RU129191U1 - CASE-FREE LED LAMP - Google Patents

Abstract

1. An open-type LED lamp for use as a replacement for direct tubular fluorescent lamps in luminaires, including a board with LEDs, a radiator, a diffuser, contact plugs and connectors, characterized in that the function of the lamp is performed by a set of radiators and plates made of a heat-dissipating composite. 2. A caseless LED lamp according to claim 1, characterized in that the radiators and plates are connected to each other using curly locks according to the principle of the puzzle. 3. Chipless LED lamp according to any one of claims 1 and 2, characterized in that the LEDs are rigidly fixed to the lower surface of the radiators in rectangular recesses. 4. An open-type LED lamp according to any one of claims 1 to 3, characterized in that at least one high-power LED can be mounted on each radiator. 5. Unpacked LED lamp according to any one of claims 1 to 4, characterized in that the LEDs are covered with a matte diffuser. 6. Chipless LED lamp according to any one of claims 1 to 5, characterized in that metal strips are fixed on the sides of the radiators and plates on both sides along the entire selected length of the lamp. Unpacked LED lamp according to any one of claims 1 to 6, characterized in that plates with a built-in electric plug are mounted on the ends of the lamp.

Description

Utility Model Application Field

Unpacked LED lamp is intended for use as a replacement for direct tubular fluorescent lamps of sizes T4, T5, T8 in lamps for various purposes. The use of a set of radiators as the lamp body allows the lamp to be of the required length and type of standard socles or another configuration independent of the lamp. The thermal conductivity of the radiator parts makes it possible to select the luminous flux of the lamp for luminaires installed at different heights.

State of the art

Known tubular LED light source (patent RU 113329 U1) containing a transparent tube with a radiator installed along the tube

on which a board with a diode circuit is fixed, having pin contacts in the form of two conductive plugs

In the specified tubular LED light source, it is assumed to use a special electrical circuit, which leads to an increase in the complexity during the installation of the specified light source.

Known LED lamp for fluorescent lamps

(patent RU 104277 U1) containing an electric board, with light emitting diodes located on it, connected in the working position to the power source, means for fixing and holding the LED lamp in the working position, in which the LED boards are attached to the base. At the same time, the diffuser of a fluorescent lamp or its reflector is used as the basis for mounting LED boards.

The LED lamp, in addition, contains additional terminals for inclusion in the electrical circuit of the lamp. This technical solution does not contain information about the heat sink in the case of the use of high-power LEDs in large fluorescent lamps and involves some refinement of the elements of the lamp housing, which increases the complexity of its implementation.

Also known is a LED tube lamp with a standard G-13 socket (www.avante-cest.ru/lamp/). A large number of LEDs are located inside the tube on an aluminum radiator, the number of which determines the lamp power from 8 to 28 watts for all sizes of replaceable fluorescent lamps. The disadvantage of this lamp is its relatively high cost.

Utility Model Disclosure

A utility model - an open-frame LED lamp - is a set of a certain number of separate identical elements connected to each other according to the principle of a puzzle in the form of a ruler. Each individual element consists of a needle radiator made of a heat-dissipating polymer composite (TRPC) - plastic, on the plane of which, in a special rectangular recess, powerful LEDs are installed on an aluminum board, which can be equipped with optical lenses. Special recesses are covered with frosted diffuser windows. At the ends of each element, for its reliable connection with another element, shaped lock protrusions are made. Each element has embedded conductors for electrical connection of boards with LEDs in one electrical circuit. To ensure sufficient mechanical strength of the assembled open-frame LED lamp from individual elements, the entire structure is reinforced with aluminum or steel strips along the entire length of the lamp structure. For installation (replacement of a fluorescent lamp of all sizes), plugs similar to the standard G-13 connector of tubular fluorescent lamps made of composite plates without fins are made at the ends of a frameless LED lamp. Such plates can also be additional elements of the luminaire assembly, depending on its length and different power of the LEDs used, providing a given illumination of a particular type of luminaire or a replaceable fluorescent lamp.

Radiators from TRPK are not inferior in technical parameters to aluminum radiators. Their manufacturing technology provides high accuracy, does not require additional machining of parts, which reduces the cost of the latter. Radiators of their TRPC are twice as lighter than aluminum, as well as two times cheaper, in addition, plastic can be painted in different colors giving the product a more artistic look as a whole.

Brief Description of Utility Model Drawings

Drawings of a utility model are presented in figure 1. Figure 1 shows a General view of a utility model in two projections and one enlarged section.

Utility Model Implementation

The design of the utility model — a frameless LED lamp — is shown in FIG. 1, consists of a set of basic elements / 1 / and the required number of additional elements / 2 / connected to each other using curly locks according to the puzzle principle, while the main element is a radiator with needle finning / 8 /, and the additional element is made in the form of a plate of the desired size. Elements are made of heat-dissipating polymer composite. In order to ensure the mechanical strength of the LED luminaire assembly assembled from the elements from the sides, fixing metal strips / 3 / are used with screws / 7 /.

Each main element / 1 / has a rectangular recess in which an aluminum mounting plate / 4 / is mounted on which high-power LEDs / 5 / are mounted, the rectangular recess can be closed with a matte diffuse diffuser / 6 /. The ends of the assembled luminaire are equipped with contact plugs / 9 /, which in terms of overall dimensions are analogous to the standard base G-13 of fluorescent lamps.

The electrical circuit of the LEDs is selected parallel. To ensure current stabilization, special drivers and compensation resistors are used. The power supply for LEDs is supposed to be installed directly in the housing of the modernized fluorescent lamp.

A utility model - an open-frame LED lamp - in terms of the combination of optical, electrical, as well as resistance to climatic effects, meets the requirements of the standards of the Russian Federation and the EU. The utility model ensures compliance with all operational and lighting parameters of modern samples of LED technology, including selected analogues, in addition, it has several advantages, including simplicity of design and the attraction of new advanced materials, in particular plastics, which significantly reduce the cost and weight of the product. The main parameters of the utility model are given below.

- Overall dimensions, mm)  30 × 45 × 600-1500 - Power, W)  8-28 - input voltage (V)  220 - beam scattering angle (degrees)  60-120

Claims (7)

1. Unpacked LED lamp for use as a replacement for direct tubular fluorescent lamps in fixtures, including a board with LEDs, a radiator, a diffuser, contact plugs and connectors, characterized in that the function of the lamp is performed by a set of radiators and plates made of a heat-dissipating composite. 2. Unpacked LED lamp according to claim 1, characterized in that the radiators and plates are connected to each other using curly locks on the principle of a puzzle. 3. Unpacked LED lamp according to any one of claims 1 and 2, characterized in that the LEDs are rigidly fixed to the lower surface of the radiators in rectangular recesses. 4. Unpacked LED lamp according to any one of claims 1 to 3, characterized in that at least one powerful LED can be mounted on each radiator. 5. Unpacked LED lamp according to any one of claims 1 to 4, characterized in that the LEDs are covered with a matte diffuser. 6. Unpacked LED lamp according to any one of claims 1 to 5, characterized in that metal strips are fixed on the sides of the radiators and plates on both sides along the entire selected length of the lamp. 7. Unpacked LED lamp according to any one of claims 1 to 6, characterized in that plates with a built-in electric plug are mounted on the end sides of the lamp.

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