RU42876U1 - Irradiator - Google Patents

Abstract

The invention relates to agriculture, in particular to lighting devices of protected ground structures. The objective of the invention is to increase the efficiency of the irradiator, which allows you to effectively irradiate plants for a long time due to the uniform distribution of the flow over the irradiated surface, by adjusting the parameters of the lamp, taking into account changes in its characteristics. The technical result is achieved by the fact that the proposed irradiator, consisting of a housing, a radiation source, a reflective system, is additionally equipped with movable reflective surfaces, which are two radial section plates located on the outer sides of the irradiator body. The movable reflective plates are rotatable through an angle of 90 ° -180 ° formed by the edges of the reflector of the irradiator. The radiation source mounted in the vertical guide grooves is mounted with the possibility of simultaneously moving it and the moving reflective surfaces in opposite directions in the vertical plane. The cartridge 7 for the radiation source 6 is installed in the vertical guide grooves 8, which allows you to change the vertical position of the radiation source 6 relative to the level of the irradiated surface, while changing the position of the moving reflective surfaces (plates) 2.

Description

The invention relates to agriculture, in particular to lighting devices of protected ground structures.

When plants are irradiated, due to unfavorable working conditions in greenhouses, the lamp ages and its flow decreases. In addition, when the reflecting surfaces of the luminaire are dusted and when multiple cleanings are performed, an irreversible change in the light intensity curve of the irradiation installation occurs, which entails uneven irradiation of plants.

Known lightweight reflector for greenhouses, containing a luminous body arranged horizontally, and a housing made in the form of a double cylindrical reflector, which is made of a single sheet, and it has two windows, each with a longitudinal size equal to or greater than the size of the luminous body, and transverse the size from the top of the reflector to the axis of the luminous body. Moreover, the cut-out part of the window is bent from the top of the reflector and can be equipped with a nozzle (AS USSR No. 1756738, F 21 V 7/00, 1990).

The disadvantage of this irradiator is that it does not achieve a uniform flow distribution over the irradiated surface.

A known lamp for greenhouses containing a cylindrical reflector and an extended luminous body located perpendicular to the focal axis of the specified reflector, in which the lamp is located above the center of the irradiated surface. The sides of its light hole are made parallel to the sides of the indicated surface, and the shape of the light hole is similar to its shape, the side surfaces of the reflector are made parabolic with optical axes directed towards the nearest side of the irradiated surface, a hole is made at the top of the reflector for the neck of the luminous body for the radiation source (A.S. USSR No. 1778435, F 21 V 7/00, 1990). The disadvantage of the luminaire is that during its operation the change in its light distribution is not taken into account due to the decrease in the operational properties of reflective surfaces, as a result of which the uniformity of irradiation is violated.

The objective of the invention is to increase the efficiency of the irradiator, which allows you to effectively irradiate plants for a long time due to the uniform distribution of the flow over the irradiated surface, by adjusting the parameters of the lamp, taking into account changes in its characteristics.

The technical result, in contrast to the prototype, is achieved by the fact that the proposed irradiator, consisting of a housing, a radiation source, a reflective system, is additionally equipped with movable reflective surfaces, which are 2 radial section plates located on the outer sides of the irradiator body. The movable reflective plates are rotatable through an angle of 90 ° -180 ° formed by the edges of the reflector of the irradiator. The radiation source mounted in the vertical guide grooves is mounted with the possibility of simultaneously moving it and the moving reflective surfaces in opposite directions in the vertical plane.

Figure 1 presents a General view of the irradiator, figure 2 shows a section of the irradiator along axis AA.

The irradiator comprises a housing 1, on the outer sides of which there are additional movable reflective surfaces 2, consisting of two plates of radial section. The housing 1 on the inner side has a reflecting surface 3. On the upper part of the housing 1 there are mounted fittings 4 and a ballast 5. The irradiator is equipped with a radiation source 6, which is installed in the cartridge 7, with external guide grooves 8. Guide grooves 9 are also made on the side plates for moving the movable reflective plates 2. Between the vertical guide grooves of the cartridge and the guide grooves of the housing are mounted rotary gears 10. The rotary gears 10 are driven by the mount and source of radiation.

The movable reflective surfaces 2 are rotatable through an angle of 90 ° -180 ° relative to the horizontal axis of the irradiator body.

The cartridge 7 for the radiation source 6 is installed in the vertical guide grooves 8, which allows you to change the vertical position of the radiation source 6 relative to the level of the irradiated surface, while changing the position of the moving reflective surfaces (plates) 2.

Thus, the radiation source 6 has the ability to simultaneously move it and the movable reflective plates 2 in opposite directions.

The device operates as follows.

In the initial period of operation of the irradiator, the reflecting surfaces are at an angle of 90 °. During the further operating time of the irradiator, in connection with dusting and cleaning of reflective surfaces, a change in the light intensity curve occurs. When you change the position in the vertical plane relative to the object of irradiation of the adjustable cartridge holder 7 of the lamp 6, in the guide grooves 8, the rotary

gears 9, which, in turn, give movement to reflective surfaces 2. When moving reflective surfaces 2, by changing the angle of rotation relative to the central axis of the irradiator stepwise to a maximum of 180 °, you can adjust the light intensity curve taking into account changes in its light distribution to ensure a given uniformity shape of the light field.

So when you change the angle from 90 ° to 180 °, additional reflecting surfaces (plates) 2 are moved up and at the same time the radiation source 6 along the vertical guide grooves 8 is lowered down and vice versa.

So, when the moving reflective surfaces 2 move, changing the angle of their rotation relative to the horizontal axis of the irradiator from 90 to 180 °, and also simultaneously changing the vertical location of the radiation source 6, you can adjust the light intensity curve to ensure a given uniformity in the shape of the light field.

Thus, the proposed irradiator, in comparison with the prototype, allows for a more uniform distribution of the flow over the irradiated surface over the entire period of operation, taking into account changes in its characteristics, which leads to an increase in the irradiator efficiency.

The proposed irradiator can be easily implemented in agricultural production.

Claims (2)

1. The irradiator, consisting of a radiation source, a housing, a reflective system, characterized in that it is additionally equipped with movable reflective surfaces in the form of two plates located on the outer sides of the housing and made to evenly rotate them through an angle of 90-180 ° relative to the horizontal axis housing with the ability to simultaneously move the radiation source and moving reflective surfaces in opposite directions. 2. The irradiator according to claim 1, characterized in that the movement of the radiation source and the moving reflective surfaces in opposite directions is combined by installing gears for the guide grooves of the cartridge and reflective plates.