SU1124154A1 - Lighting fixture - Google Patents

Abstract

1. DEVICE LIGHTING,. containing a tubular dielectric optically transparent flexible body and located in it a bush of lamps with mounted washers. In the holes of which electrical conductors are placed, characterized in that, in order to improve the performance characteristics, it is provided with a film reflector placed between the housing and the horn, and an optically transparent flexible tube mounted on the housing with the possibility of rotation, the walls of which have longitudinal areas with different optical density, with each section having the same density along the entire length of the tube, and the length of the tube is not less than the length of the wire. 2. The device according to claim 1., Tl and chaa that the body and the tube are made of fluoroplastic.

Description

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Thebes. 1 I U / /, H The invention relates to lighting engineering, in particular, to lighting devices, and can be used for local lighting, in the cabs of vehicles, controls and instruments, as well as for decorative purposes. A lighting device is known which comprises a tubular dielectrically optically transparent flexible body and a barrel of lamps installed therein with washers installed between them, the electrical openings of which are placed in the joint venture. The disadvantages of the known device are low operating characteristics due to the absence of the possibility of controlling the light distribution and the radiation intensity as well as operating in a wide temperature range. The aim of the invention is to improve the performance. . This goal is achieved by the fact that a device containing a tubular dielectric optically transparent flexible body and a wired lamp arranged in it with lamps mounted between them washers, in the holes of which electrical wires are placed, provided with a film reflector placed between the body and the wire, and optically transparent flexible tube mounted on the housing for rotation, the walls of which have longitudinal sections with different optical density; here each section has the same density over the entire length of the tube, and the length of the tube is not less than the center diameter. In addition, the housing and the tube are made of PTFE. FIG. 1 shows the design of the lighting device; in FIG. 2, section A-A in FIG. 1. The illumination device comprises a tubular dielectric optically transparent flexible housing 1 and located therewith lamps 2, a film reflector 3, dielectric washers Ac with holes for wires 5 and an optically flexible flexible outer tube 6 mounted on the housing having longitudinal sections with different optical densities, for example, varying stepwise through half the circumference of its section. When the device is manufactured, the lamps 2 are assembled into a wire (one after the other), and the wires 5 are passed through the holes in the washers 4. The wire together with the film reflector 3 is inserted into the housing 1. In FIG. 1 shows the parallel connection of lamps 2. The device is convenient to use lamps 2 with soft leads, for example, of the type CMH6-80-2 (subminiature, incandescent 6 B, 80 mA, 2 without base, bulb 3.2 mm in diameter and 7 mm long ). Film reflector 3 can be made of polyester film with one-sided mirror metal coating. The film reflector 3 is inserted into the housing 1 by metal spraying toward the inner wall of the housing 1. By varying the width of the film reflector 3, the light intensity curve of the device can be changed. The washers IV separate the lamps 2 from each other, hold the lamps 2 from displacements inside the Case f, and do not allow the wires 5 to close. The washers 4 also hold the film reflector 3 in the housing 1, act as plugs, prevent the penetration of fluff into the housing 1, and do not produce a core. Pusu 1 is compressed with a slight bend; device in place. The outer tube 6 serves to stepwise adjust the luminous flux of the device. The change in the optical density of the tube 6 is achieved, for example, by applying a different number of layers of paint to its outer surface. For this, the tube 6 is rotated so that its section with the required density (i.e., a sufficiently attenuating luminous flux) is set in the luminous flux path. By varying the width of the reflector 3, it is possible to achieve that the entire emitted light flux passes through one such section of the tube 6. In order to ensure the operability of the device under conditions of high or low temperatures, the housing 1 and the outer tube 6 are made of fluoroplastic, for example of a fluoroplastic tube of type F-4D GOST 22056-76. The choice of the distance between the holes in the washers 4 larger than the outer diameter of the lamps allows the wires to be separated

31124

and thus reduce, compared with the prototype, the likelihood of a short circuit when the device bends during operation .5

The use of a film reflector and a flexible outer tube with different optical densities allows su544

to substantially improve the operational characteristics by allowing the device to control the light distribution of the device and the intensity of radiation during operation in the cabs of vehicles, which improves the working conditions of the drivers and improves traffic safety.

Claims (2)

1. LIGHTING DEVICE,. comprising a tubular dielectric optically transparent flexible housing and a garland of lamps located therein with interposed washers, in the openings of which are electrical conductors, characterized in that, in order to improve operational characteristics, it is provided with a film reflector located between the housing and the garland, and optically transparent flexible tube mounted on the housing with the possibility of rotation, the walls of which have longitudinal sections with different optical density, with each k has the same density throughout the length 'of the tube and the tube length is not less than the length garlands. 2. The device according to p. 1, with t and h ¹ and characterized in that the housing and the tube are made of fluoroplastic.