RU144319U1 - ARC LED LAMP - Google Patents

Abstract

1. An arc-shaped LED lamp, comprising: a lamp holder containing a base; an arc-shaped radiation plate block comprising an arc-shaped side, said arc-shaped radiation plate block being mounted on said lamp holder and extending in a direction away from said lamp holder base so that two opposite the terminal parts of said arcuate block of radiation plates are located closer to said base of said lamp holder than the middle part of said arc Nogo block radiation plates; printed circuit board mounted on said arcuate block radiation plates along said smoothly curved arcuate side of said unit radiation plates and disposed in an arc shape, wherein said circuit board comprises a circuit arrangement and a plurality of light emitting diodes; an arched lamp and covering said lamp holder. 2. The arcuate LED lamp according to claim 1, wherein said light emitting diodes of said printed circuit board are arranged such that the installation density of said light emitting diodes in two opposite terminal segments of said printed circuit board is higher than the installation density of said light emitting diodes in the central part of said printed circuit board. . The arc-shaped LED lamp according to claim 1, wherein said printed circuit board comprises a plurality of slots arranged at intervals along each of its two opposite sides in order to enable said printed circuit board to be bent. Arc LED

Description

BACKGROUND OF THE INVENTION USEFUL MODEL

FIELD OF THE INVENTION This utility model relates to LED (LED) technology, and more particularly, to an arcuate LED lamp.

Description of the Related Art

As shown in FIG. 5, tube A of a conventional fluorescent lamp has a straight shape and can simply emit light directly down through the atmosphere, and its brightness per unit area is limited. Therefore, the irradiation range of the fluorescent tube is highly dependent on its length, and the brightness of the fluorescent tube is highly dependent on its power in watts. The desire to have a wide irradiation range and high brightness leads to the necessity of using a fluorescent tube of large length and high power in watts. Consequently, fluorescent tubes of 1.2 m or longer than 1.2 m are needed. However, due to increased environmental awareness, the fluorescent tube was gradually replaced by LEDs. However, if you make the LED lamp look like a long and straight tube shape of a fluorescent lamp, extruded aluminum lamp holder will be used and assembled with a block of radiation plates, a printed circuit board and LEDs to get the same range of exposure and brightness. Making an LED lamp this way requires a lot more materials and installation space. Considering the characteristic of directional LED lighting, an LED lamp does not require such a large design.

ESSENCE OF A USEFUL MODEL

The present utility model was carried out taking into account the circumstances of the species. The main objective of this utility model is to offer an LED lamp that has an arcuate configuration.

To achieve this and other objectives of this utility model, an arc-shaped LED lamp comprises a lamp holder, an arc-shaped block of radiation plates mounted on a lamp holder, a circuit board mounted on an arc-shaped block of radiation plates and carrying a plurality of light emitting diodes, and an arc-shaped lamp shade covering the lamp holder.

Other advantages and features of the present utility model will be fully understood with reference to the following description of the utility model in conjunction with the accompanying drawings, in which like reference numerals indicate like structure components.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic exploded side view of an arc-shaped LED lamp in accordance with the present utility model.

FIG. 2 is an end view of an arc-shaped LED lamp in accordance with the present utility model.

FIG. 3 is a schematic front view of a portion of an arcuate LED lamp according to the present invention, illustrating the arrangement of LEDs on a printed circuit board.

FIG. 4 corresponds to FIG. 3, illustrating an alternative form of a printed circuit board.

FIG. 5 is a schematic drawing illustrating illumination of a conventional fluorescent lamp.

FIG. 6 is a schematic drawing illustrating an example application of an arcuate LED lamp in accordance with the present utility model.

DETAILED DESCRIPTION OF A USEFUL MODEL

In FIG. Figure 1-3 shows an arc-shaped LED lamp in accordance with this utility model. The arcuate LED lamp comprises a lamp holder 10, an arcuate block of radiation plates 20, a printed circuit board 30, and a lampshade 40.

The lamp holder 10 comprises a base 11 having two opposite end parts 12. Each end part 12 forms with the base 11 a limited angle equal to or greater than 90 degrees.

The arcuate block 2 0 of radiation plates can be formed from a plurality of radiation plates or one single radiation plate and is made in a narrow oblong arched shape to ensure that two opposite long sides and two opposite short sides with two opposite long sides are smoothly curved. In addition, an arcuate block of 0 radiation plates is mounted on the lamp holder 10 and extends in a direction from the base of the lamp holder so that the two opposite ends (opposite short sides) of the arcuate block of radiation plates are located close to the base of the lamp holder, and the middle part of the arcuate block radiation plates located far from the base of the lamp holder.

The printed circuit board 30 carries a circuit arrangement and a plurality of light emitting diodes (LEDs) 31 and is electrically connected to an exciter (not shown). The printed circuit board 30 is mounted on one arcuate side of the arcuate block 20 of the radiation plates. In order to approach the arched side of the arched block 20 of the radiation plates, the printed circuit board 30 is smoothly curved. In order to allow the printed circuit board to be curved into an arc shape, the printed circuit board 30 may be a flexible printed circuit board or a thin printed circuit board. Alternatively, as shown in FIG. 4, the printed circuit board 30 can be made having a plurality of grooves 32 spaced along each of its two opposite long sides to increase flexibility, and thus the printed circuit board 30 can be conveniently curved to fit the arcuate shape of the arcuate block of radiation plates .

The lampshade 40 covers the lamp holder 10 with its two opposite ends, respectively connected to the two opposite end parts 12 of the lamp holder 10. In addition, lamp shade 40 is also smoothly curved to fit the arcuate shape of the arcuate block of radiation plates and the printed circuit board.

In addition, in order to increase uniform illumination and brightness, as shown in FIG. 3, the number of LEDs 31 in the central zone of the printed circuit board 30 may be less than the number of LEDs 31 in the two opposite terminal zones of the printed circuit board 30. If the printed circuit board 30 is simply divided into three segments along its length, the installation density of the LEDs in the two opposite terminal segments is higher than the installation density of the LEDs in the central segment, thus more LEDs are provided in two opposite terminal segments in order to enhance the propagation of light in the two opposite terminal x segments.

In the design of this utility model, the emitted light is not transmitted directly down through the atmosphere, but can be distributed outward in accordance with the smoothly curved configuration of the lamp, especially in the two opposite end segments. To fit the outwardly curved irradiation range, the two opposite ends of the lamp holder are beveled, each forming a limited angle with a base greater than 90 degrees.

As shown in FIG. 6, an arc-shaped LED lamp 20 cm long is located at a height of about 1.2 m, the irradiation range of an arc-shaped LED lamp is approximately equal to the irradiation range of a fluorescent lamp tube 1.2 m long, therefore, the use of this utility model can greatly reduce the space for installing the lamp and consumption energy.

Although specific embodiments of the utility model have been described in detail for illustrative purposes, various modifications and improvements can be made without departing from the spirit or scope of the utility model. Accordingly, the utility model should not be limited by anything other than the attached utility model formula.

Claims (7)

1. An arcuate LED lamp containing: a lamp holder comprising a base; an arcuate block of radiation plates containing an arcuate lateral side, wherein said arcuate block of radiation plates is mounted on said lamp holder and extends away from said base of the lamp holder so that two opposite end parts of said arcuate block of radiation plates are located closer to said base of said holder lamps than the middle part of said arcuate block of radiation plates; a circuit board mounted on said arc-shaped block of radiation plates along said smoothly curved side of said arc-shaped block of radiation plates and arranged in an arc shape, said circuit board comprising a circuit arrangement and a plurality of light emitting diodes; and a lampshade having an arcuate shape and covering said lamp holder. 2. The arcuate LED lamp according to claim 1, wherein said light emitting diodes of said printed circuit board are arranged such that the installation density of said light emitting diodes in two opposite terminal segments of said printed circuit board is higher than the installation density of said light emitting diodes in the central part of said printed circuit board . 3. The arcuate LED lamp according to claim 1, wherein said printed circuit board comprises a plurality of slots arranged at intervals along each of its two opposite sides in order to enable said printed circuit board to be bent. 4. The arcuate LED lamp according to claim 1, wherein said lamp holder comprises two end parts respectively located at two opposite ends of said base, wherein each said end part forms a limited angle with said base equal to or greater than 90 degrees. 5. The arcuate LED lamp according to claim 1, wherein said arcuate block of radiation plates is formed of a plurality of radiation plates. 6. The arcuate LED lamp according to claim 1, wherein said arcuate block of radiation plates is formed from one single piece of the radiation plate. 7. The arc-shaped LED lamp according to claim 1, in which said arcuate block of radiation plates contains two opposing long sides and two opposite short sides, while the two mentioned opposite long sides have an arc shape, so that two opposite end parts of said arcuate block of radiation plates located closer to said base of said lamp holder than the middle part of said arcuate block of radiation plates.