NL8401058A - APPARATUS FOR DEVELOPING AND GROWING PLANTS AND THE LIKE. - Google Patents

Description

NL 32,037-dV / lb J

Device for the development and cultivation of plants and the like.

The invention relates to horticulture in general and in particular to an installation for the development and cultivation of plants and the like under controlled conditions.

5 In recent years there has been a rapid development in greenhouse cultivation techniques, especially with regard to the early development of the plant. Various water culture and air culture techniques are described in the patent literature and are known in the market.

Various types of culture bench systems for use in a greenhouse have been proposed. An example of this is the Ro-Flo benching system from Rough Brothers, Inc.

This system uses moving aisles and load-bearing grow boards.

15 Furthermore, growing systems with rolling tables are manufactured by Intransit. These systems include rolling bars to provide lateral movement of the individual tables. Culture systems of such a type with built-in water supply and tubular hot water heating systems arranged in the soil are further manufactured by Bosman b.v. in Aalsmeer.

An electric bottom heating device for plant cultivation is well known and is manufactured by GeBall Pacific.

Most cash register systems, including the advanced systems mentioned above, exhibit a number of important drawbacks. These disadvantages can be summarized as follows: 1. They use a lot of energy to maintain a desired ambient temperature. This seriously limits the types of plants that can be economically grown in such systems, the seasons that such cultivation can be carried out, and the geographic locations where such cultivation can take place.

The advanced systems are particularly expensive and require a very expensive infrastructure.

3. The advanced systems are very complicated and require a continuous and expensive maintenance to be carried out by 8401058 4 "- * - 2 - specialists. They cannot be maintained by the user.

4. The advanced systems are designed and built only for large-scale application and are unsuitable for medium and small scale application due to the complex nature, cost and maintenance required.

5. The conventional systems, including the advanced systems, are not designed to limit the spread of diseases within the system.

The present invention aims to obviate the drawbacks of the known systems and to provide a plant development and cultivation device that is easy to use and is relatively simple and inexpensive.

According to the invention, the device is for this purpose characterized by a number of modular cultivation and development units for plants, each of which is provided with a housing which is formed from a thermally insulating material and has a liquid connection, a heating element 20 and a heating element 20. plant board support, by elongated connectors for coupling the plurality of modular units so as to be movable as a whole, and by means for movably supporting the modular units.

In this way an easy to use device is obtained, which is simple and inexpensive. An important feature of the device according to the invention is that relatively low operating costs occur when using it.

According to a favorable embodiment of the invention, the house is made of a foamed plastic material and the house can have a rectangular or square shape with side walls, a bottom wall and support members for supporting the planting plates. The modular unit also has a formed liquid discharge plate, which is provided with inclined surfaces, in order to obtain an almost complete discharge if desired.

According to the invention, an electric heating element can be provided for heating the plants. This heating element preferably includes an 8401058-3 strip-shaped conductor, which operates at a low voltage and provides heating within the housing independent of whether or not it is surrounded by water from the conductor. It is noted that when the conductor is in contact with water, a desired vapor environment is obtained among the plants. According to the invention, the strip-shaped guide is woven through a large grid, such as, for example, a conventional plastic grid.

According to the invention, the strip-shaped conductor can be designed in such a way that the heat transfer takes place mainly by radiation and the conductor is preferably formed from aluminum foil with a thickness of approximately 0.1 mm.

According to an embodiment of the present invention, a tent may be optionally added to any modular development unit, thereby providing a separate microenvironment for the plants growing therein. By suitable ventilation of the tent, separate environments can be established for the root parts 20 and for the top part of the plants in each modular unit.

The tent, together with the development unit, provides important economic advantages, since it makes it possible to limit the required heated environment to the volume of the tent and to keep the rest of the greenhouse at a considerably lower temperature. This considerably reduces energy costs, while the greenhouse construction can be simpler.

According to a favorable embodiment of the invention, the elongated connecting member for coupling the modular units comprises a specially designed profile, for instance an extruded aluminum profile, which not only couples the modular units, but also provides a mechanically strong outer edge for this. According to the invention the profile defines at least one bearing surface on which a trolley with wheels can be moved. Furthermore, according to the invention, the profile can also determine a bearing surface on which the coupled modular units can be moved relative to a movable or stationary support.

'84 0 1 0 5 8 f »- 4 -

Further, according to a preferred embodiment of the invention, the means for movably supporting the coupled modular units may include support brackets attached to the support device for rolling engagement with support surfaces defined within slots formed in the bottom of the houses of some of the linked units have been formed. Further slots can be formed transverse to the above slots, allowing displacement of the coupled units along an axis at an angle of 90 ° to the above direction of movement. This allows rectangular, non-square units to be coupled together for a common movement in two alternative latitudes.

The invention is explained in more detail below with reference to the drawing, in which an exemplary embodiment is shown.

Fig. 1A and 1B are top views of two greenhouse designs according to the present invention.

FIG. 2 is a sectional view of a plant cultivation and development unit according to an embodiment of the present invention.

Fig. 3 is a sectional view taken on the line III-III of FIG. 2 * 25; 4A, 4B and 4C are top, side and partial cutaway perspective views, respectively, of a housing forming part of the cultivation and development unit of FIG.

Fig. 5 is a multiple cutaway top view of the culture unit of FIG. 2.

Fig. 6 is a sectional view taken on the line VI-VI of FIG. 5.

Fig. 7 is a top plan view of the liquid discharge surface used in the culture unit of FIG.

Fig. 8 is a partially cutaway side view of a movable support for the growing unit of FIG. 2.

Fig. 9A and 9B are a side-40 view and a top view, respectively, of a movable carriage, which can interact with a single coupling profile for the modular units of FIG. 2.

Fig. 10A and 10B are side and bottom views, respectively, of a movable carriage which can interact with a pair of spaced coupling profiles for the modular units of FIG. 2.

Fig. 11 is a top plan view of the electric heating element used in the modular unit of FIG. 2.

FIG. 12 is a partial perspective view of the electrical connection of the electric heating element in the modular unit of FIG. 2.

Fig. 13 is a sectional view of the elongated coupling profile used to couple the modular units of FIG. 2.

Fig. 14A and 14B show a bottom view and an enlarged cross-section of the tent of Fig. 2, respectively.

Figures 1A and 1B show two alternative greenhouse designs. Fig. 1A shows a suitable design for use in a building with one row of central supports 10. Groups 12 of, for example, ten growing units 13 are herein movably mounted as a unit in the direction of an axis indicated by arrows 14, in order to form a movable, selectable aisle 16 between the groups 12. By changing the locations of the groups 12 of culture units 13, each culture unit is accessible from at least two sides.

30 A movable main and secondary carriage 18 resp. 19 belong to the cultivation units, which carriages are movable in the aisles 16 and in the central passage 20.

In Fig. 1B, an alternative embodiment 35 for the greenhouse is shown, in which a few rows of spaced apart supports 20 are present. Groups 24 of cultivation units 26 are herein movably arranged in the direction of an axis indicated by arrows 28 in and out of the main passage 30. In this main passage, the group 24 40 can be further transported by a suitable carriage to another location 8401058-6. which is indicated by 32. Fixed aisles 34 are provided in this embodiment.

Fig. 2 shows in cross section a cultivation unit according to a preferred embodiment of the invention. The cultivation unit of Fig. 2 comprises a stationary base 40 with legs 42 and a cross beam 44. The legs 42 are provided with conventional screw-type levelers 46. Bearing bearings 48 are mounted directly on the legs 42, which lie directly above it and movably support a housing 50 of the cultivation unit. The location of the bearing bearings 48 directly above the legs 42 is essential, since the legs thereby directly support the weight of the movable housing 50, so that the stationary base 40 can be made simpler, lighter and cheaper than the known constructions, using a rolling bar, which require transverse supports across the width of the base.

The movable housing 50 is a modular unit having a rectangular or square shape 20 as a whole and is formed from a thermally insulating material, such as foamed polystyrene. The housing 50 is molded in one piece and has side wall parts 52 of a substantially uniform cross section. The bottom 54 of the housing 50 is provided with transversely extending slots 56 and 58 which are arranged at right angles. Slots 56 engage bearing bearings 48 and are reinforced with a metal or other hard coat 60, as shown in FIG.

Fig. 3 also shows stop members 62, which are attached to the bottom 54 of the housing 50 and which cooperate with the respective legs 42, in order to move the path of movement of the housing 50 relative to the base 40 in the direction of the limit the axis indicated by pipes 64.

Slots 58 permit displacement of housing 50 in the direction of the shaft perpendicular to the shaft according to arrows 64, in that these slots engage bearing bearings, as shown in FIG. This allows rectangular, non-square units to be coupled together for a common movement in two alternative width directions.

40 In the housing 50, supports 66 are also gutters, which support a liquid discharge surface 68. The liquid discharge surface 68 includes a water supply and discharge unit 70, which communicates with a liquid connection 72, which is arranged in a side wall of the housing 50.

Above the discharge surface 68 is an electric heating unit 74, while above the heating unit 74 are placed plant culture holders 76, which may have any desired size and shape. The embodiment of the device associated with the housing 50 can be seen from Figs. 5,6, 10 and 7, which also shows that the discharge surface 68 is provided with one or more liquid supply inlets 75, which communicate with a set of inclined discharge recesses 78. , which lead to a return filter 79, which collects foreign material, so that the system does not become clogged. The outlet of the filter 79 communicates with the liquid outlet 81. The filter 79 can be designed in any suitable manner and can optionally be designed as a biological filter. It is noted that the fluid systems of the individual housings 50 may be insulated from each other, or may be grouped together as usual, since the housings are mechanically coupled together.

As a result of this absolute or relative isolation, the spread of disease or other contamination can be controlled.

A coupling member 80, which may be constructed as an extruded aluminum profile, engages a portion of the side edges of each of a number of housings 50. The coupling member 80 has various functions. First, when mounted on opposite side edges of houses 50, the coupling member 80 serves to couple a plurality of houses 50, usually ten or more, into a unit. Secondly, the coupling member provides a mechanically strong and abrasion resistant edge surface for the composite unit. Furthermore, the coupling member provides one or more bearing surfaces 82 on which trolleys or other elements can be supported and movable. Such wagons are further described below.

The overall construction of the housing 50 is shown in FIG.

4A, 4B and 4C are shown. FIGS. 4A and 4B show the embodiment 40 of the lower portion 84 of the housing, while FIGS.

8401058-8-4C shows the shape of the side wall members 52 of the housing and the offset position above the lower portion 84.

Above the housing 50 is a sealingly connected tent 90, which provides a controllable microenvironment for the top portion of the plants contained in the housing 50. Tent 90 is also tilted in FIGS. 14A and 14B. The tent 90 is formed from a plastic sheet 92 supported on a pair of curved crosspieces 94 joined together by a central coupling member 96. According to a favorable embodiment of the invention, the curved crosspieces 94 also serve as gas conduits. things connected to a source of pressurized gas, for example cooled air (not shown), via a supply line 98. In this embodiment, a number of outlets 15 99 are formed in the cross pieces 94 on the inside of the tent. In this way, the environment and temperature within the tent can be varied without removing or replacing the tent. Alternatively, the circulation of cooled air or other coolant within the controllable microenvironment can be achieved in other ways.

Figures 9A and 9B show a carriage 100 which is movably mounted on the bearing surface 82 of the elongated profiled coupling element 80.

Such a trolley can advantageously be used for collecting or distributing plants among the different units. Assembly of the carriage 100 is normally accomplished by mounting a mounting bracket 102 on the underside of the carriage. A grooved wheel 104 is rotatably mounted on the support 102, which wheel engages the surface 82, while an underside wheel 106 engages a second, cut bearing surface 108 of the coupling member 80.

Figures 10A and 10B show a trolley 110 corresponding to the trolley 100, which is movable on and supported by the bearing surfaces 82 of two adjacent spaced coupling members 80 belonging to adjacent groups of culture units.

The electric heating unit and its electrical connection are shown in Figures 11 and 12.

As can be seen from this figure, the heating unit consists of 8401058-9 - a strip-shaped conductor 112, which is manufactured from a commercially available aluminum foil with a typical thickness of 0.1 mm. The strip-shaped guide 112 is preferably woven in an insulating grid, such as, for example, a plastic grid, which is commercially available. A free end of the conductor 112 is connected via a terminal 114 to a low-voltage source via a conductor 116, normally 12V.

An important feature of the described device is that the heating unit 74 supplies heat to the culture containers 76 both by conduction and by convection, when liquid is present around the unit, and mainly by radiation, when no liquid is present, for example between irrigation cycles.

The described device can operate with sub-irrigation techniques, in which water is supplied intermittently to the roots of the plants in the culture containers 76 through openings formed therein. Between irrigation, the water is discharged as far as practically possible through the discharge surface 68. Alternatively, the device can be used based on other suitable cultivation techniques.

Fig. 13 shows a cross section of the coupling element 80, in which one of its special properties is shown. The coupling element 80 defines a convex and concave bearing surfaces 82 and 108, respectively. Furthermore, the coupling element defines stop members 120 and 122, which serve to position a coupling plate (not shown) for coupling two lengths of the element 80 in longitudinal direction.

The invention is not limited to the above-described embodiments, which can be varied in a number of ways within the scope of the invention.

8401058

Claims (32)

1. Apparatus for developing and cultivating plants and the like, characterized by a number of modular cultivation and developing units for plants, each of which is provided with a housing, which is formed from a thermally insulating material and has a liquid connection, of a heating member and of a plant board support, by an elongated connector for coupling a plurality of modular units so that they can be moved as a whole, and by means for movably supporting the modular unit. 2. Device according to claim 1, characterized in that the housing is formed from a foamed plastic material of rectangular shape with side walls, a bottom wall and support members for supporting plant plates. 3. Device according to claim 1 or 2, characterized in that each of the modular units is provided with a cast liquid discharge plate, which is provided with inclined surfaces, so that a virtually complete discharge is possible if desired. Device according to any one of the preceding claims, characterized in that the heating element comprises an electric heating element, which provides a bottom heating for the plants placed above it. 4 · * - 10 - 5. Device according to claim 4, characterized in that the electric heating element consists of a strip-shaped conductor which operates at a low voltage and which provides a bottom heating, irrespective of whether the conductor is surrounded by water or not. Device according to claim 5, characterized in that the strip-shaped guide is woven through a supporting, insulating grid. 7. Device according to any one of the preceding claims, characterized in that each modular unit is provided with a tent, which provides a separated micro-environment for the plants growing therein. 8401058 - 11 - The device of claim 7, characterized by means for establishing a selected gas environment in said microenvironment. 9. Device according to claim 8, characterized in that said means can supply cooled gas for cooling the microenvironment. Device according to claim 8, characterized in that said means comprise a gas pipe, which also forms a support for the tent. 11. Device as claimed in any of the foregoing claims, characterized in that the elongated connecting member consists of a profile, which couples the modular units to each other and forms a mechanically strong outer edge for this. 12. Device as claimed in claim 11, characterized in that the profile defines at least one load-bearing surface on which a wheeled trolley can be moved. 13. Device as claimed in claim 12, characterized in that the profile also defines a bearing surface on which the coupled modular units can be moved relative to a stationary or movable carrier. 14. Device as claimed in any of the foregoing claims, characterized in that the means for movably supporting the coupled modular units comprise supporting supports, which are attached to the carrier for rolling engagement on supporting surfaces, which are defined within slots, which are formed in the bottom of the housing 30 of the unit of some of the coupled units. 15. Device as claimed in any of the foregoing claims, characterized in that the modular units are provided at the bottom with a first and second pair of slots, which are arranged perpendicular to each other, so that displacement is possible along mutually perpendicular axes. 16. Device as claimed in claim 3, characterized in that the cast liquid discharge plate also defines a flat bearing surface. 8401058 'i v - 12 - 17. Plant and cultivation unit or the like, characterized by a housing formed of a thermally insulating material and defining a liquid connection, by a heating member 5 and by a plant support. Unit according to claim 17, characterized in that the housing is formed from a foamed plastic material with a rectangular shape, side walls, a bottom wall and support members for supporting plants. Unit according to claims 17 and 18, characterized by a cast liquid discharge plate, which is provided with inclined surfaces, so that, if desired, an almost complete discharge is possible. 20. Unit according to claim 19, characterized in that the liquid discharge plate is provided with at least one liquid inlet, which is located at the top of the inclined surfaces, and at least one liquid outlet, which is located at the lowest point of the inclined surfaces. located. Unit according to claim 20, characterized by a filter communicating with the or each liquid outlet. 22. Unit according to any one of claims 17-21, characterized in that the heating element consists of an electric heating element, which provides a bottom heating for the plants placed above it. 23. Unit according to claim 22, characterized in that the electric heating element consists of a strip-shaped conductor operating at a low voltage and providing bottom heating, regardless of whether or not the conductor is surrounded by water. Unit according to claim 23, characterized in that the strip-shaped conductor is woven through a supporting, insulating grid. Unit according to any one of claims 17-24, characterized in that each modular unit also comprises a tent, which provides a separate microenvironment for the plants growing therein. 26. Unit according to claim 25, characterized 40 by means for realizing a selected gas environment in the microenvironment. Unit according to claim 26, characterized in that said means provide a cooled gas for cooling the microenvironment. 28. Unit according to claim 26, characterized in that said means consist of a gas pipe which forms a support for the tent. 29. Unit according to any one of claims 17-28, characterized in that the housing is provided at the bottom with a first and second pair of slots, which are arranged perpendicular to each other, so that the houses can be moved along mutually perpendicular axes. . 30. Liquid discharge plate for use in an apparatus according to any one of the preceding claims, characterized by inclined surfaces, so that a virtually complete discharge is possible if desired. 31. Liquid discharge plate according to claim 30, characterized in that the discharge plate is provided with at least one liquid inlet, which is located on the top side of the inclined surfaces, and with at least one liquid outlet, which is located in the lowest point of the inclined surfaces. . 32. A fluid drain plate according to claim 30, characterized by a filter communicating with the or each fluid outlet. 8401058