RU177561U1 - LED LAMP - Google Patents

Abstract

LED lamp can be used as a light source in office, retail, industrial, residential premises, in corridors, on landings and other common areas. The luminaire contains a rectangular housing made of transparent multilayer cellular polycarbonate. In the upper part of the body, recesses and longitudinal grooves are made along the ribs of cellular polycarbonate. In the grooves by moving installed printed circuit boards with LEDs directed inside the case. The ends of the printed circuit boards are fixed by covers of the U-shaped profile, which are tightly worn on the ends of the case. On the inner surface of the lower honeycomb of the housing along the edges of the cellular polycarbonate can be made parallel notches. Multiple stiffening ribs of the multilayer cellular polycarbonate from which the lamp housing is made, as well as the notches on the inner surface of the lower cells of the housing reflect the light emitted from the LEDs, and thereby provide a high light-scattering effect. The LED lamp is technological and easy to manufacture. 1 s.p. f-ly, 1 ill.

Description

The utility model relates to the field of lighting engineering, and more specifically to LED lighting devices that can be used as a light source in office, retail, industrial, residential, corridors, stairwells and other common areas.

LED lighting devices are widely used due to their inherent advantages - high light output, low power consumption, long life, high security, compactness, resistance to mechanical stress, light purity and directivity of radiation.

Known LED lamp with an optical element according to the patent for utility model RU 110814, IPC F21S 13/00, publ. 11/27/2011, which contains a U-shaped elongated body made of heat-removing material having fins on the outer surface. The front and rear walls of the housing are hermetically sealed by an optically transparent diffuser made of glassy material. Two boards with LEDs installed on them, four side mirror reflectors, the upper edges of which are adjacent to the inner surface of the transparent diffuser and the inner side planes of the U-shaped elongated case, are placed in the inner cavity of the case. Each of the mirror reflectors is located on the installation side of the LEDs on the edges of the elongated sides of the boards and connected to them. Each of the printed circuit boards with LEDs is connected to the inner side planes of the U-shaped elongated body through unequal corners that are connected to the mirror

reflectors common fasteners. The lamp has increased reliability, but has a complex structure.

Armstrong LED luminaires of the SDPO-418.02-PC, 418.03-PC, 418.04-PC, 418.11-PC, 418.13-PC series LEDs intended for installation in the ceiling are known. They contain a universal metal housing in which the light modules are enclosed, and a diffuser made of cellular polycarbonate. The disadvantage of luminaires is the presence of a metal casing, which increases the cost and weight of the lamp.

Known LED lamp with an optical element according to the patent for utility model RU 160204, IPC F21V 7/04, publ. 03/10/2016, which contains the base, a transparent optical element that forms the light flux, two LED modules and a power source. A reflector is used as a base, on which a transparent optical element is mounted. On the upper surface of the optical element, parallel rectilinear notches are made. The LED modules are attached to opposite ends of the transparent optical element, while the notches of the transparent optical element are made in such a way that the angle between the lines of the notches and the directions of the light flux is 90 °. In the particular case, the luminaire according to RU 160204 contains a diffuser attached to the reflector base, and an optical element, LED modules and a power source are located under this lid. The notches on the transparent optical element allow a more even distribution of the light flux. The disadvantage of the lamp is its inadequate protection against dust and moisture.

Closest to the claimed LED lamp is a LED lamp according to the patent for utility model RU 149406, IPC F21S 8/00, publ. 12/27/2014, which is taken as a prototype.

The LED lamp according to RU 149406 includes a housing in the form of a single-layer cellular polycarbonate, several printed circuit boards with LEDs, a heat sink, a reflector and a diffuser. Printed circuit boards with LEDs are placed inside the cavities of cellular polycarbonate and connected to heat sinks through the walls of cellular polycarbonate. Reflectors are placed in adjacent cells of the case, located along the diagonals of the cells parallel to the LED bars (printed circuit boards with LEDs). The diffuser is mounted on the outer plane of the cellular polycarbonate on the side of the LEDs. On the back side of cellular polycarbonate, a reflector made of a matte film with a high reflection coefficient and a heat sink are installed. The whole structure is fastened at the ends with a U-shaped plastic profile, which increases the stiffness of the lamp and improves its dust-moisture protection. Through the use of cellular polycarbonate, the cost of the lamp housing and its weight are reduced. The installation of LED printed circuit boards inside the cells of cellular polycarbonate and a reflector system increase light output. However, the proposed arrangement of reflectors and printed circuit boards with LEDs complicate the technology of manufacturing the lamp, its assembly and repair.

The technical problem and technical result solved by the utility model consists in increasing the manufacturability of the lamp by simplifying (facilitating) its assembly with a simultaneous increase in the mechanical strength of the lamp.

The inventive LED lamp, as the lamp of the prototype, contains a housing made of transparent honeycomb polycarbonate, printed circuit boards with LEDs directed inside the housing, and end caps.

To solve a technical problem, the housing of the inventive lamp, in contrast to the prototype, the upper part of its housing has

recesses for printed circuit boards with LEDs and side grooves oriented along the edges of cellular polycarbonate. The indicated printed circuit boards are installed in the grooves by moving. The ends of the printed circuit boards are fixed with end caps, which are made in the form of covers of a U-shaped profile, tightly worn on the ends of the case. In a particular case, parallel notches can be made on the inner surface of the honeycomb casing along the ribs of the honeycomb polycarbonate, which enhance the light-scattering effect.

The implementation of the recesses and side grooves on the walls of the housing for installing printed circuit boards with LEDs and fixing their ends together with the housing with end U-shaped covers simplify the assembly of the lamp and thereby ensure the manufacturability of the lamp. Such installation of printed circuit boards and their fixation simultaneously increase the mechanical strength of the lamp.

In the information sources, no LED lamps were found that possess the entire set of essential features characterizing the claimed utility model. This confirms the novelty of the claimed LED lamp.

The utility model is illustrated in the drawing, which shows a General view of the LED lamp.

The lamp is a product consisting of several parts interconnected by assembly operations and located in a functional and constructive unity. It consists of a housing 1, rectangular printed circuit boards 2 on an aluminum base with sequentially soldered LEDs and end caps 3. Housing 1 can be made of a single-layer or multi-layer transparent honeycomb polycarbonate made by extrusion. In the upper part of the housing 1 there are recesses and grooves 4 for mounting printed circuit boards 2 with LEDs directed inside the housing 1. LEDs in the drawing

not shown. On the inner surface of the lower cells of the housing 1 along the ribs of honeycomb polycarbonate parallel to the ribs can be made notches. End caps 3 are made in the form of covers of a U-shaped profile and are designed to fix the printed circuit boards 2 in the housing 1 and to protect the internal volume of the lamp from dust and moisture.

The utility model is industrially applicable. In the manufacture of the lamp using well-known materials and semiconductor devices manufactured by industry. Assembly of the lamp is as follows. By extrusion, a housing 1 is made with recesses, the width of which corresponds to the width of the printed circuit boards 2, and longitudinal grooves 4. In the grooves 4, the ends of the printed circuit boards 2 are installed with the LEDs pointing down. Then the printed circuit boards 2 are moved until they are fully installed in the housing 1. This design makes it easy to assemble the lamp and replace the printed circuit boards 2 if necessary. After installing the printed circuit boards 2, end caps 3 are put on both ends of the housing 1, thus fixing the printed circuit boards 2 in the housing 1. The printed circuit boards 2 installed along the entire length of the housing 1 in the poses 4, the ends of which are fixed in the housing 1 with the end caps 3, increase the strength of the lamp. When using the lamp, they turn on the power switch, and the electrical energy through the wiring goes to the LEDs. LEDs emit light that passes through the transparent partitions of the housing 1, is reflected from multiple stiffening ribs of cellular polycarbonate and is directed towards the main radiation of the LEDs. The light-scattering effect resulting from reflection creates a light field that is comfortable for the eyes. If there are notches on the inner surface of the cells, the light emitted by the LEDs is reflected additionally from the notches and the light-scattering effect is enhanced. Thus, the inventive LED lamp, performing its functions of providing emitted light, is easy to manufacture (assembly) and has high mechanical strength.

Claims (2)

1. An LED lamp comprising a rectangular housing made of transparent honeycomb polycarbonate, printed circuit boards with LEDs directed inside the housing, and end caps, characterized in that the upper part of the housing is made with recesses and side grooves oriented along the edges of the honeycomb polycarbonate, into which are mounted by moving printed circuit boards with LEDs, while the ends of the printed circuit boards are fixed with end caps made in the form of covers of a U-shaped profile, tightly worn on the ends of the case. 2. The LED lamp according to claim 1, characterized in that parallel notches are made on the inner surface of the housing cells along the edges of the cellular polycarbonate.

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