RU51728U1 - INSTRUMENT BACKLIGHT - Google Patents

Abstract

The utility model relates to the field of lighting engineering and is designed to illuminate objects for various purposes and can be used as a backlight for vehicle controls, in particular, controls for heating, air conditioning and ventilation systems in the dark. The objective of the utility model is to create a design for the instrument illumination fiber with increased illumination efficiency and advanced functionality. The light guide of the instrument illumination is made in the form of an elongated light guide plate 1, which is formed with two edge openings 2,3 and a seat 4 for the light source. The light guide plate 1 is formed of more than 5 and less than 6 components arranged in steps and interconnected by adjacent elongated sides 7, 8. A symbol mask 10 is fixed on the outside 9 of the greater 5 and less than 6 components. Seating 4 for a light source and two edge holes 2, 3 are located on the greater 5 part of the plate 1, where between the edge holes 2, 3 a central hole 11 is additionally formed, a seat 12 for a second light source, as well as two elongated elements 13, 14, is located located on the inner side 15 of the greater than 5 parts so that the end portion 16, 17 of each elongated element 13, 14 is made protruding from the greater than 5 parts of the plate 1 into the region of one edge hole 2, 3, respectively, forming an additional light guide circuit.

Description

The utility model relates to the field of lighting engineering and is designed to illuminate objects for various purposes and can be used as a backlight for vehicle controls, in particular, controls for heating, air conditioning and ventilation systems in the dark.

A device for illuminating devices, in particular, a dashboard, is described in US application No. 2004/0066644 (publ. 04/08/2004). A known backlight device includes a display device, which consists of a plate made of composite material, an indicator template with a photoluminescent layer located on the plate and an elongated light source located separately from the backlight device.

A disadvantage of the known design of the device illumination devices is the location of the light source separately from the device, which requires an additional footprint for the light source, while for optimal illumination of a large surface of the device it is necessary to have a sufficiently elongated light source, which entails an increase in the size of the footprint for the light source , which, in turn, is quite problematic in a compact arrangement of devices.

Known optical fiber backlight devices, in particular, the control unit described in the patent of the Russian Federation No. 2149359 (publ. 04/08/2004), taken as a prototype. Known optical fiber installed in the control unit housing separately from the symbols and designations located on a separate front panel is made in the form of an elongated light guide plate formed in the form of two joined, ring-shaped elements on which light-output surfaces are formed and a seat for the light source is formed in the form of an opening located at the junction of the ring eobraznyh elements.

The disadvantage of this design of the instrument illumination fiber is the presence of one light source, the light intensity of which may not be sufficient for efficient illumination of the elongated light guide plate, as well as the location of the fiber separately from symbols and designations, which leads to

reduce the efficiency of their backlighting, as well as the narrow functional purpose of the fiber only for backlighting the front panel symbols.

The objective of the utility model is to create a design for the instrument illumination fiber with increased illumination efficiency and advanced functionality.

The task in the instrument illumination fiber, made in the form of an elongated light guide plate formed with two edge holes and a seat for a light source, is solved by the fact that the light guide plate is formed of larger and smaller components arranged in steps and connected by adjacent elongated sides on the outer side of which is fixed a mask of symbols, while the seat for the light source and two edge holes are located on most of the plate, g between the edge holes, a central hole is additionally formed, a seat for the second light source, as well as two elongated elements located on the inner side of the greater part so that the end section of each element is protruding from the majority of the plate into the area of one edge hole, respectively, forming additional light guide circuit.

The light guide plate is usually made of a transparent optical material.

The character mask can be made of polycarbonate.

The mask of symbols is mainly glued to the light guide plate.

The mask of characters is made, as a rule, self-adhesive.

Each seat for the light source is made mainly in the form of a cartridge.

Each cartridge is made, as a rule, in the form of a hollow cylinder located in the body of the light guide plate, with a bottom part in which a hole is made, protruding from the inside of the majority of the light guide plate and with an open end located in the plane of the outside of the majority of the light guide plate.

Each seat for the light source is located mainly on most of the light guide plate between the central hole and one of the edge holes.

Each footprint for a light source is usually covered by a mask of characters.

On the inner side of the larger and smaller portions of the light guide plate, prismatic portions can be formed, located mainly in the zone of symbols made on the symbol mask.

Each elongated element is made, as a rule, in the form of a petal, extending from one seat for a light source into the area of a nearby edge hole.

The end portion of each elongated element protruding into the region of the edge hole may be made annular.

At least part of the surface of the annular portion of the elongated element, facing away from the inside of most of the light guide plate, is generally provided with a corrugation.

The annular end portion of each elongated element is predominantly coaxial with respect to the perpendicular axis of each edge hole.

Each elongated element is made, as a rule, with the possibility of providing illumination of the control handle.

The central hole is formed mainly with the possibility of installing a control handle in it.

In a smaller part of the light guide plate, as a rule, a through longitudinal elongated hole is made.

Mounting holes are generally provided on the light guide plate.

The above set of features in comparison with the prior art allows us to conclude that the claimed technical solution meets the condition of "novelty." At the same time, the claimed technical solution is applicable in industry, in particular in the automotive industry, therefore, it meets the condition of "industrial applicability".

The utility model is illustrated by the following figures. In Fig. 1, a front view of the instrument illumination fiber assembly with a symbol mask is shown; figure 2 shows a rear view of the fiber optic illumination devices; figure 3 shows a cross section of a fiber in the area of the location of the seat for the light source.

The instrument light guide is made in the form of an elongated light guide plate 1, which is formed with two edge

holes 2, 3 and seat 4 for the light source. The light guide plate 1 is formed of more than 5 and less than 6 components arranged in steps and connected by adjacent elongated sides 7, 8. On the outer side 9 of more than 5 and less than 6 components, a mask of symbols 10 is predominantly pasted. Seating 4 for the light source and two edge holes 2, 3 are located on the greater 5 part of the plate 1, where between the edge holes 2, 3 a central hole 11 is additionally formed, a seat 12 for the second light source, as well as two lengths elements 13, 14, each of which is made on the inner side 15 of the greater than 5 parts, usually in the form of a petal extending from one seat 4, 12 to the area of the adjacent edge hole 2, 3. Moreover, the elongated elements 13, 14 arranged so that the final section 16, 17 of each of which, formed mainly ring-shaped, is made protruding from the greater 5 parts of the plate 1 into the region of respectively one edge hole 2, 3, forming an additional light guide circuit.

In order to avoid light loss outside the fiber, each seat 4, 12 is made in the form of a cartridge, which is formed, as a rule, in the form of a hollow cylinder located in the body of the light guide plate 1, with a bottom part 18 in which a hole 19 protruding from the inner side 15 of the greater 5 part of the plate 1 and the open end 20 located in the plane of the outer 9 side of the larger 5 part of the plate 1. Each seat 4, 12 located on the greater 5 part of the light guide plate 1 between the central hole 11 and one m from the edge holes 2, 3, is covered by a mask of symbols 10. To improve the uniformity of illumination on the inner side 15 of the greater 5 and inner side 21 of the smaller 6 parts of the light guide plate 1, prismatic sections 22 are formed located in the region of the symbols 23 made on the mask of the symbols 10, and facing from the inner side 15 of the greater 5 part of the plate 1, at least part of the surface 24 of the final annular portion 16, 17 of each elongated element 13, 14 is provided with a corrugation 25. In order to expand the functionality, each elongated th element 13, 14, the end portion 16, 17 which is disposed coaxially relative to the axis perpendicular to the edge of each hole 2, 3, configured to provide illumination of the control handle and the central

the hole 11 is formed with the possibility of installing a control handle therein.

In the smaller 6 part of the light guide plate 1, a through longitudinal elongated hole 26 is made, and fastening holes 27 are made on the light guide plate 1.

The light guide plate 1 is made of a transparent optical material, and the symbol mask 10 is made of polycarbonate and, as a rule, is self-adhesive.

Thus, the problem of developing a backlight fiber for instruments with increased backlight efficiency and advanced functionality has been solved.

Claims (19)

1. The light guide of the instrument illumination, made in the form of an elongated light guide plate formed with two edge openings and a seat for a light source, characterized in that the light guide plate is formed of larger and smaller components arranged in steps and interconnected by adjacent elongated sides, on the outer side of which is fixed a mask of symbols, while the seat for the light source and two edge holes are located on most of the plate, where between the edge a central hole, a seat for a second light source, as well as two elongated elements located on the inner side of the greater part so that the end section of each element protruding from the majority of the plate into the region of one edge hole, respectively, forms an additional light guide contour . 2. The light guide of the instrument lighting according to claim 1, characterized in that the light guide plate is made of a transparent optical material. 3. The light guide of the instrument lighting according to claim 1, characterized in that the symbol mask is made of polycarbonate. 4. The light guide of the instrument illumination according to claim 1, characterized in that the symbol mask is glued to the light guide plate. 5. The light guide of the instrument illumination according to claim 1, characterized in that the symbol mask is self-adhesive. 6. The light guide of the instrument lighting according to claim 1, characterized in that each seat for the light source is made in the form of a cartridge. 7. The instrument illumination fiber according to claim 6, characterized in that each cartridge is made in the form of a hollow cylinder located in the body of the light guide plate, with a bottom part in which a hole is made that protrudes from the inside of the majority of the light guide plate and has an open end located in the plane of the outside of most of the light guide plate. 8. The instrument backlight fiber according to claim 1, characterized in that each seat for the light source is located on most of the light guide plate between the central hole and one of the edge holes. 9. The instrument backlight fiber according to claim 1, characterized in that each seat for the light source is covered by a mask of symbols. 10. The instrument illumination fiber according to claim 1, characterized in that prismatic sections are formed on the inner side of the larger and smaller parts of the light guide plate. 11. The instrument illumination fiber of claim 10, wherein the prismatic sections are located in a zone of symbols made on a symbol mask. 12. The instrument illumination fiber according to claim 1, characterized in that each elongated element is made in the form of a petal extending from one seat for a light source into the area of a nearby edge hole. 13. The light guide of the instrument illumination according to claim 1, characterized in that the end portion of each elongated element protruding into the region of the edge hole is made annular. 14. The instrument illumination fiber according to claim 13, characterized in that at least part of the surface of the annular portion of the elongated element facing from the inside of the majority of the light guide plate is provided with a corrugation. 15. The instrument illumination fiber according to claim 13, characterized in that the annular end portion of each elongated element is located coaxially relative to the perpendicular axis of each edge hole. 16. The light guide of the instrument illumination according to claim 1, characterized in that each elongated element is configured to provide illumination of the control handle. 17. The instrument backlight fiber according to claim 1, characterized in that the central hole is formed with the possibility of installing a control handle therein. 18. The light guide of the instrument illumination according to claim 1, characterized in that a through longitudinal elongated hole is made in the smaller part of the light guide plate. 19. The light guide of the instrument lighting according to claim 1, characterized in that the mounting holes are made on the light guide plate.