In the past, there were also some methods similar to this study and lighting devices with adjustable fill height. However, these devices are limited to a single lighting device, although there are also moving lighting devices, but the operation process is particularly complicated. In these used schemes, a method and equipment are used to fill the plants in a greenhouse without sunlight and during the daytime with sunlight, and sometimes the best condition cannot be achieved.
In order to achieve the purpose of the above research, the illumination fill light automatically keeps the distance between the fill light and the plant as the plant grows upwards, so as to satisfy the radiant energy required for photosynthesis of the normal growth of the plant.
The set of fill lamps emits specific spectral radiation. In addition to the visible light spectrum, thermal radiation, such as infrared radiation, is also included. It is well known that a significant proportion of the radiant energy used in greenhouses comes from the radiation of thermal lamps. A large part of this radiant heat energy is lost in vain. Because most of this energy is present in the space between the fill light and the plant, it is easily absorbed by other substances, such as the humidity of the greenhouse, which is a major factor in energy absorption.
This means that by providing the set of fill light devices, a portion of the distance is reduced and the illumination is optimally compared to the distance between the conventional fixed fill light and the plant. As the distance is reduced, the loss of thermal radiation is also reduced, and the radiant energy is fully utilized.
1 equipment working principle
The device provides a method and a set of fill light lighting equipment for plant lighting in the greenhouse. The fill light is placed on the plant and kept at a certain distance from the top of the plant. After repeated tests, the distance should be kept at 80~240cm. Between the best.
The working principle of the entire plant fill light is described in more detail by the following figures.
Figure 1 Schematic diagram of the operation of the greenhouse fill light equipment. Note: 1, fill light; 2, lifting pulley; 3, plant; 4, fill light frame; 5, control device; 6, hot bed; 7, greenhouse arch; 8, greenhouse; 9, lifting cable; Drive wheel.
As can be seen in Fig. 1, the lighting device is provided with some fill light 1 fixed on the fill light frame body 4, and its movement depends on the lifting pulley 2, moving up and down in the height direction according to the requirements of the plant 3. The lifting pulley 2 is fixed to the beam 7 of the greenhouse 8. In actual operation, a plurality of fill lamps can be fixed on one rail, and several lifting pulley devices are assembled to move together; it can also be designed as a set of lifting devices to be responsible for a set of fill lamps.
The preferred distance between the fill light 1 and the top of the plant is between 80 cm and 240 cm, and the preferred distance can be set between 120 cm and 210 cm, depending on the situation. This distance is a shorter distance than the height of the greenhouse. Maintaining and adjusting this distance from the plant 3 is adjusted by moving the fill light 1 along the growth direction of the plant by the lifting pulley 2. As a result, the radiant heat in the space between the fill light and the plant will be less lost.
This is much better than installing a fill light at a fixed height or directly on a greenhouse roof. As the growth of the plant 3 on the hot bed 6 grows, the drive pulley 10 is passed through the lift pulley 2 and the height of the fill light is adjusted according to the growth height of the plant 3.
The control device 5 controls the rotation of the drive wheel 10 to adjust the length of the lift cord 9, thereby moving the lift device 4 up and down. In practice, the distance between the fill light and the top of the plant 3 is measured periodically, for example, by hand. This distance will be reset if required. It is maintained within the required distance by the control device and the lifting device. In addition, the control unit 5 is usually composed of one or more sensors that measure temperature and humidity, such as relative humidity in the greenhouse. From these data, the measured values ​​of temperature and humidity can be obtained, and the control device 5 and the lifting device 4 can newly determine an optimal irradiation distance.
It has been experimentally proven that this device is particularly suitable for pepper cultivation or other similar plants. Compared to other plants, peppers require a longer light duration to achieve the desired growth height. Therefore, in its longer growth period, increasing radiant heat energy can greatly improve the efficiency.
In Figure 1, the fill light is mounted in the horizontal direction of the plant and can be fixed or moved back and forth on a fixed track. The distance between the fill light and the upwardly growing plant tip is preferably controlled between 80 cm and 240 cm.
2 equipment features
2.1 The method of supplementing the illumination of greenhouse plants includes the determination of plant lights
The distance between the fill light and the tip of the growing plant is maintained between 80 and 240 cm.
2.2 Setting the illumination distance of the fill light
Controlled according to the temperature and humidity values ​​at the top of the greenhouse. Increase the distance between the fill light and the plant when the temperature of the plant rises in the greenhouse or when the humidity of the air in the greenhouse decreases; reduce the distance between the fill light and the plant when the temperature drops or when the atmospheric humidity in the greenhouse rises .
2.3 Height of lighting equipment
The height of the fill light is moved by the rotation of the lift pulley, through which the distance between the plant top and the fill light is controlled and measured.
2.4 Control device includes a set of sensors
The sensor is used to determine the temperature and humidity of the greenhouse and automatically adjust the distance between the fill light and the top of the plant based on the measured values.
2.5 Installation of lighting equipment
The installation includes a lamp, a lifting pulley moving the lamp, and controlling and measuring the plant in the height direction to set the distance between the top of the plant that grows upward and the fill light.
3 conclusions
3.1 illumination of the fill light
It moves up and down with the growth of the plant. The temperature and humidity in the greenhouse are measured by the sensor. The distance between the fill light and the plant is adjusted by the control device to ensure the optimal distance between the fill light and the irradiated plant.
3.2 By moving the fill light, the top area of ​​the plant can be heated more evenly and efficiently by the radiant heat of the fill light.
3.3 Determination of the optimum distance between the fill light and the plant
The range should be between 80 and 240 cm. It can prevent plants from being burnt; it can prevent excessive radiation from being absorbed by the area between the lamp and the plant.
3.4 Depending on the height of the plant's growth
With periodic adjustments relative to the fixed position of the plant fill light, the use of this set of equipment can bring higher yields to plants in the greenhouse, which is quite cost-effective.
3.5 The distance between the set fill light and the tip of the plant growing up
Depends on the record of temperature and atmospheric humidity in the greenhouse. Temperature and humidity are two important parameters for the degree of radiation transfer from the fill lamp in the greenhouse. As noted earlier, some of the radiant heat is absorbed by the moisture in the greenhouse. Therefore, in this preferred experimental greenhouse, the following arrangement is made, in which the distance between the fill light and the top of the plant is increased when the temperature rises in the greenhouse or when the record of the decrease in atmospheric humidity in the greenhouse occurs. . In another case, the distance between the fill light and the top of the plant is reduced when the temperature in the greenhouse drops or when an increase in atmospheric humidity in the greenhouse occurs.
3.6 The control unit determines the temperature and humidity in the greenhouse through a sensor
The temperature and humidity in the greenhouse are measured by a greenhouse sensor, and the optimum fill and heat transfer distance between the fill light and the top of the plant is set.
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