KR20050060585A - Movable traveling apparatus with plant photosynthesis promotion lamp - Google Patents

Abstract

In order to promote photosynthesis of plants, the present invention relates to a mobile traveling device having a luminous lamp such as a fluorescent lamp, a high pressure sodium lamp, a metal halide lamp and the like.

Description

Traveling apparatus with plant photosynthesis promotion lamp

The present invention relates to a mobile traveling device having a light keeping lamp such as a fluorescent lamp, a high pressure sodium lamp, a metal halide lamp and the like to promote photosynthesis of a plant.

Experiments on the application of artificial light sources to plant cultivation have been conducted for a long time, and precursor cultivation such as the control of flowering of chrysanthemum is widely used in the field of horticulture. In addition, the application of plant plants, which are promoted by photosynthesis such as vegetables and seedlings, is being actively promoted, but the artificial light source alone brings economic difficulties.

Currently, fluorescent lamps, metal halide lamps, and high pressure sodium lamps are mainly used as light sources for plant cultivation, but new light sources such as electrodeless discharge lamps and LEDs are being developed, and cultivators are also commercialized for plant cultivation. In addition, research on the relationship between plant growth and light revealed that efficient irradiation of light of a particular wavelength promotes plant growth. Therefore, the plant cultivation lighting system needs to be designed in consideration of the light source suitable for the target plant, the luminaire suitable for the cultivation site, the lighting control suitable for the cultivation technology, etc., along with the development of the light source lighting apparatus with good efficiency.

In the Netherlands and Western Europe, where the use of bokwang lamps has been developed, there are many cloudy days due to bad weather in winter. The application of a supplementary lamp is being attempted.

In Europe, the glass greenhouse is about 4 ~ 8m high, which is much higher than Korea's 2.5 ~ 4m, and the lamp is irradiated at a high position in the installation of the beam light lamp. In this case, since the height of the facility itself is low, the survey area is smaller than that of the European facility structure.

In general, when the light lamp is used, it costs about 100 lamps for each 300 pyeong of glass greenhouse, so the purchase cost of the lamp is very high. In addition, when all 100 lamps are turned on, the power consumption is about 500W per lamp. Will be very severe and will be subject to operating costs.

Therefore, considering Korea's climatic conditions, facility structure and current farmer's profit structure, Bogwang lamp facilities in the same way as in Europe are expected to increase the burden on the management costs.

In other words, in the case of fixed light lamps, one lamp should be installed for a certain area of the greenhouse, and thus the number of installations is large, resulting in high construction costs and high power consumption, and maintenance costs according to lamp replacement and parts (stabilizer) replacement. There is a problem that it costs a lot.

This problem is similarly applied to the technique disclosed in Korean Utility Model Registration No. 237038 that uses a fixed high-brightness LED (see FIG. 3).

The present invention has been made to solve the above-described problems, by installing a light emitting lamp suitable for each crop in the traveling mechanism to promote high photosynthesis by irradiating high-efficiency light near the plant while adjusting the running speed, the number of the light emitting lamp It is an object of the present invention to provide a mobile traveling device that can significantly reduce the number.

Another aspect of the present invention is to provide a mobile traveling device that can serve as an unmanned control.

Mobile traveling device of the present invention for achieving the above object is a rail disposed in the house; A traveling mechanism traveling along the rail; It consists of the light-emitting lamp mechanism for plant photosynthesis promotion arrange | positioned at the said drive mechanism.

According to this structure, since the high efficiency light is irradiated close to a plant by installing the light keeping lamp suitable for each crop in a traveling mechanism, the number of light keeping lamps can be remarkably reduced.

In the above-described configuration, it is preferable that the light retaining lamp mechanism is implemented with a vertical stand installed on the traveling mechanism and a plurality of light keeping lamps installed on the vertical stand.

On the other hand, the light beam lamp mechanism is preferably implemented by a horizontal beam installed in the traveling mechanism, and a light beam lamp installed at predetermined intervals on the horizontal belt.

In the horizontal zone, if a medicine bottle for spraying the chemical solution at predetermined intervals is further installed, not only the plant photosynthesis promotion but also an unmanned plant may be performed.

On the other hand, the light beam lamp mechanism is preferably implemented by a horizontal stand installed in the traveling mechanism, a vertical stand provided at each horizontal interval on the horizontal stand, and a light holding lamp installed on the horizontal stand and the vertical stand.

The vertical zone is preferably to be replaced with the medicine bottle for spraying the chemical liquid.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The driving mechanisms described below are Korean Patents (No. 228033, No. 228034, No. 211131) and Korean Patent Application No. (2001-20756). See publication and detailed description is omitted.

Example 1 Mobile Traveling Device Having Horizontally Distributed Beam Light Lamp Mechanism

1 is an installation state diagram of a mobile traveling device having a horizontally distributed light-emitting lamp mechanism. As shown in FIG. 1, the movable traveling device includes a pair of rails 11 and 13 disposed at the center of the house 1, a traveling mechanism 15 and a rail (mounted on the rails 11 and 13). The light-emitting lamp mechanisms 17 and 19 are provided in the traveling mechanism 15 in a direction perpendicular to the planes of 11 and 13. The traveling mechanism 15 and the light compensation lamp mechanisms 17 and 19 are controlled by the control box C / B.

The rails 11 and 13 are disposed below the rail support 21 provided at both sides of the house 1 at predetermined intervals.

The driving mechanism 15 is composed of a body 15a in which a motor is built and a roll 15b receiving power of the motor, and the roll 15b is mounted on the rails 11 and 13.

The light retaining lamp mechanism comprises a horizontal stand 17 provided horizontally on the connecting table 15c of the traveling mechanism 15, and a light retaining lamp 19 provided on the horizontal table 17 at predetermined intervals. The supplementary light lamp 19 is a lamp for promoting plant photosynthesis, and may be implemented as a high pressure sodium lamp or a fluorescent lamp.

In the case of the horizontal spray light lamp, mainly the flowers or leafy vegetables, the light is irradiated from the top of the plant. At this time, it is preferable to cover the reflector 19a so as to concentrate the light toward the plant to prevent the diffusion of light to the upper side.

In this way, the horizontal stand 17 provided with the light-emitting lamp 19 is moved by the traveling mechanism 15, so that photosynthesis of plants can be promoted with a small number of lamps, which is very economical.

Meanwhile, the medicine bar 23 facing the ground may be installed on the horizontal bar 17. It can be seen from the above-mentioned publication that the medicine container 23 is composed of a chemical liquid spray nozzle and a nozzle support for dispensing the chemical liquid to the chemical liquid spray nozzle. Moreover, the horizontal stage 17 is connected to the hose 25 so that it may function as a distribution pipe which supplies a chemical | medical solution with a nozzle support.

Since the medicine stand 23 is provided between the light-emitting lamps 19, it can also function as an unmanned agent.

Example 2 A Mobile Traveling Device Having a Vertically Distributed Beam Light Lamp Mechanism

Figure 2a is a state diagram of the installation of the mobile traveling device for unmanned control is installed medicine rod. As described above, the movable traveling device is connected to a rail 111 disposed below the plurality of rail supports 121, a traveling mechanism 115 traveling along the rail 111, and the traveling mechanism 115. It is composed of a vertical medicine rod 123. The vertical medicine bar 123 is detachably connected to the traveling mechanism 115. Detachable method is preferably implemented by screw fastening method. The traveling mechanism 115 of the second embodiment is driven by driving a pair of rolls disposed between the rails 111.

Instead of the detachable vertical medicine stand 123, by installing the light-emitting lamp mechanism as shown in Figure 2b to 2d, it is possible to promote the photosynthesis of the plant at a low cost.

Modification Example 1

The light-emitting lamp mechanism 130 shown in FIG. 2B is composed of a vertical stand 131 whose one end is fastened and fixed to the traveling mechanism 115, and a fluorescent lamp 133 provided in the vertical stand 131. As shown in FIG. Fluorescent lamp 133 is disposed 2 to 4 lamps in the vertical direction with respect to the ground, it is particularly useful for tall crops.

Second modification

The light-emitting lamp mechanism 140 shown in FIG. 2C is composed of a vertical stand 141 having one end fastened and fixed to the traveling mechanism 115, and a high pressure sodium lamp 143 provided at the vertical stand 141. The high-pressure sodium lamp 143 was installed on the vertical stand 141 to face upward or downward alternately left and right, so that the light can spread widely from side to side. Since light is to be irradiated from side to side, the reflection shade as in Example 1 described above is unnecessary. It is also useful for tall crops.

Third modification

In the case of the light beam lamp mechanism 150 shown in FIG. 2D, a vertical ball 151 fastened to the traveling mechanism 115 is provided as a case of the two-ball high pressure sodium lamp 153. According to this structure, it is a form which can be used for a short crop, and irradiates the plant to the left and right on the about 45 degree direction, and can irradiate the side and upper part of a plant together. In this case, it is preferable to provide the same reflector 155 as the first embodiment.

On the other hand, by adding the chemical liquid spray nozzles between the vertical light beams of the vertical light beam mechanism of the above-mentioned light beam lamp mechanism, there is no need to replace a separate medicine box, so that handling and use are convenient.

The mobile traveling device having a light keeping lamp mechanism for promoting plant photosynthesis according to the present invention can be implemented in various modifications within the range allowed by the technical idea of the present invention without being limited to the above embodiments. For example, in the present embodiment, it will be apparent to those skilled in the art that the light scattering lamp mechanism of the horizontal dispersion type and the vertical dispersion type can be installed in the mobile traveling mechanism.

As is apparent from the above description, according to the present invention, by installing the light retaining lamp in a mobile traveling mechanism, it is possible to reduce the installation cost compared to the fixed light keeping lamp, and to reduce the maintenance cost and power cost according to the installation of a plurality of lamps, The light required for high efficiency photosynthesis can be irradiated. In particular, not only flowers commonly used but also tall fruits and vegetables have a lot of shadows at the bottom due to the height of the plants, so the leaves at the bottom of the plant have a low photosynthetic ability to breathe, which consumes the photosynthetic products made from the leaves at the top. Because it is a negative plant metabolism, it can help photosynthesis by irradiating light to the bottom.

In addition, since the lamp is not fixed in the space where plants grow, it can be illuminated while moving to a blind spot where light does not reach as in the case of fixed type.

In addition, the fixed type irradiates light from about 2 to 3 meters of the plant, while the mobile type irradiates light at a close distance of about 0.3 to 1 m from the plant can increase the irradiation efficiency.

In addition, by employing a medicine stand instead of the light holding lamp mechanism through a simple fastening, it is possible to use as a control device that can spray pesticides and fertilizers, it is also possible to easily carry the harvest through the rail installed.

In addition, by adding a nozzle to the vertical stand of the light-emitting lamp mechanism, there is no need to replace it with a separate medicine, so that it is easy to handle and use.

1 is an installation state diagram of a mobile traveling device of a first embodiment having a horizontally distributed light-emitting lamp mechanism;

Figure 2a is an installation state of the mobile traveling device for unmanned control installed medicine rack.

2B to 2D are perspective views illustrating a light compensation lamp mechanism according to various modifications.

Figure 3 is a state diagram showing a conventional plant photosynthesis promotion device.

* Description of the symbols for the main parts of the drawings *

1: House 11,13,111: Rail

15,115 driving mechanism 17: horizontal platform

19,133,143,153: Bogwang lamp 131,141,151: Vertical stand

23,123: medicine box C / B: control box

Claims (7)

A rail disposed in the house; A traveling mechanism traveling along the rail; A mobile traveling device comprising a light keeping lamp mechanism for promoting plant photosynthesis disposed on the traveling mechanism. The mobile traveling device of claim 1, wherein the light keeping lamp mechanism comprises a vertical stand provided on the traveling mechanism and a plurality of light keeping lamps installed on the vertical stand. The mobile traveling device of claim 2, wherein the vertical stage further comprises a chemical injection nozzle. The mobile traveling device according to claim 1, wherein the light keeping lamp mechanism comprises a horizontal stand provided on the traveling mechanism and a light keeping lamp provided on the horizontal stand at predetermined intervals. The mobile traveling device of claim 4, wherein the horizontal zone is further provided with a medicine barrel for spraying a chemical solution at predetermined intervals. The method of claim 1, wherein the light-emitting lamp mechanism is composed of a horizontal stand provided on the traveling mechanism, a vertical stand provided at the horizontal stage at predetermined intervals, and the horizontal stand and the supplementary lamp installed on the vertical stand. Mobile traveling device characterized by. The mobile traveling device according to claim 2 or 5, wherein the vertical stand is replaceable with a medicine stand for spraying a chemical solution.