NL8200360A - Greenhouse air circulation system - has raised fan with long horizontal throw and second fan directing outside air at inlet of first fan - Google Patents

Abstract

The air circulation system is intended for the crop (8) containing space (10) in a greenhouse (1). It comprises a first circulation fan (11) which is arranged at a distance from one end wall (2) above crop level and provides a horizontal air flow with long throw, and a second fan (12) with inlet outside the greenhouse whose outlet flow is directed at the inlet of the first fan. The first fan may deliver into a horizontal duct with downward air outlets. The output of the second fan may be controlled as a function of the relative humidities and/or the temp. of the inside and outside air.

Description

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82.5018 / M / MvC

Short designation: greenhouse air handling system.

The invention relates to an air treatment system for. in particular a greenhouse growing room which is closed or lockable in a substantially airtight manner from its surroundings.

Due to the high cost of heating a crop to be heated within the greenhouse 5, the roof of the greenhouse is now often double-walled. For the same reason, a closing screen cloth can also be applied above the crop, creating a separate cultivation area within the greenhouse.

However, such measures aimed at heat insulation have the consequence that the natural ventilation is considerably reduced. As a result, the air movement within the growing space, which is necessary for a well-growing crop, is nil. Furthermore, due to evaporation of moisture from both the plant and the soil, a humid climate will arise and the relative humidity will reach an unacceptably high value over time. Since the crop also absorbs carbon dioxide from the air, the lack of ventilation will cause the carbon dioxide normally present in the greenhouse air (0.03%) to drop to almost zero, which is a source of growth disturbances.

The object of the invention is now to provide an air treatment system, with the aid of which the air within the cultivation space and, if necessary, in cooperation with the air outside it, is treated in such a way that the said drawbacks are obviated.

To that end, the air treatment system according to the invention is characterized by a first fan device arranged above the crop in the cultivation space at a distance from a facade of the greenhouse, with a horizontal blowing direction away from the facade and a high throwing capacity with respect to the greenhouse dimensions for the device to blow out air, and a second fan device, the inlet opening of which communicates with the environment outside the cultivation space and which can inject air to be drawn from the environment of the cultivation space into the inlet opening of the first ventilator device.

By means of such an air treatment system, very good air circulation within the cultivation space can be obtained by operating the first fan device. The air will be blown over the crop at high speed over a great distance and will be spread over the crop over a sufficiently wide area during its return movement to the fan device. ·

When both fan devices are in operation, air from outside the greenhouse, or if the greenhouse is provided with a screen cloth, possibly from the space between the screen cloth and the roof of the greenhouse, is mixed with the direct ambient air of the first fan device. and also blown into the cultivation space over a relatively great distance. Since the fresh air drawn in from outside the grow room is drier than the air inside the grow room, this will allow the relative humidity within the grow room to be reduced to an acceptable level while simultaneously increasing the carbon dioxide content. The aforementioned mixing of the two air flows within, in particular, the first fan device and the subsequent blowing over a large distance also has the great advantage that the temperature of the air blown out in the direction by the first fan is the average of that of the two incoming air flows and the occurrence of temperature differences that are inadmissible to the crop or of so-called cold spots are prevented.

The arrangement of the fan devices may be such that the inlet openings and outlet openings of the fan devices are aligned. As a result, the air to be transported by the fan devices will experience such a small possible resistance. The second fan device. can be mounted in the facade.

The inlet openings of the second fan device can also communicate with the environment via a supply channel. This gives a greater freedom with regard to the place where the system has to be applied and even relatively warm air can be drawn in from the space above a screen cloth which may be arranged in the greenhouse.

The outlet opening of the second fan device can further open into a discharge channel which opens at some distance from the inlet opening of the first fan device. An injection channel is hereby obtained in a simple manner. In addition, it is possible to place the second fan device in any desired location relative to the first fan device, whereby, for example, when placed at a small distance above the ground, the second fan device will have a smaller shadow effect for a high crop.

According to a particular embodiment of the air treatment system, the outlet opening of the first fan device opens into a horizontal tubular channel, which along its length is provided with a number of outlet openings. Such a system can advantageously be applied when a vertical circulation through the crop is desirable 8200360. This system is also well suited for use with a low crop.

According to a preferred embodiment of the air treatment system, the flow rate of the second fan device is controllable by means of a regulating device depending on the relative humidity and / or temperature of the air inside the cultivation room and that of the air outside the cultivation room. With the aid of such a control device, a continuous control of the relative humidity within the cultivation space is possible, so that the relative humidity of the air within the cultivation space can always be brought to a desired value, while the air within the cultivation space can be prevented from being too much. , is cooled in case the temperature difference with the air within the grow room is large.

A simple and inexpensive embodiment of the control device is formed by a valve mechanism.

Preferably, however, the control device comprises a speed control for a fan motor of the second fan device.

For those applications of the air treatment system in which superfluous air has to be transported from the cultivation space to its surroundings by means of a third fan device, the second and third fan devices preferably cooperate via a heat exchanger common to the respective air flows. This achieves that the loss of heat within the growing space is limited.

The invention is elucidated with reference to the drawing.

In the drawing shows; FIG. 1 a first embodiment of the air treatment system;

Fig. 2 a second embodiment of the air treatment system.

Fig. 1 shows a greenhouse, generally indicated by reference numeral 1, with a front wall 2 and an opposite rear wall 3 and a deck consisting of a number of light-transmitting elements 4. The side walls between the front wall 2 and the rear wall 3 are omitted in the figure. The deck 5 is supported between the facades 2 and 3 by means of legs 7 mounted on or in the bottom 6

A screen cloth 9 can be arranged between the deck 5 and the crop 8, this cloth having the function of shielding the crop 8 from sunlight incident through the deck 5 or the between the bottom 6 and the screen 9 for a certain period of time. formed separated cultivation space 10 against heat loss from this cultivation space 10 to insulate the space outside the greenhouse 1.

At some distance from one of the facades, here the front façade 2, and, if applied under the energy screen 9, a first fan device 11 8200360 * * - 4 - is provided, which draws air from the cultivation space 10 on the side of the façade 2. and throws the air drawn in at high speed over the crop 8 to the opposite facade 3, the return air flow being spread through the crop 8, so that the crop 8 is aerated evenly.

Opposite the first fan device 11, a second fan device 12 is arranged in the facade 2, with which the air can be drawn in from outside the greenhouse 1 and can be injected after the inlet opening of the first fan device 11.

If the relative humidity in the cultivation space 10 is not too high, only the first fan device 11 will be in operation and the second fan device will be closed by means of an air valve, not shown.

Above a certain relative humidity level within the growing space 15, the second fan device 12 will also be in operation. _

The flow rate of the second fan device 12 can preferably be controlled by means of a control device, not shown, depending on the relative humidity and / or temperature of the air inside or outside the cultivation space 10. The second fan device 12 may be designed for this purpose. with a valve mechanism with adjustable blades or the speed of its fan motor, the desired flow can be adjusted by means of the control device.

During operation of the second fan device 12, the first fan device 11 blows out an air mixture formed by an amount of air drawn in from the cultivation space 10 and an amount drawn in from the cultivation space 10 by the second fan device 12 and injected into the first fan device 11 sky. This achieves that the drier air drawn in from outside the growing space 10 lowers the humidity within the growing space and can bring it to the desired level. The supply of fresh air also has the consequence that the carbon dioxide content within the cultivation space 10 is increased, so that no shortage arises and the crop 8 will not undergo growth disturbances.

According to fig. 2 the outlet opening of the first fan device 11 can be connected to a tube 13 preferably consisting of a light, flexible and translucent material, which is provided in the longitudinal direction with a number of openings 14, so that by creating a relatively high pressure within the tube 13, the air blown out by the first fan device 11 is blown through the openings 14 at high speed. An embodiment such as an 8200360 is particularly suitable for low crop applications.

Although not shown, the outlet opening of the second fan device 12 may open into a tube or hose which opens a short distance from the inlet opening of the first fan device 11. As a result, the distance * between the first fan device 11 and the facade 1 with regard to the aforementioned mixing of the two air flows plays no role, because a greater distance can always be bridged by means of such a hose. The fan devices 11, 12 need not even be aligned here. Moreover, in this embodiment, the second fan device 12, centrally arranged, can operate a number of first fan devices 11.

The second fan device 12 can also be arranged entirely within the cultivation space 10, whereby air can be drawn in from the space above an optionally applied screen cloth 9 by means of a tube or hose 15. Because the air above the screen cloth 9 will be warmer than the air outside the greenhouse 1 and because ventilation openings are often present in the deck 5, this saves an important amount of energy. Even if in this embodiment air is drawn in from outside the greenhouse 1, the advantage is obtained that the second fan device 12 can be arranged at a more desired location.

For extracting excess air from the cultivation space 10, the second fan device 12 can cooperate with a third fan device, not shown, wherein the second and third fan devices cooperate via a heat exchanger and form a structural unit therewith. Such a unit can comprise a plate heat exchanger or a so-called heat pipe heat exchanger. Using such a heat exchanger, at least 60% of the otherwise completely removed heat can be recovered.

30 - conclusions - 8200360

Claims (9)

1. Air treatment system for, in particular, a greenhouse growing room which is closed or lockable in a substantially airtight manner from its surroundings, characterized by a first fan device arranged above the crop in the growing room at a distance from a facade of the greenhouse with one of the horizontal blowing direction facing the facade and a large throwing capacity with respect to the greenhouse dimensions for the air to be blown out by this device, and a second fan device, the inlet opening of which communicates with the surroundings. can inject air into the inlet opening of the first fan device outside the cultivation space and which air to be drawn in from the vicinity of the cultivation space. System according to claim 1, characterized in that the inlet openings and the outlet openings of the fan devices are aligned. System according to claim 1 or 2, characterized in that the inlet opening of the second fan device communicates with the environment via a supply channel. System according to claim 1, 2 or 3, characterized in that the outlet opening of the second fan device opens into a discharge channel which opens at some distance from the inlet opening of the first fan device. System according to any one of claims 1 to 4, characterized in that the outlet opening of the first fan device opens into a horizontal tubular channel which is provided with a number of outlet openings along its length. System according to any one of claims 1 to 5, characterized in that the flow rate of the second fan device is controllable by means of a control device depending on the relative humidity and / or temperature of the air within the cultivation space 30 and that of the air outside the grow room. System according to claim 6, characterized in that the control device comprises an adjustable valve mechanism placed in the air flow of the second fan device. System according to claim 6 or 7, characterized in that the control device comprises a speed control for a fan motor of the second fan device. 8200360 - 7 - * S '1 » System according to any one of claims 1 to 8, wherein the culture space for the discharge of the excess air is communicated with the environment via a third fan device, characterized in that the second and third fan devices cooperate via a the respective air flows common heat exchanger. Q. * 8200360