RU2650989C1 - Illuminating construction component with high light transmittance - Google Patents

Abstract

FIELD: lighting equipment.

SUBSTANCE: invention relates to the field of lighting equipment and refers the illuminating construction component with high light transmittance. Construction component contains a transparent polymer outer layer and a lower protective layer from the transparent polymer. At the level of the transparent polymer middle layer, LED tape connected to a current source is placed inside. Metal strip enables the inner frame creation with the transparent part internal cavity made of epoxy or polyester resin, and contains a glass filler. Metal frame outline dividing strip with the mosaic elements makes an increase in the images light output towards the glass filler arrangement in such a way, that intra-volume light-diffusing light is produced directed towards the transparent part upper layer while experiencing a complete internal reflection in the transparent object. Since the LEDs electrical connectors are located at the bottom in the center near the luminous part bottom, the electrical connectors do not block the light emitted by the luminous element. Due to the possibility of the LEDs placing in a double circuit and connected to current source control unit terminal wires, the illumination elements illumination range is increased and the intra-volume part contrast for various conditions is formed, in particular evening or night time.

EFFECT: electrical connection between the connecting LEDs with a double circuit with an illuminating construction component is distinguished by the construction component increased reliability and quality.

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Description

The invention relates to the field of lighting and landscape science and can find applications for lighting residential and office buildings, lighting or decorating facades, as well as for marking or decorating paths, sidewalks, terraces, landscape designer sites in city parks and suburban areas.

In the analysis of scientific and technical information, the authors found technical solutions that partially solve the problem.

A luminous building component is known, made of a transparent material (polymer) filled with glass chips, in the form of a block or brick, to which a light source is located, located in the lower part of the part (Patent EP No. 2438250, B32B 17/06, 2012). The item is an illuminated “glass stone” made of transparent plastic and filled with glass chips (glass break) or glass sand. It contains at least 50% of the volume of the glass filler and its amount can reach 90%. As a polymeric material, the part can be made of polyethylene, or epoxy resin, or polyarylates, or silicone rubber. At least one LED as a light source is placed inside the part in the cavity formed between the two parts of the part (on page 2 of the description). In the same cavity, a reflector for enhancing illumination and a power element can be placed. The part is more durable than glass building parts and allows you to recycle glass.

However, the specified building part with a large amount of glass filler is quite fragile and therefore not safe during operation: it breaks into pieces upon impact, and fragments that can injure are separated.

There is no uniformity of illumination of the part, and there is no heat sink for the LEDs; the latter reduces the time of trouble-free operation. Thus, lighting efficiency is limited by operational capabilities, i.e. the well-known luminous building block is costly, inefficient and does not provide effective lighting, in addition, it causes its frequent overhaul associated with the construction object as a whole.

Known luminous building detail made in the form of floor or paving slabs, wall or ceiling tiles, plinths, parquet, panels or borders, having installed on the basis of the part, at least two LEDs with the opposite direction of the light flux, and also located on the base phosphor layer. LEDs direct the luminous flux to the phosphor layer, during which a good illumination of the surface is achieved without increasing energy consumption (Patent PM RU No. 71666, ЕСС 15/00 dated 03/20/2008).

A disadvantage of the known solution is that the application of the phosphor on the basis of the part reduces the temperature of the layer, which entails insufficient light output of the phosphor. In addition, the base with the coating of the phosphor is charged unevenly, since its parts are at different distances from the LED and, therefore, the glow looks uneven. In addition, there are no components in the design that allow in winter conditions to maintain the temperature inside the part, which ensures the operability of the LEDs, therefore, this part does not have sufficient reliability when working in the open air, especially in the autumn-winter period. In this case, there is no color-compositional solution to the details of the mosaic structure as a whole. In addition, there is no shape of the metal frame in the form of a closed loop in which the glass filler is placed, and there are no interconnections between mosaic elements (drawings) and luminous LEDs on it (from the inside), which is associated with its working width to accommodate the double circuit of the LEDs, Compared with the proposed technical solution.

Known luminous paving slabs containing inside the lighting elements that are installed with the possibility of light output to the surface, interconnected and connected to the control circuit (Patent PM RU No. 94239, E01C 15/00, E01F 9/00 from 05/20/2010).

The disadvantage of the described luminous paving slabs is the low reliability in the autumn-winter period at low temperatures. Another disadvantage is the insufficient brightness and contrast of the resulting lighting, and it is also not economical and difficult to constructively manufacture.

The closest analogue (prototype) to the claimed luminous building part is a building part having a layer containing a filler in the form of glass chips, an additional outer polymer layer not containing filler, at least one LED placed on a conductive tape laid inside the polymer mass the perimeter of the part at the level of the layer containing the filler, and the possibility of lining with silicone plastic on all sides except the front side (Patent PM RU No. 129517, E01F 9/00 of 06/27/2013).

The specified tile has sufficient mechanical strength so that it can be operated as paving slabs. The placement of the LEDs so that the light flux is directed inside the product creates the effect of diffused glow due to glass chips. The part is completely tight, which allows its use in conditions of high humidity and under water.

Despite the fact that the known building block has a glow function, the LEDs placed on the tape can be additionally equipped with a non-conductive current frame, however, the lighting efficiency is degraded, i.e. not bright enough when using a single LED. In addition, in such a device there is no interconnection of mosaic elements on a non-conductive frame that limits the glass chips placed inside it flush with the base of the part. Thus, there is no increase in light output and an improvement in its multiplicity and expressiveness inside the contour of the frame, and it is difficult to predict the final result of the product. In addition, there is no technology with double contour optical fibers, if the circuit of one of the LEDs ceases to work for some reason, then switching on is impossible until troubleshooting or its replacement completely, i.e. will lead to a violation of lighting, is therefore costly and does not provide increased lighting efficiency.

The objective of the invention is to provide an improved design of a luminous building part with high light transmission, in which the electrical connected LEDs with the work of a non-conducting frame current do not interfere with the propagation of light emitted by the luminous element, and in which the design of the electrical connections is simplified, as a result, the manufacturing cost should be reduced luminous building parts and created a structure that is not susceptible to damage, the reliability of its work, and that also taking into account the quality of the product as a whole.

The technical result is achieved by the fact that a luminous building component with high light transmission, made of a transparent polymer based on epoxy or half-ester resin, having an upper outer layer of polymer, an intermediate layer of polymer filled with glass chips, a lower protective layer of polymer, a light source and a metal frame, the latter is equipped with at least one or two electrical circuits, each of which is respectively connected to a variety of incoming electrical connecting elec contacts coming into contact with the control unit of the wire current source, to which the upper, lower or a group of LEDs are connected, for example, arranged in a double circuit in parallel in two rows - the upper and lower levels, mounted on a closed metal frame, mounted with the case body, the source power supply, and the electronic circuit of each group of LEDs passes along the edges of the periphery of the closed metal frame, while the inner part of the closed metal frame forms at least one dividing strip, mosaic different colors of the elements, for a closed circuit and the creation of combined colors in the opposite direction of their light fluxes to each other and the impact of light fluxes on the reflecting parts of the dividing strip.

This embodiment of the luminous building part with high light transmission compared with the prototype allows connecting elements with LEDs located on the tape, fixed along the contour of the metal frame and placed around the perimeter of the part at the level of the layer containing the filler, may have an additional light source in the form of a dividing luminous mosaic strip on a metal frame that can be easily applied by any known method, which contributes to better lighting in general, with electrical connectors With the use of technology elements, for example, a double circuit of LEDs, additionally ensure the reliability of the part. In this case, both luminous elements of both a single ribbon and a second ribbon connect their circuits to the power source of each group of LEDs on the periphery of a closed metal frame and enter the contact of illumination of the directed radiation towards the glass filler. When each of the LED strips is turned on, the insulating coating prevents the electrical connection of the electronic circuit at the same time, located around the perimeter of the part at the level of the layer containing the filler, mounted on a metal frame with a dividing closed light strip (line), which can contain at least two colors without violating the integrity of the closed contour of the part.

Another positive side is the efficiency, which is related to the fact that the contact of the control panel contains at least several rows of wires with a power source of a given minimum voltage, fixing the position of the LED strip and the connection with the dividing strip (line) on the metal frame.

Thus, a causal relationship is ensured between the set of distinctive features of the claimed invention and the achieved technical result: regulation of the radiation source and a transparent object, in particular due to dividing light strips on a metal frame and groups of both single and double circuit LEDs, using it high returns with high light transmission to each other towards the filler, as well as with the ability to perform the function of turning off one tape and turning on another or group with about LEDs, and thereby ensure reliability, if one of the circuits stops working, then the second spare circuit is turned on.

In FIG. 1 is a side view of a light guide building component; in FIG. 2 is a side view of a building part including an LED strip with a dividing strip on a metal frame; FIG. 3 is a plan view of the detail of FIG. 2.

A luminous building with high light transmission includes an outer layer 1 of a transparent polymer, a layer 2 made of the same polymer as layer 1 and containing glass chips, and a lower protective layer 3 of transparent polymer that does not contain glass filler. At the level of layer 2, an LED strip 4 is placed, connected to a current source by a wire 5, which is covered on the outside with a metal frame 6. On the inner plane of the frame 6 there is a contour (dividing strip) that can be made of at least one on a closed metal frame 6, while in this case, the given mosaic lighting contour creates the possibility of placing different colors on the frame 6 itself, i.e. the possibility of a combined glow.

The layers of the luminous building part are made of a transparent polymer, such as epoxy or polyester. The resin may be colored. Layer 2 contains glass filler in the form of glass chips (glass breakage or glass sand).

Additionally, on the inner surface of the metal frame 6, a luminous dividing strip 7 (dividing circuit) is applied along the contour, as well as the possibility of using two electrical circuits of the connecting elements and placing the LEDs in a double circuit, each of which is connected to the control unit (not shown) wire current source.

As a use of the dividing strip 7 in the form of a mosaic of various colors of the elements, these light fluxes act on each other together with the emission of the LED strip by a beam of rays towards the layer of glass filler.

The lead 5 is displayed in the center of the bottom of the product and is connected to the control converter unit (for example, a switch is not shown).

Thus, the dividing strip 7 (contour) can have a different color and in turn also serves as a light reflector, which enhances the overall glow of the part, and a unique holistic mosaic pattern appears, emphasizing the harmonic composition of the selected material and achieving a specific effect compared to the known device .

It should be noted that the dual-circuit technology of LEDs ensures reliable operation of the proposed technical solution, even for a reason independent of the human factor, to work with the inclusion of another circuit circuit both individually and as a whole group together.

Low power consumption of the lamp from 0.96 Volts to 12 Volts, has low-current power, which means it saves energy and reduces the cost of manufacturing luminous building parts with high light transmission; increases the range of illumination of luminous elements. In addition, it is not subject to the destruction of detergents and other water processes that occur in nature in the open air.

A new approach to new developments of the luminaire provides application at temperatures from -30 ° C to + 50 ° C, and the upper plane has a roughness, the angles of which form a volumetric element of the mosaic pattern.

Thus, the edges in the form of roughnesses on top of the part (object) will only lead to an increase in light output and an improvement in its contrast and expressiveness in the nature of the landscape of the constructed object. At the same time, despite the low power consumption, the beam of illuminating radiation, which is sent to the glass filler, when the conditions of total internal reflection are met, forms the contrast of the volume part, which increases and is clearly visible in various conditions of both day and night vision; The effect of a bright glow of the part is achieved.

Experienced manufacture of the proposed parts proved its effectiveness and fully confirmed its widespread introduction into production, made of well-known structural materials. The greatest effect will be achieved in the evening or at night, as this allows you to best control the color characteristics of the emitter, changing the connection scheme of single, double or group use of LEDs through the use of a power supply with a current switch (not shown), i.e. for each of them as a whole. The use of this invention allows to improve operation and to create the ability to control both the intensity and the spectrum of volume radiation through separate circuits of the power LEDs with a minimum voltage and in the presence of a dividing strip on a metal frame.

Claims (2)

1. Luminous building part with high light transmission, made of a transparent polymer based on epoxy or polyester resin, having an upper outer layer of polymer, an intermediate layer of polymer filled with glass chips, a lower protective layer of polymer, a light source and a metal frame, characterized in that the metal frame has an additional light source in the form of several parts of the coating with dividing light stripes of the mosaic for a closed contour of the metal frame and a group of single primary or double circuit of the LEDs associated with the power source through the control unit with the ability to turn on one or several groups of LEDs using the radiation source from the dividing stripes of the mosaic. 2. The light building detail according to claim 1, characterized in that the outer layer of the transparent part on top is roughened with a coating that changes transparency under the action of a source of internal radiation of a combined color.

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