NL2000751C2 - Department store and method for cultivating crops. - Google Patents

Description

Department store and method for cultivating crops

The invention relates to a department store for cultivating crops. The invention also relates to a method for cultivating crops in such a department store.

A department store, often referred to as a greenhouse, generally covers many hundreds of square meters of land that can be used effectively for cultivating crops. Each department store generally comprises a spatial support structure for transparent wall panels and roof panels. The department store will often be substantially closed in order to be able to condition the atmosphere present in the department store in a facilitated manner. In order to stimulate the growth of the crops, relatively cool air (usually around 16 degrees Celsius) is supplied to the department store between or along the crops. The known department store has several disadvantages. A major drawback of the known department store is that the atmosphere in the department store usually warms up relatively quickly with incident solar radiation, whereby the then-generated temperature gradient in the department store usually generates a considerable rising air flow in the department store that is relatively relatively supplied to the department store. cool air often sucks and heats up. The consequence of this is, on the one hand, that the relatively cool air cannot usually be passed along effectively along the crops, and on the other that the crops will often start to perspire due to the rising temperature and the resulting convection flow in the department store, as a result of which the moisture content in the department store is significantly can rise. The aforementioned effects both hinder effective growth of the crops.

25

The invention has for its object to provide an improved department store in which crops can be cultivated in a relatively efficient manner.

To this end, the invention provides a greenhouse for cultivating crops, comprising air supply means which are arranged in the greenhouse so that the air supply means are arranged at least for supplying air to the greenhouse at a height of at least 1.5 meters. Research has shown that by supplying air to the department store at a height of at least 1.5 meters above the ground level of the department store, a significantly improved climate control in the department store can be achieved because of the temperature gradient in the department store, and a corresponding associated (upward) convection flow, will generally be considerably reduced. As a result, the microclimate present in the department store can be determined and stabilized in an improved manner, whereby the growth of the crops cultivated in the department store can be stimulated and optimized in a relatively efficient manner. In order to be able to further improve the climate control in the department store, the department store is preferably substantially closed off from an atmosphere surrounding the department store. Such a department store is also often referred to as a (substantially) closed greenhouse system. The crops to be cultivated in the greenhouse according to the invention can be very diverse in nature; however, vegetables are usually grown in particular in the department store, of which tomato, cucumber, pepper, eggplant and zucchini are often the most grown. In addition, it is conceivable to grow flowers and house plants in the department store, of which chrysanthemums, roses and ficus are the most common. It is also conceivable, for example, to grow garden plants in the greenhouse according to the invention.

In order to further optimize the climate control in the department store, the air supply means are preferably adapted at least to supply air to the department store at a height which is at least equal to, and more preferably higher than, half the height of the department store, calculated from the ground level of the department store. Since known department stores generally have a height of approximately 5 meters, at least a fraction of the value of the department store according to the present preferred embodiment must be supplied to the department store at a height of at least (approximately) 2.5 meters. In this way an optimum mixing of air in the greenhouse can be realized, as a result of which the microclimate surrounding the crops can be optimally determined and stabilized. It is also conceivable that a part of the air supply means is positioned at a height lower than 1.5 meters, wherein it is even possible that a part of the air supply means is arranged in the ground (bottom) of the greenhouse. In certain situations, an improvement in climate control in the department store can be achieved with this.

3

The air supplied to the department store can be formed by (untreated) air extracted directly from the atmosphere surrounding the department store. However, this atmospheric air will usually not be optimal in the untreated state in order to arrive at an effective cultivation of crops in the greenhouse.

The greenhouse according to the invention therefore preferably comprises conditioning means coupled to the air supply means for conditioning air to be supplied to the greenhouse. In this way the artificial (micro) climate surrounding the crops can be optimized, depending on the nature of the crop to be cultivated. The method of conditioning can be diverse in nature, and can relate, for example, to cooling, heating, dehumidifying, humidifying and / or filtering the air before it is supplied to the warehouse. In a particularly preferred embodiment, the conditioning means comprise at least one cooling unit, in particular a cooling battery, for cooling air to be supplied to the greenhouse. The cooling unit will generally also function as a condensing unit for dehumidifying the air by extracting latent heat from the air flowing past. The cooled, dehumidified air can then be led into the department store. Usually crops benefit from a climate with a relatively dry air with a temperature of around 10 to 16 degrees Celsius. The air can also be humidified to be able to humidify the crops. It is also conceivable to (additionally) add additives other than water (vapor), such as for example carbon dioxide and / or pesticides, in particular ozone, to the air to be dispersed in the department store. The humidification of the air flow can thereby be effected by adding steam to the air flow. However, it is also possible that the air flow is moistened by adding ultrasonically sprayed water to the air flow.

In a preferred embodiment the department store comprises discharge means for extracting part of the air present in the department store. By actively guiding air through the discharge means from the department store, the - preferably artificial - 30 microclimate in the department store can be controlled in an improved manner. The supply means are more preferably coupled to the discharge means, as a result of which a recirculating air flow is created in the department store, which is generally advantageous from a logistical and energy point of view. The air fraction discharged by the discharge means will often be (re) treated by the conditioning means before it is (again) supplied to the department store. In a particularly preferred embodiment the discharge means are coupled to the supply means via a mixing chamber connected to the atmosphere surrounding the greenhouse. The air flow discharged by the discharge means into the mixing chamber will (usually) be mixed with atmospheric air coming from outside the greenhouse, after which the air mixture can be supplied to the greenhouse through the supply means. The mixing chamber preferably comprises control means, in particular a control valve, for controlling the fraction of atmospheric air to be supplied to the mixing chamber. The conditioning means are preferably connected in series with (and in particular after) the mixing chamber, whereby the air mixture can be treated before it is supplied to the greenhouse.

In a preferred embodiment the air supply means comprise at least one tubular body, which tubular body is provided with at least one outlet opening for air. The tubular body can thereby be formed by flexible and / or rigid tube, hose or hollow beam, through which the air to be supplied to the greenhouse can be guided. The air can be led from the tubular body into the department store via the at least one outlet. The outlet opening can be elongated and extend, for example, as a slot over the substantially full length of the tubular body. However, the tubular body is preferably provided with a plurality of perforated outlet openings. In this way it will usually be possible to obtain a more controlled distribution of air guided into the department store. The tubular body preferably has a diameter of between 40 and 120 cm, and more preferably has a diameter of substantially 80 cm. The perforations provided in the tubular body preferably have a diameter of between 10 and 40 millimeters, and more preferably a diameter of substantially 20 mm, in order to enable a controlled supply of air to the greenhouse. The tubular body, and in particular at least one outlet opening, is preferably oriented such that the at least one outlet opening is adapted for supplying air downwards to the greenhouse. In this way at least a part of the (conditioned) air supplied to the department store is blown towards the crops, which generally benefits the cultivation of the crops significantly.

5

The tubular body can be made from various materials. Examples of conceivable materials are plastic, metal, and textile. However, the tubular body is preferably substantially light-transmitting, so as not to disturb, or at least substantially not, an optimum crop exposure. According to plant physiologists, the color of the light (and especially the color ratio) is important for the length growth of the plant and the color intensity of flowers and plants. The spectral light distribution determines both the assimilate distribution and the plant shape. The plants usually become longer as the proportion of blue in the growth light decreases. With a decreasing (reduction) red ratio, there is usually also an increase in the extension of coverage. In order to avoid excessive expansion, a share of (daily average) at least about 11% (in photons) of blue light is often desirable. Therefore, the tubular body is preferably substantially transmissive to blue light (<492 nm). The transparency of the tubular body is more preferably more than 90% in order to allow sufficient growth light (and possibly control light) for the crops to pass.

Although the tubular body can be positioned in various ways in the department store, wherein for instance a substantially vertical orientation is conceivable, the tubular body is preferably positioned substantially horizontally in the department store. In this way, air can be supplied in a relatively simple and efficient manner over the (substantially full) width and / or length of the department store. In order to further optimize the climate control in the department store, the air supply means preferably comprise a plurality of tubular bodies, each tubular body being provided with at least one outlet for air. The tubular body is then positioned at a distance from each other in the department store. The mutual distance between the tubular bodies is thereby preferably situated 2 and 6 meters, and more preferably amounts to substantially 4 meters.

In an alternative preferred embodiment, at least a part of the air supply means is arranged in a facade part and / or roof part of the greenhouse. The air supply means, or at least at least a part thereof, can thereby even be integrated in the façade part and / or roof part. The façade part and / or roof part can herein for instance be formed by a substantially transparent, one-sided perforated channel plate for passage of air to be supplied to the greenhouse. In this way a particularly efficient department store can be provided that is relatively simple from a constructional point of view, and wherein moreover the number of obstacles included in the department store, such as for instance tubular bodies, usually no longer have to be applied.

The invention also relates to a method for cultivating crops in such a department store, comprising the step of: A) actively supplying air to the department store at a height of at least 1.5 meters. In a preferred embodiment of the method according to the invention, the method also comprises step B), comprising of treating, in particular dehumidifying, the air according to step A) before supplying the air to the warehouse. Advantages and preferred embodiments of the method according to the invention have already been discussed in detail in the foregoing - during the discussion of the department store according to the invention.

The invention will be elucidated on the basis of non-limitative exemplary embodiments shown in the following figures. Herein: figure 1 shows a cross-section of a first preferred embodiment of a department store 20 according to the invention, figure 2 shows a perspective view of an air supply tube for use in the department store according to figure 1, and figure 3 shows a cross-section of a second preferred embodiment of a department store according to the invention.

25

Figure 1 shows a cross-section of a first preferred embodiment of a department store 1 according to the invention. The department store 1 is adapted to cultivate crops 2, and thereby comprises a plurality of substantially transparent wall panels 3, and a plurality of substantially transparent roof panels 4, which connect wall panels 3 and roof panels 4 to each other such that the department store 1 is designed substantially closed . This means that the microclimate present in the department store 1 is substantially sealed off from the atmosphere surrounding the department store 1. The department store also comprises a conventional irrigation device 5 provided with a plurality of spray heads 6 for watering the (roots of the) crops 7 2. In order to be able to realize an optimum microclimate in the department store 1 and to be able to stabilize it for cultivating the crops 2 the greenhouse also comprises a supply device 7 for supplying (conditioned) air to the greenhouse 1. The supply device 7 herein comprises a plurality of mutually connected tubes 8 through which the air to be supplied to the greenhouse 1 is guided. Each tube 8 is provided with a plurality of passage openings 9 for the air to be able to de facto pass into the warehouse 1. In the exemplary embodiment shown, the outer tubes 8 are only adapted to guide air downwardly into the greenhouse 1, and the middle tube 8 is adapted to guide the air both upwardly and downwardly into the greenhouse 1 . The mutual distance P between two adjacent tubes 8 in the present exemplary embodiment is substantially 4 meters. An important aspect for being able to realize and stabilize a microclimate in the department store 1 is that the tubes 8 are positioned in an upper segment of the department store 1, id est in the upper half of the department store 1. The height 15 H of the department store 1 is 5 meters in this exemplary embodiment. Figure 1 clearly shows that the tubes 8 are higher than the level of 1.5 meters above a bottom part 10 of the department store 1 (forming part of the fixed world), and - as already indicated - are also higher than the half height 1AH of the department store 1. The bottom part 10 is thereby de facto formed by a culture bottom 20 for the crops 2. The air supplied to the department store 1 via the tubes 8 is pre-cooled and dehumidified in a cooling battery 11 in order to maintain the artificial microclimate to be able to optimize in the department store 1 for cultivating the crops 2. In order to realize sufficient air exchange in the department store 1, the department store 1 also comprises an air outlet 12. The air discharged via the air outlet 12 is led to a mixing chamber 13, where the extracted air (if any) can be mixed with atmospheric air. The amount of air to be supplied to the mixing chamber 13 can be regulated by means of a control valve 14. Furthermore, by means of a fan 15, the air mixture is guided via the tubes 8 into the greenhouse 1.

Figure 2 shows a perspective view of the middle air supply tube 8 for use in the greenhouse 1 according to figure 1. The tube 8 is made of a substantially light-transmitting material, preferably polypropylene. The tube is provided with a fastening strip 15 for being able to fasten the tube 8 in the greenhouse 1. To this end, the fastening strip 15 is provided with a plurality of eyelets 16 for passage of 8 a hook-shaped or other type of suspension member for facilitating the suspension of the tube 8 in the department store 1. The mutual distance O between two adjacent eyes 16 is substantially 50 cm. The feed-through openings 9 arranged in the tube 8 are arranged in rows, the mutual distance p of two feed-through openings 9 situated in row being substantially 15 cm. Each passage opening 9 then has a diameter d of substantially 2 cm. The thickness of a tube wall 17 defining the tube circumference is preferably 0.2 mm in order to make the tube 8 sufficiently solid and durable on the one hand and to ensure the light transmittance of the tube 8 on the other hand. The diameter D of the tube 8 in the present exemplary embodiment is substantially 80 cm, in order to be able to ensure sufficient supply of (conditioned) air to the greenhouse 1. The length L of the tube 8 can vary, usually from a few meters to several tens of meters, depending on the length of the department store 1.

Figure 3 shows a cross-section of a second preferred embodiment of a department store 18 according to the invention. The department store 18 is adapted for cultivating crops 19, and for this purpose comprises a substantially closed glass housing 20, which housing 20 is composed of a plurality of glass hollow walls 21 and a glass hollow deck 22 resting on the walls. Both the hollow walls 21 as well as the hollow deck 22, conditioned air is conducted which can be supplied via the nozzles 23 arranged in the hollow walls 21 and the hollow 22 to the greenhouse 18 for being able to realize an artificial microclimate in the greenhouse for optimizing the cultivation of the crops 19. In figure 3 the height level of 1.5 meters above ground level is indicated, making it clear that a large number of nozzles 23 (or blow nozzles) are positioned above this level, in order to be able to reduce the temperature gradient in the greenhouse 18, and thereby being able to stabilize the microclimate in the department store 18 in a relatively simple manner. The department store 18 also comprises an air outlet 24 for discharging, and thereby being able to refresh, the air present in the department store 18. . Air discharged via the air outlet 24 and by means of a fan 25 is then passed through an air treatment unit 26, in particular a cooling unit, for conditioning the air, whereafter the conditioned air is again led through the nozzles 23 into the greenhouse 18 . In this way, recirculation of air occurs in the greenhouse 18, whereby the air can be conditioned continuously, 9, which generally benefits the cultivation of the crops 19 significantly.

It will be clear that the invention is not limited to the exemplary embodiments shown and described here, but that within the scope of the appended claims, countless variants are possible which will be obvious to those skilled in the art.

Claims (17)

A greenhouse for cultivating crops, comprising air supply means which are arranged in the greenhouse so that the air supply means are adapted to supply air to the greenhouse at a height of at least 1.5 meters. Department store according to claim 1, characterized in that the department store is substantially sealed off from an atmosphere surrounding the department store. Department store according to claim 1 or 2, characterized in that the air supply means are at least adapted for supplying air to the department store at a height that is at least equal to half the height of the department store. Department store according to one of the preceding claims, characterized in that the department store comprises conditioning means coupled to the air supply means for conditioning air to be supplied to the department store. 5. Warehouse according to claim 4, characterized in that the conditioning means comprise at least one cooling unit for cooling air to be supplied to the warehouse. Department store according to one of the preceding claims, characterized in that the department store comprises discharge means for discharging part of the air present in the department store. Department store according to claim 6, characterized in that the supply means are coupled to the discharge means. Warehouse according to claim 7, characterized in that the discharge means are coupled to the supply means via a mixing chamber in communication with the atmosphere surrounding the greenhouse. Warehouse according to any one of the preceding claims, characterized in that the air supply means comprise at least one tubular body, which tubular body is provided with at least one outlet for air. Department store according to claim 9, characterized in that the tubular body is provided with a plurality of perforated outlet openings. Warehouse according to claim 9 or 10, characterized in that the tubular body is oriented such that at least one outlet opening is arranged for supplying air to the warehouse in downward direction. Department store according to one of claims 9 to 11, characterized in that the tubular body is substantially light-transmitting. Department store according to any one of claims 9-12, characterized in that the tubular body is positioned substantially horizontally in the department store. 14. A warehouse according to any one of claims 9-13, characterized in that the air supply means comprise a plurality of tubular bodies, wherein each tubular body is provided with at least one outlet for air. Warehouse according to one of the preceding claims, characterized in that at least a part of the air supply means is arranged in a façade part and / or roof part of the greenhouse. 25 A method for cultivating crops in a department store according to any of claims 1-15, comprising the step of: A) actively supplying air to the department store at a height of at least 1.5 meters. 30 A method according to claim 17, characterized in that the method also comprises step B), comprising treating, in particular dehumidifying, the air according to step A) before supplying the air to the greenhouse.