RU2014121269A - SUNNY MODULE WITH A HUB (OPTIONS) - Google Patents

Abstract

1. A solar module with a concentrator containing a protective coating on which the solar radiation is incident, a semi-parabolic cylindrical reflector with a parametric angle δ with an input and output surface of the rays and a radiation receiver in the form of a strip, the focal region of the semi-parabolic cylindrical reflector is shifted to one side protective coating and coincides with the edge of the strip of the radiation receiver, characterized in that the protective coating is made in the form of a transparent deflecting radiation deflecting system from a set of prisms with an acute angle Ψ between the surfaces of the input and output of the rays, the receiver is mounted in the focal plane between the focal axis and the top of the semi-parabolic cylindrical reflector, the surface of the rays inlet of the deflecting optical system is parallel to the input surface of the rays of the semi-parabolic cylindrical reflector, and the angle of entry of rays β, the acute angle Ψ and the refractive index n of the material of the deflecting optical system are related to the parametric angle δ of the semi-parabolic cylindrical mirror of the second reflector as follows: 2. A solar module with a concentrator according to claim 1, characterized in that the concentrator is made of two symmetric mirrored semi-parabolic cylindrical reflectors with a common two-sided receiver in the plane of symmetry, the protective coating is made of two deflecting beams of counter-optical systems, and the angle between the input surfaces of two deflecting optical systems is Q = 180 ° -2β. 3. A solar module with a concentrator containing a protective coating on the working surface on which the solar radiation falls

Claims (4)

1. A solar module with a concentrator containing a protective coating on which the solar radiation is incident, a semi-parabolic cylindrical reflector with a parametric angle δ with an input and output surface of the rays and a radiation receiver in the form of a strip, the focal region of the semi-parabolic cylindrical reflector is shifted to one side protective coating and coincides with the edge of the strip of the radiation receiver, characterized in that the protective coating is made in the form of a transparent deflecting radiation deflecting system from a set of prisms with an acute angle Ψ between the input and output surfaces of the rays, the receiver is mounted in the focal plane between the focal axis and the apex of the semi-parabolic-cylindrical reflector, the input surface of the rays of the deflecting optical system is parallel to the input surface of the rays of the semi-para-cylindrical reflector, and the angle of entry of rays β ₀ , the acute angle Ψ and the refractive index n of the material of the deflecting optical system are related to the parametric angle δ of the semi-parabolic cylinder mirrors Nogo reflector by the following relation:

2. A solar module with a concentrator according to claim 1, characterized in that the concentrator is made of two symmetric mirrored semi-parabolic cylindrical reflectors with a common two-sided receiver in the plane of symmetry, the protective coating is made of two counter-deflecting optical beams, and the angle between the input surfaces of two deflecting optical systems is equal to Q = 180 ° -2β ₀ . 3. A solar module with a concentrator, containing on the working surface a protective coating on which solar radiation is incident, a semi-parabolic cylindrical reflector with a parametric angle δ and a beam entry and exit surface and a radiation receiver in the form of a strip, the focal region of the semi-parabolic cylindrical reflector is shifted to one side protective coating and coincides with the edge of the strip of the radiation receiver, characterized in that the protective coating is made in the form of a transparent deflecting radiation deflecting system from a set of prisms with an acute angle Ψ between the surfaces of the entrance and exit of the rays, the receiver is mounted in the focal plane between the focal axis and the top of the semi-parabolic cylindrical reflector, the input surface of the rays of the deflecting optical system is inclined to the input surface of the rays of the semi-parabolic cylindrical reflector at an angle Ψ, and the angle between the direction of the entrance of the rays and the entrance surface of the semi-parabolic-cylindrical specular reflector $${\beta }_0^{/}$$

, the acute angle Ψ and the refractive index n of the material of the deflecting optical system are related to the parametric angle δ of the semi-parabolic cylinder reflector by the following relation:

4. A solar module with a hub according to claim 3, characterized in that the hub is made of two symmetric mirrored semi-parabolic cylindrical reflectors with a common two-sided receiver in the plane of symmetry, the protective coating is made of two deflecting optical optical systems, and the angle between the input surfaces of the two deflecting optical systems equals $$Q_2={180}^{\circ }-2{\beta }_0^{/}$$

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