NL2010290C2 - FARMING FLOOR SYSTEM WITH EB / FLOOD WATER INSTALLATION. - Google Patents

Description

FARMING FLOOR SYSTEM WITH EB / FLOOD WATER INSTALLATION

The invention relates to a cultivation floor system comprising a cultivation floor with a watertight basin and a cultivation floor on which plant holders are placed. The cultivation floor system further comprises an ebb / flow water installation which is adapted to effect an alternate supply of water to the cultivation floor and drainage of water from the cultivation floor. In practical applications, the water level is regularly raised to a highest water level above the floor.

The cultivation floor can be a watertight, for example concrete floor, flooded when there is a flood, so that the lower part of the plant holders are in the water. At low tide the water is drained away so that the floor becomes dry.

In another known embodiment which is also considered to be advantageous in the present invention, the cultivation floor has a water-permeable substructure and the top of the floor is also permeable, for example with a permeable top cloth and with one or more layers of granular material below, such as for example lava rock. In addition, the one or more irrigation pipes are usually located in or underneath the one or more layers of granular material, so that the water distributed over the basin rises uniformly in the permeable structure and falls during the flood and ebb cycle.

Known cultivation floor systems, for example in a greenhouse, often comprise a large number of basins, wherein the ebb / flow cycle can be set separately for each basin. In known systems, a water installation is provided with one or more irrigation pipes in the basin and with a pump for supplying water to the one or more irrigation pipes. Furthermore, a water storage facility is provided, for example a storage pond or an underground water storage facility. The pump draws water from the water storage and supplies it to the basin via the irrigation pipes. After the water level has been kept at the desired higher level for a sufficient time, the water is drained off again via a drain pipe to the water storage. In order to control these flows, in known systems two valves are provided per basin, namely a supply valve to the irrigation pipes and a discharge valve to the discharge pipe. Those valves are generally operated electrically and / or pneumatically.

With such a cultivation floor, correct functioning of the ebb / flood water installation is of the utmost importance, because otherwise the cultivation of the plants can lead to significant damage. The valves are a relevant source of malfunctions. That is why it is required to have completely new valves and / or parts of those valves in stock at the grower and / or to be able to deliver parts through urgent deliveries. This increases costs.

The invention has for its object to provide a cultivation system with an improved valve assembly, in particular with regard to sensitivity to malfunctions, ease of repair, and costs.

The invention achieves one or more of the aforementioned objectives with a cultivation system according to claim 1. A combined supply and discharge valve is provided, which valve comprises: a housing; - a main cylinder in the housing, which main cylinder has a vertical axis; - a pump inlet in connection with the main cylinder, which pump inlet is connected to the water pump, - an irrigation pipe connection in the housing, which is connected to the main cylinder and to which the one or more irrigation pipes are connected; wherein a valve piston is provided in the main cylinder, movable along the vertical axis, wherein the housing is provided with a seat at a lower end of the main cylinder, wherein an outlet connection is provided in the housing to which the discharge line is connected, the outlet connection being provided in a lower part of the housing, on the side of the seat remote from the main cylinder, the piston being vertically movable between a lower closed position in which the piston engages the seat and closes the outlet of the main cylinder, and a raised one open position in which the piston is raised above the seat so that the outlet is in communication with the main cylinder, the piston being provided with a reservoir in which water can be temporarily accumulated, which piston has a spout so that water can slowly drain out of the reservoir at least when the piston is in its closed position, the piston having a reservoir inlet zodani g that when water is supplied to the water inlet of the valve fills the reservoir in the piston with water, the additional weight of the water in the reservoir being sufficient to hold the piston in its closed position, and wherein the piston and / or the main cylinder is designed so that water can pass from the pump inlet to the irrigation pipe connection when the piston is in the closed position.

As will be further apparent from the following description with reference to the drawing, this valve works completely mechanically and the valve can be realized in such a way that the cost price is low. The valve can also be realized in such a way that it is easy to clean / repair, with few demands placed on the skills of the repairman.

In an advantageous embodiment, a reset mechanism is provided which forces the piston to its open position when the water volume in the reservoir of the piston has fallen below a certain amount. As a result, the valve opens reliably and the valve remains open until water is supplied again with the pump.

In an advantageous embodiment, the outlet of the piston opens at the outlet connection when the piston is in its closed position. This ensures reliable operation of the outlet.

In a possible embodiment, the piston has an adjustable spout so that the rate of emptying of the reservoir in the piston is adjustable. As a result, the duration of the high water level in the basin can be adjusted and, for example, adjusted to the specific cultivation or growing regime. Mechanical adjusting means are preferably provided, for example a manually adjustable spout valve.

In a practical embodiment, a removable cover is provided at the top of the housing so that the piston is removable from the master cylinder, for example for cleaning and / or repair.

In a practical embodiment, the reservoir inlet is located at the top of the piston and the pump inlet flows out above the reservoir inlet. This makes it easy to ensure that the reservoir is filled when the water supply is started via the pump inlet, so that the closed position of the piston is also realized.

In a practical embodiment the piston has a smaller diameter than the main cylinder, so that an annular passage for water is present through which water can flow from the pump inlet to the irrigation pipe connection. The diameter can deviate significantly, so that, for example, a gap of more than one centimeter is present between piston and main cylinder, so that no undesired clamping can occur.

In a practical, inexpensive and easy to maintain / repair embodiment, it is provided that the housing comprises a plastic pipe section, preferably of PCV, which forms the main cylinder. Preferably, the piston also comprises a plastic pipe section, preferably of PVC, which pipe section forms the reservoir of the piston. Other parts of the valve can also be made of plastic, for example the lower part of the housing is designed as a T-piece, preferably from PVC.

In a practical embodiment, the cultivation floor system comprises several basins, with a combined supply and discharge valve being provided at each basin.

The invention also relates to a method for operating a cultivation floor system according to the invention.

For supplying water to the cultivation floor, water is thereby supplied through the pump to the pump inlet of the combined supply and discharge valve, whereby the reservoir in the piston is filled and the piston is pressed onto the seat in its closed position. The water supplied by the pump then flows through the irrigation pipe connection and the one or more irrigation pipes flows into the basin so that the water level rises therein.

This supply is stopped when the water in the basin has reached a desired water level. Meanwhile - via the outlet - water flows from the reservoir into the piston, but the valve remains closed as long as the amount of water in the reservoir of the piston is sufficient to keep the valve in its closed position. When the amount of water in the reservoir of the piston has fallen below a certain amount, the valve opens so that the water flows out of the basin to the water storage via the one or more irrigation pipes, the irrigation pipe connection, and the outlet connection.

The invention provides that the duration of the piston being in its closed position is adjusted by adjusting the outlet of the piston.

In an alternative embodiment of the combined supply and discharge valve, it is provided that the valve comprises: - a housing; - a main cylinder in the housing, which main cylinder has an axis, optionally a horizontal axis; - a pump inlet in connection with the main cylinder, which pump inlet is connected to the pump, - an irrigation pipe connection in the housing, which is connected to the main cylinder and to which the one or more irrigation pipes are connected; wherein a valve piston is provided in the main cylinder, movable along the axis, wherein the housing is provided with a seat at one end of the main cylinder, wherein an outlet connection is provided in the housing to which the discharge line is connected, the outlet connection being provided in an end part of the housing, on the side of the seat remote from the main cylinder, the piston being movable to and fro between a closed position in which the piston engages the seat and closes the outlet connection of the main cylinder, and an open position in which the the piston is away from the seat so that the outlet connection is in communication with the main cylinder, the piston being such that when water is supplied to the water inlet of the valve, the piston is subjected to the back pressure of the water, so that the piston in its closed position is brought and held by the thrust, and wherein the piston and / or the master cylinder are designed such that water r can pass from the pump inlet to the irrigation pipe connection when the piston is in the closed position.

The invention also relates to a combined supply and discharge valve intended for use in a cultivation floor system as described herein.

The invention will be explained in more detail below with reference to the drawing. Fig. 1 shows a diagram of a cultivation floor system according to the invention, - Fig. 2 shows a vertical section of an exemplary embodiment of the combined water supply and discharge valve according to the invention, - Fig. 3 schematically shows a cultivation floor with water installation provided with the valve of figure 2, - figure 4 a vertical section of a variant of the combined water supply and discharge valve.

Figures 1 and 3 schematically show a cultivation floor system according to the invention.

The system comprises a cultivation floor 1 with a watertight basin 2, here with a water-permeable structure 3 and a water-permeable top layer or top cloth 4 that forms the actual floor. The structure 3 comprises one or more layers of granular material, but can also (or in combination therewith) comprise one or more water-permeable mats.

Plants or the like to be grown on the floor 1 are placed in plant holders 6, for example in holders that are partially open at the bottom and / or have a water-permeable design.

Plastic pots, for example provided with holes at the bottom, are used as plant holders, but other plant holders are also known. For example, the pot is of porous and / or biological material, such as coconut, or no pot is present and the plant container is, for example, a block of growth substrate, for example of rock wool or the like.

The floor is preferably sufficiently stable to drive over it with a vehicle.

The cultivation floor system further comprises an ebb / flow water installation which is adapted to effect an alternate supply of water to the cultivation floor 1 and drainage of water from the cultivation floor, preferably with a highest water level above the topsheet 4.

The water installation comprises: - one or more irrigation pipes 10, 11 in the basin 2; - a pump 12 for supplying water to the one or more irrigation pipes 10, 11; - a discharge line 13; - a water storage 14, wherein the pump 12 draws water from the water storage and the drain pipe returns water to the water storage.

Furthermore, a valve assembly is provided with a combined supply and discharge valve 20, which will be explained in more detail with reference to Figures 2 and 3.

The valve 20 comprises: a housing 21; - a main cylinder 22 in the housing 21, which main cylinder has a vertical axis; - a pump inlet 23 in connection with the main cylinder 22, which pump inlet is connected to the water pump 12, - an irrigation pipe connection 24 in the housing, which is connected to the main cylinder 22 and to which the one or more irrigation pipes 10 are connected.

Provided in the main cylinder 22 is a valve piston 25 which is movable up and down along the vertical axis. The housing 21 is provided with a seat 26 at a lower end of the main cylinder 22. The piston 25 can cooperate with that seat 26.

The housing is further provided with an outlet connection 27, to which the discharge line 13 is connected. The outlet connection 27 is provided in a lower part of the housing 21, below the seat 26, the main cylinder 22 being above that seat 26.

The piston 25 is vertically movable between a lower closed position (see Figure 2) in which the piston 25 engages the seat 26 and closes the outlet connection 27 of the main cylinder 22, and an upwardly opened position in which the piston is raised above the seat so that the outlet 27 is in communication with the main cylinder 22.

The piston 25 is provided with a reservoir 28 in which water can be temporarily accumulated. The piston is provided with an outlet 29 so that that water can slowly drain out of the reservoir at least when the piston 25 is in its closed position.

The outlet 29 can, as shown here, be an open, valve-less channel. But the outlet could also be provided with a valve, for example a valve that opens above a certain water level in the reservoir.

The outlet 29 can be provided in the bottom of the piston, as shown here, such that the outlet 29 comes directly to the outlet 27.

In a variant, the outlet is provided in the piston, such that the outlet is connected to the connection for the irrigation line, for example in the side wall of the piston. The reservoir 28 thus drains until the level therein is equal to the water level at the cultivation floor.

This can be dimensioned such that the weight of the water in the reservoir is then insufficient to hold the piston in its closed position, so that the valve 20 then opens. For example under the influence of resetting means.

In that variant it can be provided that a second outlet runs from a lower point of the reservoir and opens out at the seat 26, such that the outlet is closed as long as the piston is in its closed position. If the valve then opens, the reservoir 28 will then completely drain.

This is possible via a very small spout.

The piston 25 has a reservoir inlet 28a such that when water is supplied to the pump inlet 23 of the valve 20, the reservoir in the piston fills with water (see Fig. 2), the additional weight of the water in the reservoir 28 being sufficient to keep the piston in its closed position.

The piston 25 and the main cylinder 22 are designed so that water can pass from the pump inlet to the irrigation pipe connection 24 when the piston 25 is in the closed position.

A resetting mechanism 30, here with one or more springs, is provided which forces the piston 25 to its open position when the water volume in the reservoir 28 of the piston has fallen below a certain amount, for example when the reservoir has almost completely emptied. In a variant of the reset mechanism, for example, a counterweight is provided (via a cable or lever or the like), or a float.

Figure 2 shows that the outlet of the piston 25 is provided in the bottom of the reservoir and opens at the outlet connection 27 of the valve 20 when the piston is in its closed position. The reservoir can then always drain reliably.

If desired, an adjustable outlet of the piston reservoir 28 can be provided so that the rate of emptying of the reservoir into the piston can be adjusted, and thus the time that the valve 20 remains closed and the high water level in the basin is maintained.

Figure 2 shows that a removable cover 31 is provided on the top of the housing 21 so that the piston 25 can be removed from the main cylinder, for example for cleaning.

Figure 2 shows that the reservoir inlet 28a is at the top of the piston, and the pump inlet 21 opens above the reservoir inlet 28a. This immediately fills that reservoir and the valve closes reliably as soon as water is sent to the basin. In a variant, the reservoir inlet 28a protrudes into the reservoir, for example in such a way that also the thrust pressure of the supplied water, which thrust pressure acts on the piston 25, serves to close the valve.

The piston 25 has a smaller outside diameter than the inside diameter of the main cylinder 22, so that an annular passage 32 for water is present through which water can flow from the pump inlet to the irrigation pipe connection when the valve is closed. This solution is very simple and prevents clamping of the piston in the cylinder.

In a simple embodiment, the housing comprises a plastic pipe section, preferably of PCV, which forms the main cylinder 22.

In a simple embodiment, the piston 25 comprises a plastic pipe section, preferably of PVC, which forms the reservoir 28 of the piston.

In a simple embodiment, the lower part of the valve 20 is designed as a T-piece made of plastic, for example a T-piece for PVC pipes, one sleeve receiving the pipe piece that forms the main cylinder, the other sleeve forming the irrigation pipe connection, and a third socket forms the outlet connection. A sealing ring of the T-piece may optionally serve as seat 26 of the valve.

In a system, for example a greenhouse, with a plurality of separately operable basins 2, a combined supply and discharge valve 20 is preferably provided at each basin.

For supplying water to the cultivation floor 1, water is supplied by means of the pump 12 to the pump inlet 21 of the combined supply and discharge valve 20, whereby the reservoir 28 in the piston 25 is filled and the piston 25 in its closed position on the seat 26 is printed. As a result, the supplied water flows via the passage 32 in the housing 20 to the irrigation pipe connection 24 and to the one or more irrigation pipes 10, 11 to then flow into the basin 1. This supply is stopped when the water in the basin has reached a desired water level. Instead of, or in addition to, the passage 32 may also be provided with a bypass channel in the housing.

The floor can be flooded by the supplied water so that the plant holders are in the water with a lower part. But it is also conceivable that the water level does not rise above the floor, for example when the water supply is used to wet / keep the permeable structure itself and / or to cool the floor with the water.

The water then flows from the reservoir 28 via the outlet 29 but the valve 20 remains closed as long as the amount of water in the reservoir 28 of the piston 25 is sufficient to hold the valve in its closed position.

The piston 25 of the valve 20 moves to its open position when the amount of water in the reservoir 28 of the piston falls below a certain amount, so that the water via the one or more irrigation pipes 10, 11, the irrigation pipe connection 24, and the outlet port 27 flows from the basin to the water storage.

Figure 4 shows a vertical section of a variant of the combined water supply and discharge valve 40, which operates on the back pressure of the water supplied by the pump and which can be arranged in a horizontal position if desired.

This valve 40 comprises: a housing 41; - a main cylinder 42 in the housing, which main cylinder has an axis, optionally a horizontal axis; - a pump inlet 43 in connection with the main cylinder, which pump inlet is connected to the pump 12, - an irrigation pipe connection 44 in the housing, which is connected to the main cylinder 42 and to which the one or more irrigation pipes 10, 11 are connected; wherein a valve piston 45 is provided in the main cylinder 42 movable along the axis, the housing being provided with a seat 46 at one end of the main cylinder 42, an outlet connection 47 being provided in the housing to which the discharge line 13 is connected, the outlet connection 47 is provided in an end part of the housing on the side of the seat 46 remote from the main cylinder, the piston 45 being movable to and fro between a closed position in which the piston 45 engages the seat 46 and the outlet connection 47 shut off of the master cylinder 42, and an open position in which the piston 45 is away from the seat 46 so that the outlet connection 47 is in communication with the master cylinder 42, the piston 45 being such that when water is supplied to the water inlet of the valve 40 the piston 45 is subjected to the back pressure of the water, so that the piston 45 is brought into its closed position and held by the back pressure, and wherein the piston 45 and / or the main cylinder 42 are designed so that water can pass from the pump inlet 43 to the irrigation pipe connection 44 when the piston 45 is in the closed position.

The resetting means, in this case springs 50, cause the valve to be reliably opened when the water supply is stopped and the back pressure drops.

Claims (13)

A cultivation floor system comprising a cultivation floor (1) with a watertight basin (2) and a floor on which plant holders (6) are placed, which cultivation floor system further comprises an ebb / flood water installation which is arranged for effecting an alternate supply of water to the cultivation floor and drainage of water from the cultivation floor, wherein the water installation comprises: - one or more irrigation pipes (10, 11) in the basin (2); - a pump (12) for supplying water to the one or more irrigation pipes; - a discharge line (13); - a water store (14), wherein the pump draws water from the water store and the drain line returns water to the water store, - a valve assembly; characterized in that the valve assembly comprises a combined supply and discharge valve (20), which valve comprises: - a housing (21); - a main cylinder (22) in the housing, which main cylinder has a substantially vertical axis; - a pump inlet (23) in connection with the main cylinder, which pump inlet is connected to the pump (12), - an irrigation pipe connection (24) in the housing, which is connected to the main cylinder (22) and on which the one or more irrigation pipes (10.11) are connected; wherein a valve piston (25) is provided in the master cylinder (22) movable along the vertical axis, the housing being provided with a seat (26) at a lower end of the master cylinder (22), wherein an outlet connection (27) is provided in the housing to which the discharge line (13) is connected, the outlet connection (27) being provided in a lower part of the housing, on the side of the seat (26) remote from the main cylinder, the piston (25) is vertically movable between a lower closed position in which the piston (25) engages the seat (26) and closes the outlet connection (24) of the main cylinder (22), and an upwardly opened position in which the piston (25) above the seat (26) is raised so that the outlet connection (27) is in communication with the main cylinder (22), the piston (25) being provided with a reservoir (28) into which water can be temporarily accumulated, which piston has a spout (29) so that water slowly from the reservoir ir (28) can drain away at least when the piston (25) is in its closed position, the piston having a reservoir inlet (28a) such that when water is supplied to the water inlet of the valve (20) the reservoir (28) of the piston (25) fills with water, the additional weight of the water in the reservoir (28) being sufficient to hold the piston (25) in its closed position, and wherein the piston (25) and / or the master cylinder ( 22) are designed so that water can pass from the pump inlet (23) to the irrigation pipe connection (24) when the piston (25) is in the closed position. Cultivation floor system according to claim 1, wherein a reset mechanism (30) is provided that forces the piston (25) to its open position when the water volume in the piston's reservoir has fallen below a certain amount. Cultivation floor system according to claim 1 or 2, wherein the outlet (29) of the piston ends at the irrigation pipe connection and / or at the outlet connection (27) when the piston (25) is in its closed position. 4. Cultivation floor system as claimed in one or more of the foregoing claims, wherein the piston has an adjustable spout so that the rate of emptying of the reservoir in the piston is adjustable. 5. Cultivation floor system according to one or more of the preceding claims, wherein a removable cover (31) is provided on the top of the housing so that the piston can be removed from the main cylinder (22), for example for cleaning. Cultivation floor system according to one or more of the preceding claims, wherein the reservoir inlet (28a) is located on the top of the piston (25), and the pump inlet flows out above the reservoir inlet. Cultivation floor system according to one or more of the preceding claims, in which the piston (25) has a smaller diameter than the main cylinder (22), so that an annular passage (32) for water is present through which water can flow from the pump inlet to the irrigation pipe connection . Cultivation floor system according to one or more of the preceding claims, wherein the housing comprises a plastic pipe section, preferably of PCV, which forms the main cylinder (22), and wherein, preferably, the piston comprises a plastic pipe section, preferably of PVC, which constitutes the piston reservoir (28). Cultivation floor system according to one or more of the preceding claims, comprising a plurality of basins, wherein one or more combined supply and discharge valves (20) are provided at each basin (2). Method for operating a cultivation floor system according to one or more of the preceding claims, wherein for supplying water to the cultivation floor (1) water is supplied via the pump (12) to the pump inlet (23) of the combined supply and drain valve (20) through which the reservoir (28) is filled in the piston and the piston (25) is pressed in its closed position on the seat (26), so that the water supplied via the irrigation pipe connection (24) and the one or more irrigation lines (10, 11) flows into the basin (2), which supply is stopped when the water in the basin (2) has reached a desired water level, water flowing from the reservoir (28) of the piston (25) via the outlet (29) but the valve remains closed as long as the amount of water in the reservoir (28) of the piston is sufficient to hold the valve in its closed position, and the valve moves to its open position as the amount of water in the reservoir (28) of the piston bene a certain amount has fallen so that the water flows out of the basin (2) via the one or more irrigation pipes (10, 11), the irrigation pipe connection (24), and the outlet connection (27). The method of claim 10, wherein the duration of the piston being in its closed position is adjusted by adjusting the outlet (29) of the reservoir (28) of the piston. A cultivation floor system comprising a cultivation floor (1) with a watertight basin (2) and a floor on which plant holders (6) are placed, which cultivation floor system further comprises an ebb / flood water installation which is adapted to effect an alternate supply of water to the cultivation floor and drainage of water from the cultivation floor, wherein the water installation comprises: - one or more irrigation pipes (10, 11) in the basin (2); - a pump (12) for supplying water to the one or more irrigation pipes; - a discharge line (13); - a water store (14), wherein the pump draws water from the water store and the drain line returns water to the water store, - a valve assembly; characterized in that the valve comprises: - a housing (41); - a main cylinder (42) in the housing, which main cylinder has an axis, optionally a horizontal axis; - a pump inlet (43) in connection with the main cylinder, which pump inlet is connected to the pump (12), - an irrigation pipe connection (44) in the housing, which is connected to the main cylinder (22) and on which the one or more irrigation pipes (10.11) are connected; wherein a valve piston (45) is provided in the main cylinder (22) movable along the axis, the housing being provided with a seat (46) at one end of the main cylinder (22), an outlet connection (44) being provided in the housing to which the discharge line (13) is connected, the outlet connection (44) being provided in an end part of the housing, on the side of the seat (46) remote from the main cylinder, the piston (45) reciprocating is movable between a closed position in which the piston (45) engages the seat (46) and closes the outlet connection (44) from the main cylinder (42), and an open position in which the piston (45) moves away from the seat (46) is such that the outlet connection (44) is in communication with the master cylinder (42), the piston (45) being such that when water is supplied to the water inlet of the valve (40) the piston (45) is subjected to the back pressure of the water, so that the piston (25) is brought into its closed position e n held by the thrust, and wherein the piston (25) and / or the master cylinder (22) are designed so that water can pass from the pump inlet (23) to the irrigation pipe connection (24) when the piston (25) is in the closed position is located. A combined supply and discharge valve (20) intended for use in a cultivation floor system according to one or more of the preceding claims.