NL8101765A - Hothouse for plants in trays - transports trays from starting to final station during growth - Google Patents

Abstract

The hothouse for growing plants has a conventional translucent roof, the plants being accommodated in loose trays, while devices for regulation of climate and humidity are included. It has means for transporting the trays (8) while growth is taking place between a starting station (6) and a final one (9), harvesting or other processing of the plants taking place in the latter station. The hothouse itself is of a height such that the roof is only slightly above the trays. There can be rails (2) running between the stations and on which the trays travel, typically sloping so that they do so under gravity to the final station.

Description

t 4 "VO 1787

Title: Greenhouse for growing crops.

The invention relates to a greenhouse for growing crops with a usually translucent roof and arranged for growing crops in movable containers or the like, provided with means for controlling the climate and the humidity in the greenhouse.

Such greenhouses are generally known. Known greenhouses are generally of such height that staff can stand in them.

This is necessary because the crops grown in such a greenhouse are located there in a certain place and must be accessible by personnel at least during harvesting. When planting crops directly into the bottom of the greenhouse, personnel will have to bend over or kneel during planting and later harvesting. This can lead to back problems and makes the work unattractive. This problem has already been solved in some greenhouses because the crops are planted in loose containers or the like, which are placed on tables or other shaped elevations. It is then no longer necessary to bend or kneel for planting and harvesting. The problem with all greenhouses with standing height is that the energy consumption for controlling the temperature and climate in the greenhouse is high. With increasing fuel prices, this large energy consumption will increasingly influence the cost price of the crops grown. In addition, the construction of the conventional modern greenhouse is such that a number of specialists are required during construction. Construction is also expensive.

The object of the invention is to provide a greenhouse in which the drawbacks associated with the known greenhouses do not occur, or at least to a much lesser extent. This object is achieved with a greenhouse which is provided with means for transporting the trays from a starting station to a terminal during cultivation, in which terminal the harvesting or other processing of the crops can take place, while the greenhouse 30 has such a height that the roof is located at a relatively small distance above the bins.

The greenhouse according to the invention has broken with the conventional use that the grower goes to the plants. On the contrary, the plants come to the grower. When using the greenhouse according to the invention 81 01 765

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The crops are planted at one end of the greenhouse, the station, in containers or the like, or are already supplied there in containers. From this station, the trays with crops are gradually transported through the greenhouse to the other end, where the terminal is located or which may or may not be at some distance next to the terminal. The greenhouse according to the invention is provided with usual means for controlling the climate in the greenhouse. These means include, for example, irrigation systems, collection plants, refrigeration systems, air fresheners and the like. The transport takes place gradually through the greenhouse such that the crops arrive at the end station approximately at the time they have to be processed. This processing can be harvesting, but depending on the nature of the crop, it can also be repotting, cleaning, packaging, shipping or any other processing.

According to the invention, the greenhouse is such that in use the personnel only have to handle the crops at the starting station and at the end station. In between, ie in the greenhouse itself, during the gradual transport of the crops, no human presence is required, so that the greenhouse can be constructed very low. For example, a simple arched roof of an existing greenhouse can already be used as the roof of the greenhouse according to the invention, which arched roof is then placed directly on the suitably adapted bottom. Side walls, as well as front and rear walls can then be omitted.

Because in the greenhouse according to the invention the space in which the crop develops is much smaller than in the conventional greenhouse with standing height, the amount of energy required for cooling or heating is to be dried or moisture and / or carbon dioxide, also considerably less than in a conventional greenhouse.

The end station, where the handling of the crops takes place, can be designed as a suitably arranged work space, which for instance adjoins the greenhouse according to the invention, in this work space an optimal working climate can be created. The containers with crops supplied from the greenhouse according to the invention can, for example, be introduced into the working space at such a height that the handling of the crops can take place while standing or, at lower infeed, while sitting.

8101765 -3-

In a preferred embodiment of the greenhouse according to the invention, a rail system is arranged on the bottom of the greenhouse between the starting station and the end station, over which rail system bogies or carts can be moved, on which bogies or carts the bins can be washed with the crops to be grown. the transport means being adapted to gradually move the trolleys or carts from the initial station to the terminal station during cultivation.

The construction of this preferred embodiment of the greenhouse according to the invention takes place very simply because, for example, on a suitable site, which has been leveled to the extent necessary, a starting station and an end station are selected at a suitable distance from each other. Rails are laid on the bottom between the start and end stations. The canopy, for example an arched roof of a known conventional greenhouse, is placed over the rails. The greenhouse according to the invention is thus formed as a kind of tunnel with a translucent roof between the start station and the end station. It is of course possible to build a number of such tunnels parallel to each other between the same starting station and the same terminal, also processing space. Before the hood is fitted, of course, the necessary pipes and equipment that are necessary for the air-conditioning in the greenhouse can still be set up.

The same or different crops can be grown in parallel greenhouses. In a greenhouse, the climatic conditions are generally kept the same throughout the greenhouse. For certain crops it may therefore be necessary to spread the cultivation over two or more phases in different greenhouses.

In the embodiment of the greenhouse according to the invention with rail system, the greenhouse is preferably arranged on a sloping bottom, which slopes from the start station to the end station, such that trolleys or carts placed on the rails under the influence of gravity over the rails can move. A slope of 1/2% is already very suitable. In a greenhouse on sloping ground, it is not necessary to use a motor or the like to wash the boxes with propellers for propelling the trucks. The trolleys or carts already move "automatically" by the influence of gravity. Only a suitable braking mechanism need be provided to be able to slow down the movement and stop it if desired.

8101765 -4-

Of course, a rail system is not a necessity. With sloping greenhouse floors, one can also use bogies on smoothly running wheels. If the soil can be given a sufficiently low roughness, such bogies can already be moved by the action of gravity.

The transport of bins in a greenhouse according to the invention can optionally also take place along a water track with a horizontal bottom. Other modes of transport can be devised by an expert.

In a very suitable system with a number of greenhouses according to the invention, the greenhouses are arranged such that the starting point of a part of the number of greenhouses is the terminal for another part of the number of greenhouses and vice versa. In such a system, cultivation can be very eco-friendly

In the greenhouse according to the invention, the transport can take place continuously or discontinuously. For example, one can proceed according to a "push-on method" 15. Each time in the terminal, the processing area, a number of bins are placed on a trolley, the trolley and containers are removed and the whole row is moved from the starting station to the terminal one place A trolley with bins is then placed at the station The residence of the bins with crops in the greenhouse according to the invention naturally depends on the nature of the crop to be grown, but will be measured in weeks rather than in days.

With such a relatively long residence, discontinuous transport will be more common than continuous.

Continuous cultivation is possible in the greenhouse according to the invention.

For example, by adding a number of containers with new plantings every day and harvesting mature plants at the terminal, the grower can provide a daily yield of mature crops.

This can be planned in advance so that a sales program can be based on this method of continuous cultivation. The invention is elucidated with reference to the drawing, in which: fig. 1 is a side view and partly in section of an embodiment of the greenhouse according to the invention with a start station and an end station; Fig. 2 is a cross-sectional view through an embodiment of the greenhouse according to the invention? and 81017 6 * -5- Fig. 3 is a schematic representation of a system of greenhouses according to the invention.

Fig. 1 shows a side view of an embodiment of the greenhouse according to the invention. In this embodiment, the greenhouse is arranged inclined. In order to be able to set up the greenhouse in an inclined manner, an already sloping terrain is chosen for building the greenhouse or a slope is created on an existing flat terrain / for instance by leveling under an elevation. When a suitable slope 1 has been selected or formed, rails 2 are laid thereon such that a track runs from the high side of the slope to the low side of the slope. The low greenhouse 3 with side panels 4 and hood 5 is placed over such a track. Side panels 4 and hood 5 can form one unit, for example if an arched roof construction placed on the surface of the slope 1 is used. It is also possible that the side panels 4 are separated from the hood 5, in which case the hood 5 can be built up of roof plates hinged about their top line, or the greenhouse can consist of an aluminum frame on which the side panels 4 and the hood 5 forming plates are laid.

Such constructions make it possible to reach the interior of the greenhouse, for example in an emergency. Side panels 4 and hood parts 5 can each be made of translucent material, for example glass. However, this is not a necessity for the side panels 4. The height of the side panels is, for example, 50 cm and the height of the whole greenhouse 3 is, for example, 60 cm. The greenhouse is therefore significantly lower than conventional standing height greenhouses.

In the embodiment shown in Fig. 1, on the high side of the slope 1, adjacent to the greenhouse 3, there is a place, which can be called starting station 6. In practice, bays 7 are placed on rails 2 at this location 6, up to where rails 2 run. Bins 8 with crops to be grown are placed on a trolley 7. The trolleys 730 can move downwards under the influence of gravity along the slope 1 over the rails 2 through the greenhouse 3. Suitable braking mechanisms, for instance arranged along the rails 2 or on the bogies 7 themselves, ensure that the movement of the bogies 7 along the slope is completely controllable. For example, the movement of a trolley 7 through the greenhouse 3 is controlled such that the trolley 7 remains in the greenhouse 3 during the growth period of the crop in the bins 8 on the trolley 7, while 8101765 -js * -6- the time the crop is ready for harvesting, the trolley 7 has just reached the end of the greenhouse 3 at the bottom of the slope 1. At that location, the greenhouse 3 in the shown embodiment connects to the processing space 9, which may for instance take the form of a production hall in the walls 5, of which openings are located at each location where a greenhouse 3 is adjacent to the production hall. The rails 2 continue into the operating hall 9, while the operating hall 9 is constructed such that a trolley 7 entering the operating hall over the rails 2 is at a suitable and acceptable height for personnel. In the industrial hall 9, the floor 10 of which is, for example, 50-100 cm lower than the surface of the ramp 1 at the location of the outer wall of the industrial hall 9, a suitable table or stand 11 can be provided for this purpose, the top surface of which is the if it is the continuation of the adjacent surface of the ramp 1.

In Fig. 2 a cross-section is shown through an embodiment of the greenhouse according to the invention. Parts corresponding to parts already shown in Fig. 1 are provided with the same reference numerals.

In Fig. 2, the greenhouse 3 is built up of side panels 4 and roof panels 5, 20, which can for instance be placed on and held in a suitable frame of aluminum or other conventional material. The side panels 4 are supported on the concrete foundation bays 12 to prevent the greenhouse from sagging. The rails 2 are located in the greenhouse 3, which are supported, for example, by beams 13, 25 arranged at an appropriate distance from each other, which lie on the bottom or are embedded therein. The rails 2 form a track in the greenhouse 3 with a track width of, for example, 150-200 cm. The trolley 7, which can essentially consist of one. suitably shaped metal frame to which at least one axle with wheels 14 is attached. Bins 8 with crops to be grown are placed on the frame of the trolley 7.

A suitable irrigation system can be arranged in the greenhouse 3 for spraying the crops in the troughs 8 as required. The irrigation system can for instance consist of a system of pipes 15 which is mounted under the hood 5 at the top of the greenhouse 3. A conduit trough 16 may further be laid on the bottom of the greenhouse 3, in which the conduits are located for regulating the climate in the greenhouse 3. The irrigation system 8101765 .....

-7- and the climate control can be common systems for greenhouses-

As can be seen from Fig. 2, a number of greenhouses according to the invention can be arranged parallel to each other. All these greenhouses can be connected to a single production hall of the type described with reference to fig. 1.

The greenhouse according to the invention can be built up at any arbitrary location since one is completely independent of the nature of the land on which the greenhouse is built. After all, the filling of the bins 8 need not have anything to do with the soil on which the greenhouse is built. The greenhouse according to the invention is also very suitable for rock wool and other types of cultures. Even for growing crops, for which little or no light is required, the greenhouse according to the invention is suitable, in which case, however, the side panels and cap should be barely transparent. In this connection, one can think of growing mushrooms.

The greenhouse according to the invention can suitably be included in a system of greenhouses as shown in fig. 3. In this figure 2, the greenhouses 17, 18, 19 and 20 are greenhouses according to the invention. The greenhouses 17-20 are arranged between two production halls 21 and 22 of the type as described with reference to fig. 1. The ground under the greenhouses 17-20 is leveled prior to building the greenhouses such that the bottom of the greenhouses 17 and 18 slopes down from industrial hall 21 to industrial hall 22 and the bottom of greenhouses 19 and 20 slopes down from industrial hall 22 to industrial hall 21. For greenhouses 17 and 18, industrial hall 21 25 is therefore the starting station and industrial hall 22 the end station , while this is the opposite for greenhouses 19 and 20. The advantage of such a construction is that the bins in which crops have been grown and, when using bogies, the bogies do not have to be transported from a large distance from the terminal to the terminal 30 of a greenhouse for reuse. With the greenhouse system shown, a cycle of bins and trolleys is possible.

8101765

Claims (5)

1. Greenhouse for growing crops, with a usually translucent roof and arranged for growing crops in loose containers or the like, provided with means for controlling the climate and the humidity in the greenhouse, with the characterized in that the greenhouse is provided with means for transporting the trays from a starting station to a final station during cultivation, in which terminal the harvesting or other processing of the crops can take place, while the greenhouse has such a height that the roof is located at a relatively small distance above the bins. Greenhouse according to claim 1, characterized in that a rail system is arranged on the bottom of the greenhouse between the starting station and the end station, over which rail system bogies or carts can be moved, on which bogies or carts the boxes with which to be grown are crops can be placed, while the transport means are arranged for gradually moving the trolleys or carts from the starting station to the end station during cultivation. 3. Greenhouse according to claim 2, characterized in that the greenhouse is arranged on an inclined bottom which slopes from the starting station to the end station, such that trolleys or carts placed on the rails can move over the rails under the influence of gravity. . Greenhouse according to claim 3, characterized in that the slope of the bottom is 1/2%. 5. Greenhouse system ^ with. a number of greenhouses according to any one of claims 1-4, characterized in that the greenhouses are arranged such that the starting station of a part of the number of greenhouses is the terminal for another part of the number of greenhouses and vice versa. .. 81 0 1 7 6 5 .......................................... .................................. — .........