device is to reinforce and isolate the device. Recording means both storing and handling of fluid.

Such a device is known from the current state of the art. In the known device, the housing member is connected in a gas-tight manner to the base surface, the fluid being stored in this closed space. A major disadvantage when placing this device is that the gas-tight connection of the housing member to the base surface, for example by using a welding process, is labor-intensive. In addition, the user experiences many disadvantages when performing adjustment, replacement and / or repair work. To perform such work on this device, it is necessary that the entire ground surface above the device is removed. Since these devices are often used in situations in which the use of the ground surface provides an economic advantage, such as in the agricultural sector and in particular in horticulture, industry and utility construction, it will be clear that such an intervention is much economically disadvantageous. may have consequences. In addition, during adjustment, replacement and / or repair work, it is often necessary for the gas-tightly connected housing member to be detached from the base surface. In addition to the fact that this intervention is labor-intensive, there is a risk that the base surface hereby becomes damaged so that it is no longer gas-tight. Repairing a leaked base surface can again be a labor-intensive process, in which there is always the risk that certain leaks will not be repaired properly or be handled. Whether such a repair has actually gone well is only clear when the device is used in 10270 65 2. As a result, it happens more than once that the user has a leaky device after performing this work. Some of those devices remain leaky even after repeated repair attempts. In such situations it is often decided to replace the entire base surface. In practice, however, use is often made of an assembly of a plurality of interconnected devices, which, for example, are positioned side by side on the same base surface and together form a modular system. This means that when the base surface is replaced, the ground surface above the entire assembly must be broken up and all gas-tightly connected housing members must be detached from the base surface, with all the aforementioned adverse consequences.

The object of the present invention is to provide a device for taking up fluid underground, which does not have the aforementioned disadvantages.

This object is achieved according to the invention in that at least one flexible receiving member for receiving fluid is positioned in the closed space, which flexible receiving member is provided with connecting means for connecting supply and discharge means for fluid. The placing of a device according to the invention preferably takes place as follows. First, a flat base surface is provided, which base surface is large enough to receive the device. Subsequently, the supply and discharge means for fluid from and to the base surface are laid. Thereafter, at least one flexible receptacle is positioned on the base surface and the flexible receptacle is connected to the supply and discharge means. The housing member is then positioned on the base surface in such a way that a closed space is created with at least one flexible receiving member positioned therein. The desired top layer is then placed on the housing member.

The advantage when placing the device according to the invention is that it does not comprise the labor-intensive activities of gas-tight connection of the housing member to the base surface. Namely, the housing member does not have to be gas-tightly connected to the base surface since the flexible receiving members positioned in the closed space 30 are gas-tight. In addition, when performing adjustment, replacement and / or repair work, it is not necessary to break open the entire ground surface above the device. It is sufficient to simply make an opening in the part of the ground surface that is above one of the connecting elements, so that the economically disadvantageous consequences are much smaller. Through an opening above one of the closing element, that closing element can be disconnected from the housing element and flexible receiving members can be removed and placed. These operations are less labor-intensive than the detachment of the gas-tightly connected housing members in the device according to the prior art. The chance that the base surface according to the inventions will be damaged during the performance of this work is considerably smaller, and any damage to the base surface will have few consequences since the device according to the invention can fully function properly when the base surface is not gas-tight. The situation described above that the user will decide to break open the entire ground surface, with all the economic consequences that entails, for replacing the base surface for the reason that it is not gas-tight will therefore, with the device according to the invention, only in exceptional cases appearance.

In a preferred embodiment of the invention, the connecting means of the flexible receiving members placed in the housing member are positioned substantially near one of the closing elements. This has the advantage that, when carrying out adjustment, replacement and / or repair work, the opening is made above the closing element located near the connecting means, the connecting means can be easily disconnected.

In a preferred embodiment of the invention, at least one of the flexible receptacles positioned in the closed space is positioned such that, in a pressure-filled state of the relevant flexible receptacle, it substantially determines the point with the greatest vertical distance from the base surface. . The advantage achieved with this is that when this connecting means is connected to degassing means, the connecting means, when the relevant flexible receiving member is filled with liquid, itself comes into contact with the liquid last. As a result, virtually no gas is present in the flexible receptacle when it is filled to a maximum with liquid in the position of use. The degassing means connected to the connecting means may comprise an overpressure valve. The effect of this is that within the flexible receptacle a higher pressure can prevail than the atmospheric pressure, which has the advantage that the stored fluid can be removed more easily from the flexible receptacle.

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A further preferred embodiment of the invention comprises an assembly comprising two or more devices according to the invention positioned next to each other on the base surface such that together a modular system of separate substantially closed spaces is formed, wherein at least one of said closed spaces comprises at least a flexible receptacle is positioned.

A further preferred embodiment of the invention comprises an assembly comprising two or more devices according to the invention positioned on top of each other in such a way that together a modular system of separate substantially closed spaces is formed, wherein at least one of said closed spaces has at least one flexible receptacle. is positioned.

A number of other embodiments of the invention are discussed below. This is not an exhaustive list of different embodiments, it only serves as an example.

In one embodiment, the housing bodies and / or the closing elements 15 can be fixed on the base surface on which they are positioned. The base surface may comprise geotextile. Furthermore, the flexible receiving member can be dimensioned such that it fits tightly against the walls of the relevant housing member, whereby the rigidity of the device is increased. In another embodiment, the flexible receiving member can be dimensioned such that a space is determined between the relevant housing member and the flexible receiving member. This space can serve as insulation for the hot or cold, fluid and / or for receiving gas contained in the flexible receiving member. In the situation that gas is taken up in that space, the housing member must be gas-tightly connected to the base surface. By providing the housing member in the wall with a plurality of small openings, a gas contained in that space can be passed through the soil layer and along any crops growing thereon. One can think of guiding CO 2 along crops to promote their growth or guiding gas through a primer for disinfecting it. By providing the base surface with channels, the water contained in the gas contained in that space, which water condenses on the walls of the housing member and receiving member and drips along the base surface, can be collected.

The flexible receiving member can be provided with gasifying means for guiding a gas through the stored fluid. For example, in the case of water, the conducting of air stored by water stored in water leads to a considerable improvement in the quality of the water. The fluid contained in the flexible receptacle may also comprise biomass for fermenting it, for example for obtaining biogas. The flexible receptacle can also comprise textile, which allows liquids to pass through and which retains substances present in that liquid, for instance for purifying a liquid.

The housing element may comprise a substantially constant cross-section in the direction perpendicular to its longitudinal axis, which constant cross-section comprises a circular part. The outside of the housing element can be provided with ribs, which ribs extend outwards along the circular part perpendicular to the longitudinal axis. The width of the housing element can be between 50 and 150 cm, the height between 50 and 150 cm and the length of between 1.5 and 2.5 m. With these dimensions, the housing element is easy to transport. The housing element can be made of high-density polyethylene and have a wall thickness of between 4 and 12 mm, depending on the amount of pressure on the ground surface that the device must be able to withstand. The length of the housing member is ultimately determined by placing a plurality of housing elements one behind the other in the longitudinal direction. The flexible receiving member can be made of polyethylene and have a substantially cylindrical shape with a slightly sloping cross-section, with a connecting means positioned in the position of use near the cross-section with the largest surface on the top. The closing element can comprise a bottom surface which has the shape of a half oval and from which a dome-shaped stepped wall extends. The flexible receiving member can also comprise a flexible flap, which is connected to the wall of the flexible receiving member substantially over a part or over its entire length, is positioned on the underside of the receiving member in the position of use and extends in a lateral direction and on which at least a portion of the housing member is supported. This has the advantage that the flexible receiving member cannot move within the enclosed space during use.

In the situation with more than one flexible receptacle, they may be in fluid contact with each other, grouped in fluid contact, or operate separately from each other. In the last two states, it is possible to receive different fluids and / or fluids separately in different states in a device.

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Furthermore, the base surface of the device can be positioned at an angle with respect to the horizon and a drainage system can be placed under the base surface. The invention will be further elucidated with reference to the drawings, in which Fig. 1 is a schematic side view, partially in section, of an exemplary embodiment of a device according to the invention, Fig. 2a is a schematic side view and Fig. 2b is a schematic front view Fig. 3 shows a preferred embodiment of the housing element of a device according to the invention, Fig. 3 shows a schematic perspective view of a preferred embodiment of the flexible receiving member of a device according to the invention, Fig. 4a shows a configuration of an assembly of three devices according to the invention, fig. 4b is an enlarged schematic representation of a part of the configuration of fig. 4a, fig. 5 is a schematic representation of a configuration of an assembly of five devices according to the invention, and fig. 6a a schematic side view, fig. 6b a schematic top view and fig. 6c a schematic front view is of a preferred embodiment of the closing element of the device according to the invention.

FIG. 1 shows an exemplary embodiment of a device according to the invention for underground receiving fluid, which is positioned below ground level 9 and comprising a base surface 1 and a housing member 2, which housing member 2 comprises a housing element 3 and two closing elements 4 on either side thereof. Positioned on the base surface 1, the housing member 2 forms, together with the base surface 1, a closed space 5. The housing member 2 largely determines the rigidity of the device and must therefore be shaped such that it can withstand the pressures under which the device is shown. Preferred embodiments of a housing element 3 and a closing element 4 are given in Figs. 2 and 6, respectively. A flexible receiving member 7 is positioned within the closed space 5, which is provided with connecting means 8 for connecting supply and discharge means for fluid. The flexible receptacle 7 serves to receive fluid and can be roughly compared to a plastic bag in which fluid can be stored, handled and removed 1027065 7. The flexible receiving member 7 is also provided with gassing means 11 for guiding a gas through the absorbed fluid. The housing element 3 is fixed to the base surface 1 by means of fastening means 23. A drainage system 6 is positioned under the device.

FIG. 2a shows a schematic side view and FIG. 2b a schematic front view of a preferred embodiment of the housing element 3 of the device according to the invention. The housing element 3 comprises a substantially constant cross-section in the direction perpendicular to the longitudinal axis 19 and two straight-extending ends 20 connected by a circular part 16. The outside 13 of the housing element 10 is provided with ribs 22, which ribs 22 extend along the the circular part 16 and the straight-extending ends 20 extend perpendicular to the longitudinal axis 19. The free edges of the straightly extending ends 20 of the housing element 3 are provided with fixing means 23.

FIG. 3 shows a schematic perspective view of a preferred embodiment of the flexible receptacle 7 of the device according to the invention, wherein the flexible receptacle 7 comprises a substantially cylindrical shape with a slightly extending cross-section. A flexible flap 12 is connected over the substantially entire length of the wall 17 of the flexible receptacle, which flap 12 is positioned on the underside of the receptacle 7 in the position of use and extends in a lateral direction.

FIG. 4a shows a schematic representation of a configuration of an assembly of three devices according to the invention. The devices are positioned below ground level 9 and the three housing members 2 are positioned on the base surface 1. In each of the three enclosed spaces 5 there is a flexible receiving member 7. Each housing element 3 is fixed to the base surface 1 by means of fastening means 23. FIG. 4b shows this part of the first configuration of FIG. 4a in an enlarged schematic representation. The flexible flap 12 of the shown flexible receptacle 7 extends laterally on the underside of the receptacle 7, the housing element 3 being supported on the flexible flap 12.

FIG. 5 shows a schematic representation of a configuration of an assembly of five devices according to the invention. The devices are positioned below ground level 9, with three devices being positioned on the base surface 1 and two devices being positioned on those three devices. In each of the five enclosed spaces 5 there is a flexible receiving member 7. Each housing element 3 is fixed by means of fastening means 23 on the surface on which it is positioned.

FIG. Fig. 6a shows a schematic side view, Fig. 6b a schematic top view 5 and Fig. 6b a schematic front view of a preferred embodiment of the closing element 4 of a device according to the invention. The closing element 4 comprises a bottom surface 21, which has the shape of a half oval and from which a dome-shaped stepped wall 18 extends.

It will be clear to a person skilled in the art that within the scope of the scope of protection defined by the claims 10 still further variants are conceivable.

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Claims (18)

A device for receiving fluid underground, which device is positioned underground and comprising a base surface (1) and a housing member (2), which housing member (2) comprises two closing elements (4) and at least one housing element (3), which housing element (3) is provided with ribs (22) which extend along the wall thereof, and wherein the housing member (2) is positioned on the base surface (1) such that a substantially closed space (5) is formed, with characterized in that at least one flexible receiving member (7) for receiving fluid is positioned in said closed space (5), which flexible receiving member (7) is provided with connecting means (8) for connecting supply and discharge means for fluid. 2. Device as claimed in claim 1, wherein the connecting means (8) of the flexible receiving members (7) positioned in said closed space (5) are positioned substantially near one of the relevant closing elements (4). 3. Device as claimed in any of the foregoing claims, wherein one of the connecting means (8) of at least one of the flexible receiving members (7) positioned in the closed space (5) is positioned such that it is filled in a pressure-filled condition of the relevant flexible receiving member (7) essentially determines the point with the greatest vertical distance from the base surface (1). 4. Device as claimed in any of the foregoing claims, wherein the connecting means (8) are located near the base surface (1). Device as claimed in any of the foregoing claims, wherein the device is positioned at an angle with respect to the horizon. Device as claimed in any of the foregoing claims, wherein at least one of the flexible receiving members (7) positioned in said closed space (5) comprises a flexible flap (12) on which in the position of use at least a part of the respective housing member (2) supports. 1 027065 Device according to one of the preceding claims, wherein the housing member (2) contacts the base surface (1) in a non-connecting manner. Device as claimed in any of the foregoing claims, wherein the housing member (2) is fixed on the base surface (1). Device according to one of the preceding claims, wherein the housing element (3) and the flexible receptacle (7) comprise (high density) polyethylene. Device as claimed in any of the foregoing claims, wherein the flexible receiving member (7) comprises fluid and biomass. 11. Device as claimed in any of the foregoing claims, wherein the device comprises a drainage system (6) positioned below the base surface. 12. Assembly comprising two or more devices according to one of the preceding claims positioned on the same base surface (1) next to each other such that together a modular system of separate substantially sealed space (5) is formed, wherein at least one of the sealed space (5), at least one flexible receptacle (7) is positioned. 13. Assembly comprising two or more devices positioned on top of each other according to one of the preceding claims that together form a modular system of separate substantially closed spaces (5), at least in at least one of said closed spaces (5) a flexible receptacle (7) is positioned. 14. Method for receiving fluid underground comprising providing a flat bottom surface and supply and discharge means for fluid to and from the surface, and subsequently providing a housing positioned on that surface such that it defines a substantially closed space wherein at least one flexible receptacle, which is connected to said supply and discharge means, is positioned in said closed space and the subsequent application of a base layer to said housing. 15. Method as claimed in claim 14, wherein providing the substantially closed space with at least one flexible receiving member comprises first positioning the at least one flexible receiving member on the base surface and then positioning the housing on the base surface. 16. Method as claimed in claim 14, wherein providing the substantially closed space with at least one flexible receiving member comprises first positioning the housing on the base surface and then positioning the at least one flexible receiving member in the closed space. 17. Method as claimed in any of the claims 14-16, wherein for the step of applying that primer layer the step is carried out in which at least one housing is positioned on the surface such that it defines a substantially closed space in addition to the placed housing and that the housing together define a modular system of closed spaces, wherein at least one flexible receiving member (7) is positioned in at least one of said closed spaces (5). 20 A method according to any one of claims 14-17, wherein for the step of applying the primer, the step is carried out in which at least one housing is positioned on one or more of the housings placed such that it defines a substantially closed space and that the housings together define a modular system of closed spaces, wherein at least one flexible receiving member (7) is positioned in at least one of said closed spaces (102).