RU2032315C1 - Lighting control device for hothouse - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: device has a revolving shutter like screen in the form of plate elements. The screen is provided with three groups of transparent plates 4, 5 and 6. The transmission area of the first group is within 380-500 nm, that of the second one lies between 500 and 600 nm, and that of the third group amounts to 600-700 nm. Each of plates 4, 5 and 6 is connected to a common drive by rod 9. EFFECT: higher efficiency and reliability. 2 cl, 4 dwg

Description

 The invention relates to agriculture, specifically to cultivation facilities for growing plants.

 A device for controlling the lighting of a greenhouse is known, comprising a rotary louvre screen made in the form of plate elements. This device allows you to adjust the amount of natural light passing into the greenhouse. However, its spectral composition corresponds to the spectral composition of a natural light source. As you know, it is not always optimal for obtaining the best plant yields. However, the known device does not allow you to adjust the spectral composition of the radiation.

 The goal is to increase the yield of cucumbers and tomatoes grown in the greenhouse by regulating the spectral composition of the radiation entering the greenhouse.

 In a device for regulating the lighting of a greenhouse comprising a rotary louvre screen made in the form of plate elements, according to the invention, the screen contains three groups of translucent plates, the first with a transmission region of 380-500 nm, the second with a transmission region of 500-600 nm and a third with a transmission region of 600- 700 nm, with each group of plates connected via a separate common traction to the drive.

 As plates with a certain transmission area, you can use, for example, plates made of optical glass TU 6-23-54-70-88 or any other optical or other glass, as well as plastic with the above transmission areas. Each of the groups of plates is connected through a separate common traction with the drive. This allows you to rotate the plates of each group at different angles, thereby adjusting the spectral composition of the radiation penetrating the greenhouse. Knowing the optimal spectral composition for growing a particular crop, for example, cucumbers or tomatoes, using the spectral composition sensor, the necessary position of the blinds of each of the screens is selected. Selection can also be carried out automatically if the spectral composition sensor is electrically connected to the group link drives. If the screen contains the same number of plates of each of the groups arranged in alternating order, the most uniform illumination of the greenhouse will be ensured by radiation of a certain spectral composition. Otherwise, the resulting spectral composition of the radiation in different parts of the greenhouse can be very different.

 If the screen contains plates coated with retro-reflective material, additional illumination of dimly lit areas can be carried out.

 The proposed device differs from the known one in that the screen contains three groups of translucent plates: the first with a transmission region of 380-500 nm, the second with a transmission region of 500-600 nm and the third with a transmission region of 600-700 nm, each group of plates connected via a separate common traction drive. Thus, the proposed device meets the criteria of the invention of "novelty."

 The patent and scientific literature do not describe the regulation of the spectral composition of radiation in greenhouses using screens with shutters with different spectral transparency. Thus, the proposed solution meets the criteria of the invention of "inventive step".

 The proposed device can be used in agriculture (in greenhouses) and can increase the yield of cucumbers and tomatoes grown in greenhouses by 20-25% by adjusting the spectral composition of the radiation entering the greenhouse. Thus, the proposed solution meets the criteria of the invention of "industrial applicability".

 In FIG. 1 shows a general diagram of a device and its location in a greenhouse. The greenhouse contains a roofing part 1, trays 2, crossbars 3 for trays for cultivated plants. In the upper part of the greenhouse, a screen is strengthened, containing three groups of translucent plates 4, 5, 6 with a transmission area of 380-500 nm, 500-600 nm and 600-700 nm, respectively, as well as plates 7, coated with a reflective polymer film coated with paint, containing aluminum. The plates are arranged in alternating order. The screen contains the same number of plates in each of the groups. The plates are connected with brackets 8, and the latter with rods 9 by means of hinges 10. Each group of plates is connected through a separate group common rod 9 with a drive 11, 12, 13, 14.

 In FIG. 2 shows in detail the design of the screen. The brackets 8 contain clamping pads 15 and the housing 15 ', they are pivotally mounted on the cross members 14', which can be divided into parts. The cross members 14 (their parts) are mounted on racks 16 mounted with the possibility of rotation around their axes. Positions 17, 18 and 19 indicate traction. In FIG. Figure 2 shows the "open" position of the screen when all the blinds are installed parallel to the direction of the light flux.

 In FIG. 3 shows a screen with half-closed shutters.

 In FIG. 4 shows the “open” position of the screen, with one of its parts in a folded state.

 The device operates as follows.

 Plants are planted in the greenhouse. Using light sensors determine the spectral composition of the light entering the greenhouse. If there is a deviation from the optimal composition, the actuators 11-13 are turned on, which drive the rods 9, 17, 18. As a result, the arms 8 pivotally mounted on the cross members 14 'rotate, changing the position of the blinds 4-6 and thereby changing the spectral composition of the radiation, entering the greenhouse. If there are areas with insufficient illumination in the greenhouse, they include actuators 14 connected to rods 19, and through them to plates 7 coated with reflective material. Thereby increasing the illumination of poorly lit areas.

 If necessary (for example, when treating the soil during off-season periods or when treating the working volume of the greenhouse with pesticides), the screen is folded. To do this, it is first brought to a fully open position (the plane of the screens are parallel to the axes of the struts 16). If the screen consists of several parts, for example, two, as shown in FIG. 2, each part of the screen is connected to its own stand 16. The stands 16 sequentially rotate around its axis, while the parts of the screen are folded, as shown in FIG. 4 (since the blinds are made of a flexible polymer film).

 Thus, the proposed device allows to increase the yield of cucumbers and tomatoes grown in greenhouses by 20-25% by adjusting the spectral composition of the radiation entering the greenhouse.

Claims (3)

 1. DEVICE FOR REGULATING GREENHOUSE LIGHTING, comprising a translucent screen and a drive, characterized in that the screen is made of three groups of plates with a different transmission area of the light flux, with each plate in each group being connected via a rod to the drive and mounted to rotate relatively horizontal axis, and the first group of plates has a light transmission region in the range of 380-50 nm, the second 500-600 nm, and the third 600-700 nm, while the horizontal axis of the plates are parallel to one another.  2. The device according to claim 1, characterized in that the number of plates in the screen of each group is the same and they are arranged in alternating order.  3. The device according to claim 1, characterized in that the screen is additionally provided with plates coated with reflective material.

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