NL2000908C2 - Greenhouse for growing plants, has air control system including sensors and computing resources for determining air volume injected into air injection system, and control unit for controlling opening of ventilation windows - Google Patents

Abstract

The greenhouse (1) has a ventilation system including ventilation windows (2, 3) with steerable vents, and an input system including an air inlet and an air outlet. An air control system (5) includes sensors and computing resources for determining air volume injected into an air injection system, and a control unit for controlling the opening of the ventilation windows, where the amount of air injected depends on the desired temperature in the greenhouse.

Description

Climate control for a greenhouse

The present invention relates to a greenhouse comprising a ventilation system for cooling thereof by ventilation, which ventilation system comprises a number of ventilation windows with controllable ventilation openings, and an air introduction system with inlet for air from outside that greenhouse and an outlet for air in that greenhouse.

Such a greenhouse is known from FR 2,502,895. For cooling in particular, it is customary to open the windows in a greenhouse roof on hot days and blow air into the greenhouse with the help of a fan to lower the temperature. Moreover, it is possible to move moisture out of the greenhouse in this way.

A completely different system for growing crops is the so-called closed greenhouse. In this case no supply of air from the environment or no discharge to the environment takes place. This makes it possible to keep out germs and the like and the process of growing up the crop can be better controlled. However, it appears that considerable cooling capacity is necessary to maintain the desired growth conditions for the crop under all circumstances. Special measures must also be taken to control the humidity. That is why the costs associated with a fully closed greenhouse are still higher than the costs associated with a conventional greenhouse.

From FR 2,582,472 a greenhouse is known with a complicated system for cleaning incoming air. The aim is always to maintain an overpressure in this greenhouse. If for some reason this pressure becomes too high, safety valves will open and air intake will be stopped. In the publication, the amount of air entering is measured, but this measurement does not take place to thereby determine the position of the safety valves.

FR 2,547,162 discloses a system for introducing carbon dioxide into a greenhouse.

It is the object of the invention to provide a greenhouse which on the one hand has the advantages of a closed greenhouse and on the other hand can be realized with relatively low costs.

This object can be achieved in a greenhouse described above in that said air control system comprises sensors and calculating means for determining the amount of air introduced by said air introduction system, and control means for controlling the opening of said ventilation windows, said control means and calculating means 2000908 2 being designed in such a way that through those ventilation openings only air comes out of that greenhouse.

According to the present invention, the incoming amount of air is accurately measured. Because the volume resp. The weight of the incoming air is known, it is possible to adjust the discharge accordingly. According to the invention this discharge is regulated in such a way that under all circumstances it is ensured that air flows exclusively to the outside so that germs and other undesired (micro) organisms have no chance of entering the greenhouse.

The amount of incoming air can be measured in any way known in the state of the art. Examples are measuring valves, heat wires and differential pressure systems. An example of a pressure difference system is the use of a so-called measuring cross with upstream and downstream measuring openings over which the pressure difference is measured. Other flow meters can also be used.

The control of the amount of incoming air can depend on the temperature and / or the humidity of the outside air relative to the air in the greenhouse. Correction may be desired and the amount of air can be controlled on the basis thereof. This can be done either by a valve system or by a variable speed motor or a combination thereof.

According to a further advantageous embodiment of the invention, an air circulation system is also present in the greenhouse for homogenizing the temperature, humidity and / or the percentage of CO2 in the greenhouse. More in particular, this air circulation system is combined with the air introduction system according to the invention in that a common outlet is present. The inlet of a similar air circulation system is preferably located relatively high in the greenhouse where hot air is extracted which is pumped to the underside of the crop. In the case of common parts of the air circulation system and the air introduction system, use can also be made of a single engine in which upstream of that engine preferably valves are present in the inlet for ambient air and the inlet for circulating air. With the aid of a control, the ratio of air originating from the environment resp. from the greenhouse.

3

In addition, a filter may be present that filters out harmful (micro) organisms, thereby preventing the spread of diseases.

The invention can in principle be applied in any greenhouse, but a particularly space-saving arrangement can be obtained if there are crop carriers in that greenhouse for receiving the lower part of the crop, such as cultivation troughs or rolling tables. In such a case, there is a space below the bearing surface for the crops for mounting the air introduction system according to the invention and more particularly the outlet thereof. After all, in order to achieve as uniform a temperature, moisture and / or CC> 2 distribution as possible in the greenhouse, it is important that the air is introduced into the greenhouse at a large number of different places. For this purpose, according to a preferred embodiment of the invention, tubes are used which can have a length of a few meters to tens of meters and are provided with openings for releasing air. The number and / or the size of the openings can herein be adapted to the position of the openings relative to the impeller or other fan with which air is displaced in the tubes. Such tubes often have a considerable volume and it is therefore advantageous to place them under the crop. Moreover, the conditions in the crop are then promoted while the air rising up along the crop prevents condensation of moisture on the crop as much as possible.

With larger greenhouses, it is not sufficient to use a single air introduction system or air circulation system as described above. In such a case, a number of such systems will be applied. However, it has been found that it is not necessary to use a corresponding number of schemes. For a larger greenhouse, a single arrangement for a number of systems is sufficient. It is also possible if the air inlet channel is substantially identical with a single measurement in an air introduction system. That is, it can be assumed that other coupled air introduction systems introduce or inject substantially the same amount of air. with a certain fixed correct amount of air to be loaded.

With the present invention, it is possible to introduce a certain amount of air into a greenhouse in a controlled manner. As a result, temperature and relative humidity can be controlled very accurately and the same applies to the CO2 percentage in the greenhouse. In other words, the enthalpy of the air can be well controlled with very limited energy input such as heating. The losses through the ventilation openings can also be limited. This concerns both lost CO2 and heat / cold.

With the present invention, it is possible to suffice with less ventilation, as a result of which the energy and CO2 savings described above can be obtained. Moreover, it has been found that this results in a better temperature distribution with ultimately a better crop yield.

It will be understood that the air introduction system described above can be used for both new construction and existing greenhouses.

It has been found that by circulating air diseases diseases can be reduced to a large extent.

The climate control system according to the invention can be coupled with existing climate computers.

The invention will be explained in more detail below with reference to an exemplary embodiment shown in the drawing. It shows:

FIG. 1 schematically a greenhouse consisting of several caps; and

FIG. 2 shows a detail of the interior of a greenhouse provided with an air introduction / recirculation system according to the invention.

In Fig. 1 a greenhouse is indicated by 1. This is a greenhouse with hoods 2 provided with windows 3 which are to be opened in the state of the art. The windows 3 are opened with an adjusting motor 4 which receive a corresponding signal via a line 22. A ventilation system 5 is present which will be discussed with reference to Fig. 2 and the underside of the greenhouse, i.e. the bottom, is indicated by 6.

Fig. 1 shows that a number of ventilation systems are present, one for each hood.

Fig. 2 shows such a ventilation system 5 in more detail. This consists of an inlet 11 for ambient air such as the outside air with a valve 12. Moreover, there is an inlet 10 with valve 13 which is suitable for inlet of air to be recirculated from the top of the greenhouse. A cabinet 18 is present where these air flows come together and in which a number of sensors are present. 14 is a temperature sensor. 15 is a humidity sensor while 16 is an air flow meter such as a pressure differential meter. 21 is a CO 2 injector. Downstream of the cabinet 18 there is a filter 17 followed by a speed-controlled air displacing impeller 23 which connects to a tubular outlet 25 with outflow openings 26. As shown in Fig. 2, outlet 25 is arranged between the bottom 6 of the greenhouse and a cultivation trough indicated by 8 in which crops 9 such as tomatoes, cucumbers and the like can be arranged.

The signals from the different sensors 14-16 are supplied to a computing device 19 which then supplies this to control 20. This control 20 is connected via a line with sensor 21 for emitting CO2 and with line 22 for opening the windows 3 more or less.

The air introduction / recirculation system described above operates as follows. The starting position is a greenhouse in which the windows 3 are completely closed, i.e. a closed greenhouse. At some point in time it may be necessary to influence the climate in the greenhouse, for example, to lower its temperature or to limit its humidity. If the ambient conditions are optimal, air is sucked in via line 11 when valve 12 is (partially) opened. Only the amount of air introduced is measured with the aid of sensors 16. With these sensors it is possible to accurately measure the amount sucked in. to determine air. Then the temperature resp. the relative humidity thereof. After passing through the filter 17, with the aid of motor 23, the air is discharged into the outlet 25 and then brought under the crop through the outlet openings 26 and will then circulate through the greenhouse.

In the previously described closed position, valve 12 is closed and valve 13 is opened and air is passed from the top of the greenhouse through inlet 10 through cabinet 18 and the temperature and humidity thereof are determined. The amount of air that is sucked in via inlet 20 is in principle not measured, i.e. sensors 16 are only effective for inlet 11. In the manner described above, this air is subsequently returned to the greenhouse with motor 23.

It is possible that mixed forms of operation take place, i.e. those in which the valves 12 and 13 are both only partially opened to recirculate part of the air and suck in part of the air from the environment.

In all cases it holds that with the aid of the computing device 19 the amount of air introduced is determined. This substantially corresponds to the amount of air to be discharged and for this purpose control 20 is present which controls the openings of the windows 3 via adjusting motors 4 such that only air moves out through the windows 3 and no air moves in. As a result, minimal ventilation can suffice, which is advantageous because of minimal heat losses that occur, the retention of the relatively high CCh content in the greenhouse and the prevention of germs entering.

5 Any insufficient CO2 can be supplemented via control 20 and CC> 2 injector 21.

The climate control described above can be coupled with any climate control known as such, such as a climate computer.

It can be seen from Fig. 1 that different air introduction / recirculation systems 5 are present. These can be coupled to each other under certain circumstances, whereby a common control 20 is present. Moreover, it is possible for a single sensor system 16 to suffice for the identical design of these systems. After all, it can be assumed that other systems draw in the same amount of air. As a result, a system can be obtained with substantially the same accuracy.

Naturally, sensors can be present in the greenhouse for determining the humidity and temperature. These values can be measured at different heights in the greenhouse and the result thereof can be supplied to the air introduction / recirculation system for the introduction or non-introduction of further air or air. recirculate in the greenhouse.

With the present invention it is possible to work with a very small, barely perceptible overpressure in the greenhouse, whereby air is prevented from entering through the opened windows.

After reading the above, those skilled in the art will immediately come up with variants that are within the scope of the appended claims.

2000908

Claims (11)

1. Greenhouse (1) comprising a ventilation system for cooling thereof by ventilation, which ventilation system comprises a number of ventilation windows (2) with controllable ventilation openings, and an air introduction system with inlet (11) for air from outside that greenhouse and an outlet (25) for air in said greenhouse, characterized in that said air control system (5) comprises sensors (16) and calculating means (19) for determining that amount of air introduced by said air introduction system, and control means (20) for controlling the opening of said ventilation windows , Wherein said control means (20) and calculating means (19) are designed such that only air exits from said greenhouse through said ventilation openings. Greenhouse according to claim 1, wherein said sensors comprise temperature sensors (14) and the amount of air introduced depends on the temperature desired in the greenhouse 15. Greenhouse according to one of the preceding claims, wherein said sensors comprise air humidity sensors (15) and the amount of air introduced depends on the air humidity desired in the greenhouse. 20 Greenhouse according to one of the preceding claims, comprising an air circulation system with inlet (10) and outlet (25) in said greenhouse. 5. Greenhouse according to claim 4, wherein said air introduction system and said air circulation system comprise a common outlet (25) in said cultivation space. Greenhouse according to claim 4 or 5, wherein said air introduction system and said air circulation system comprise a common air displacement motor (23). The greenhouse according to claim 6, wherein a filter (17) is arranged upstream of said outlet. 2 0 0 0 9 0 8 Greenhouse according to one of the preceding claims, wherein said system comprises CO2 injectors (21). Greenhouse according to one of the preceding claims, comprising crop carriers (8) for receiving the lower part of crops (9), which crop carriers are arranged at a distance from the bottom (6) of the greenhouse and wherein said outlet (25) extends between those crop carriers and that soil. Greenhouse according to one of the preceding claims, in which the outlet (25) comprises an outlet channel provided with outlet openings (26), which outlet channel is at least 10 meters long. 11. Greenhouse comprising a number of air introduction systems according to one of the preceding claims and a control means (20) common to those systems. 2000908