RU212090U1 - Reflective screen - Google Patents

Abstract

The utility model relates to the field of lighting engineering and can be used for industrial, domestic lighting, in particular, in confined spaces (wells, mines, trenches, basements). The claimed reflective screen contains LEDs placed in a checkerboard pattern on the canvas, connected to each other and connected by a flexible cable to a current driver with a protective casing. Each LED is attached by soldering its contact pad to the contacts of the printed circuit board sewn onto the fabric with a thread. The cloth is made of elastic nonflammable material. The LEDs are connected in parallel and connected with a flexible cable to the dimmer. At the same time, the sheet with LEDs is inserted and fixed by means of a thread seam in the sheet of elastic non-combustible material in the form of a pillowcase with a zipper with holes for LEDs, a current driver with a protective cover and a brightness control. Holders made of aluminum pipes are fixed in the canvas along the edges. The technical result is the creation of a device for industrial, domestic lighting, including in confined spaces, safe to use. 1 ill.

Description

The utility model relates to the field of lighting engineering and can be used for industrial, domestic lighting, in particular in confined spaces (wells, mines, trenches, basements).

Known diode lamp direct glow projector (patent RU No. 2458284, IPC F21S 8/00, publ. 10.08.2012, Bull. No. 22), which includes a spotlight, a light source made in the form of an LED matrix with a front carrier plate with LEDs, along the perimeter of which there are sides to accommodate the electrical circuit of the lamp. The rear cover of the LED matrix has a dielectric guide that is perpendicular to the front carrier plate. Contacts are made on the bottom of the guide on both sides. The LED matrix may have one, two or more independent light-emitting circuits. The front carrier plate is made of plastic and/or reflective material. For hydro- and electrical insulation, the internal volume of the LED matrix is filled with a thermostatic compound.

A well-known LED lamp (patent RU No. 2572092, IPC F21S 8/00, publ. 27.12.2015, Bull. No. 36), contains several powerful LEDs (C) as light sources, each of which is made with a heat sink substrate, evenly (in rows or staggered) placed at intervals on a printed circuit board on one side of the carrier plate and connected to at least one current driver with a protective cover, and a protective optical diffuser (OP) of light. The size of the gaps between C is selected from the condition of providing for each C at least 7 cm ^{2 of} the surrounding area of the carrier plate, which is made with the possibility of free flow of atmospheric air from the side of suspension or other attachment to the support opposite to the side of the installation of the printed circuit board with LEDs. C can be connected in series and connected with a flexible cable to the current driver. The luminaire can be made with several C groups, in each of which the Cs are interconnected in series and connected by a flexible cable to the current driver. The light OR can be made in the form of a panel with transparent optical lenses for each of the LEDs. The light OR is fixed to the plate with screws through a hermetic temperature and moisture resistant gasket. The light OR with lenses can be made monolithic or in the form of a composite panel. The light OR with lenses can be made of transparent optical polycarbonate. LEDs with a power of at least 1 W can be used.

The disadvantages of the devices are the complexity of installation at the work site in confined spaces, the fragility of the lighting elements.

The technical task is to create a device for industrial, domestic lighting, including in confined spaces, safe to use.

The technical problem is solved by a reflective screen containing LEDs placed in a checkerboard pattern on the canvas, interconnected and connected by a flexible cable to a current driver with a protective casing.

What is new is that the canvas is made of elastic, non-combustible material, and the LEDs are connected in parallel and connected with a flexible cable to the dimmer, while the canvas with LEDs is inserted and fixed with a thread seam in the canvas of elastic, non-combustible material in the form of a pillowcase with a zipper with holes for LEDs, a current driver with a protective cover and a dimmer, in which holders made of aluminum pipes are fixed along the edges.

The figure shows a reflective screen.

The reflective screen contains 1 LEDs, such as SMD LEDs. The LEDs 1 are placed in a checkerboard pattern on the canvas 2, interconnected and connected by a flexible cable 3 to the current driver 4 with a protective casing.

Each LED 1 is attached by soldering its contact pad to the contacts of the printed circuit board sewn onto the canvas 2 with a thread.

Sheet 2 is made of an elastic, non-combustible material, for example, Textel Samba Jewel Exclusive, thanks to a special impregnation, the sheet does not absorb moisture, scatters light well and does not support combustion.

The LEDs 1 are connected in parallel and connected by a flexible cable 3 to the brightness control 5. At the same time, the canvas 2 with the LEDs is inserted and fixed with a thread seam in the canvas 6 made of elastic, non-combustible material (for example, from Textel Samba Jewel Exclusive) in the form of a pillowcase with a zipper with holes for LEDs 1, current driver 4 with a protective cover and brightness control 5. Holders 7 made of aluminum pipes, for example, with a diameter of 25-30 mm, are fixed in the sheet 6 along the edges.

The reflective screen works as follows.

The reflective screen is placed on the holders 7 in expanded form at the object of work for illumination. The current driver 4 is connected to the electrical network in the surrounding area. After turning on the power of the LEDs 1 from the current driver 4, the area is illuminated. If necessary, use the brightness control 5 to increase the brightness of the object illumination.

The reflective screen is convenient for industrial and household lighting, including in confined spaces, and is safe to use.

Claims (1)

A reflective screen containing LEDs placed in a checkerboard pattern on the canvas, connected to each other and connected by a flexible cable to the current driver with a protective casing, characterized in that the canvas is made of elastic non-combustible material, and the LEDs are connected in parallel and connected by a flexible cable to the dimmer , while the canvas with LEDs is inserted and fixed with a thread seam in a canvas of elastic non-combustible material in the form of a pillowcase with a zipper with holes for LEDs, a current driver with a protective casing and a dimmer, in which holders made of aluminum pipes are fixed at the edges.

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