RU73090U1 - LENS - Google Patents

Abstract

The invention relates to collecting optical devices designed to supply a light signal, and can be used to work with light sources emitting a pre-formed light stream, for example LEDs. The objective of the utility model is to simplify the design and size of the lens used in combination with light sources that emit a pre-formed luminous flux, such as LEDs. The lens has a plan in the form of a disk, cylinder or part thereof, and in cross section it represents sections of spherical and peripheral surfaces. The surface of the peripheral section is parallel to the inner rectilinear surface and is made with a constant section. All this allows to achieve a technical result, namely, to reduce the material consumption of the lens, to increase its operational properties and economic indicators. 3 C.p.F., 2 ill.

Description

The invention relates to collecting optical devices designed to supply a light signal, and can be used to work with light sources emitting a pre-formed light stream, for example LEDs.

The closest known device is a Fresnel lens (Karyakin N.A., Lighting devices of the projector and projector types, M., 1966). A lens including an inner ruled surface and an outer surface containing spherical and peripheral regions. The peripheral sections in the Fresnel lens are made ribbed - the condenser part.

A drawback of the existing cylindrical Fresnel lens used in combination with light sources emitting a pre-formed luminous flux is the presence of a condenser part in its design, since the appearance of these light sources, for example, LEDs having their own lens and emitting a pre-formed luminous flux, the condenser part has disappeared, because the light flux propagates and enters directly onto the lens forming surface, from where it is distributed in accordance with emymi parameters. In addition, the Fresnel lens has a complex surface that complicates maintenance.

The objective of the utility model is to simplify the design and size of the lens used in combination with light sources that emit a pre-formed luminous flux, such as LEDs.

The technical result is to reduce the material consumption of the lens, increase their operational properties and economic indicators.

The task and the specified technical result are achieved by the fact that in the lens including the inner ruled surface and the outer surface containing the spherical and peripheral sections, according to the utility model, the surface of the peripheral section is parallel to the inner ruled surface and is made with a constant section. Moreover, the lens in the plan is made in the form of a disk, cylinder or part thereof. The inner ruled surface of the lens in the form of a disk or its parts is made flat, and the inner ruled surface of the lens in the form of a cylinder or its parts is cylindrical.

The execution of the peripheral sections parallel to the inner ruled surface with a constant cross section reduces the surface of the lens, and hence the weight. Due to this, a technical result is achieved - a reduction in material consumption, and, therefore, the design and maintenance of the lens is simplified. At the same time, the lens is more technological in manufacturing and easier to maintain. The peripheral parts are also used to fix the lens in the lamp, which simplifies its installation.

The device is illustrated by drawings, where in Fig.1. the distribution of the light flux from a color source emitting a pre-formed light flux in a disk lens is shown; figure 2 - the distribution of the light flux from a color source emitting a pre-formed light flux in a cylindrical lens.

The lens includes an inner ruled surface 1 and an outer surface 2 containing spherical 3 and peripheral sections 4. The surface of the peripheral section 4 is parallel to the inner 1 rectilinear surface and is made with a constant cross section. Lens

made in the form of a disk, cylinder or part thereof. When making the lens in the form of a disk or its parts, the inner ruled surface 1 is flat. When making the lens in the form of a cylinder or its parts, the inner ruled surface 1 is cylindrical. The light source 5, for example LED, may consist of one or more light emitting elements located in the focal plane of the lens.

The luminous flux from the light source 5, falling on the spherical part of the lens 3, changes its direction and subsequently propagates in accordance with the characteristics of the lens. The lens is fixed to the structural elements of the lamp by the peripheral sections 4. The lens design requires less cleaning costs from dust.

This device is at the manufacturing stage.

Claims (4)

1. A lens comprising an inner ruled surface and an outer surface containing spherical and peripheral sections, characterized in that the surface of the peripheral section is parallel to the inner rectilinear surface and is made with a constant section. 2. The lens according to claim 1, characterized in that it is in plan made in the form of a disk, cylinder or part thereof. 3. The lens according to claim 1 or 2, characterized in that the inner ruled surface of the lens in the form of a disk or its parts is made flat. 4. The lens according to claim 1 or 2, characterized in that the inner ruled surface of the lens in the form of a cylinder or its parts is cylindrical.