JP2009123641A - Illumination lamp - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an illumination lamp having reduced power consumption and high brightness. <P>SOLUTION: The illumination lamp comprises a lamp holder 2, a conductive plug 21 provided on the bottom face of the lamp holder 2 so as to be inserted and connected into a socket, a power supply adapter 22 provided in the lamp holder 2 so as to be electrically connected to a conductive plug 21, an annular fan-like metal radiator 29 provided on the bottom face of the lamp holder 2 so as to be connected to the power supply adapter 22, a lamp shade 23 whose one-end peripheral edge is fitted to the upper-face peripheral edge of the lamp holder 2, and at least one lattice-arrayed light-emitting diode 24 mounted on the upper face of the lamp holder 2 so as to be electrically connected to the power supply adapter 22. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an illumination lamp, and in particular, a low power consumption, high brightness lamp, provided with a lamp holder, and attached with at least one light emitting diode in a grid arrangement on the lamp holder to reduce loss, and to protect the environment. As well as an illumination lamp in which the brightness and range of illumination is greatly improved.

  Science and technology advance day by day. Since people's demands for quality of life are constantly increasing, various vendors are constantly trying to research and develop new products. Such trends are not limited to the high-technology-product category, and products related to human life are constantly being improved in response to various demands such as consumer convenience, practicality, and appearance. . In addition, because of the increasing awareness of environmental protection among modern people, in addition to considering the needs of products such as appearance and function, whether a product meets the concept of environmental protection or energy saving is also a factor that determines when selecting a product. It becomes. Therefore, manufacturers are pursuing research and development in order to inject large costs when designing products and create products that satisfy consumers.

  In general, products commonly found in the lighting market are conventional fluorescent lamps. Under the above-mentioned trend of environmental protection awareness, manufacturers recommended energy-saving lamps to improve the high pollution of conventional fluorescent lamps. As shown in FIG. 1, the energy saving lamp includes a shell 10, a connector 11, a lamp 12, and the like. The connector 11 is provided at the bottom end of the shell 10 and is inserted and connected to a socket. For example, the connector 11 not only attaches the energy saving lamp to a fixed position such as a ceiling or a wall, but also supplies power from the outlet to the energy saving lamp. The lamp 12 is disposed on the upper surface of the shell 10. Both ends of the lamp 12 are installed in the shell 10. The portion between the ends of the lamp 12 is swirled to the upper surface of the shell 10 so that the lamp 12 emits light and provides illumination.

However, such energy saving lamps only partially improve the high pollution of conventional fluorescent lamps, and have the following defects.
(1) Since the inner light emitting surface of the lamp 12 of the energy saving lamp is shielded by the opposite lamp 12 facing each other, the effective light flux utilization rate of the lamp 12 is reduced to 30%.
(2) Since the arrangement of the portions that turn so as to meander at both ends of the lamp 12 is too close, the heat dissipation efficiency of the lamp 12 decreases.

(3) Since the temperature of the lamp 12 increases and the light output of the lamp 12 decreases, the light efficiency decreases.
(4) Since the shape of the lamp 12 is special, it is necessary to consider the use of a large package when packaging. Moreover, in order to avoid the impact damage of the lamp | ramp 12 at the time of conveyance, the package of the outstanding buffer property is needed, and the difficulty and cost of packaging increase.
Therefore, how to design a lighting product with high brightness and energy saving effect in the trend of energy saving and environmental protection is an important issue that each manufacturer must face now.

  The main object of the present invention is to provide an illumination lamp with low power consumption and high brightness in order to solve the above-described defects of the energy saving lamp. The illumination lamp of the present invention not only reduces power consumption and meets the concept of environmental protection, but also greatly improves the brightness and range of illumination.

In order to achieve the above object, an illumination lamp according to the present invention includes a lamp holder.
The lamp holder includes a conductive plug on the bottom surface, and the conductive plug is inserted into and connected to the socket.
A power adapter (Universal 90-260V, AC to 13V DC) is installed in the lamp holder. The power adapter is electrically connected to a conductive plug.
A lamp shade is provided on the upper surface of the lamp holder. The lamp shade is fastened to the periphery of the upper surface of the lamp holder.

An annular fan-shaped metal radiator is provided in the lamp holder. Annular fan-shaped metal radiator is connected to the power adapter to achieve the purpose of heat dissipation.
At least one light emitting diode arranged in a grid pattern is provided on the upper surface of the illumination lamp. The light emitting diodes in a grid array are electrically connected to a power adapter and emit light with high brightness. As a result, the illumination lamp according to the present invention has advantages such as high brightness and energy saving.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(First embodiment)
An illumination lamp according to a first embodiment of the present invention is shown in FIGS. The illumination lamp according to the first embodiment of the present invention includes elements such as a lamp holder 2, a conductive plug 21, a power adapter 22, a lamp shade 23, an annular fan-shaped metal radiator 29, and at least one light-emitting diode 24 arranged in a grid pattern. Become.

The conductive plug 21 is provided on the bottom surface of the lamp holder 2 and is inserted into and connected to the socket. The illumination lamp is attached to a fixed position such as a ceiling or a wall, and an AC power supply from an outlet can be supplied to the illumination lamp.
The power adapter 22 (Universal 90-260V, AC to 13V DC) is provided in the lamp holder 2, is electrically connected to the conductive plug 21, converts the AC power from the outlet into DC, and The voltage and power are adjusted to the standard of the light emitting diodes 24 in the grid arrangement.

The lamp shade 23 has a peripheral edge at one end fastened to the peripheral edge of the upper surface of the lamp holder 2 and is made of a plastic (for example, acrylic) that allows light to be transmitted or half-transmitted.
An annular fan-shaped metal radiator 29 is disposed in the lamp holder 2 and connected to the power adapter 22.
The light emitting diodes 24 in a grid arrangement are fastened to the upper surface of the lamp holder 2 and are electrically connected to the power adapter 22.

Since heat emitted from the light emitting diodes 24 arranged in a grid pattern is dissipated through the annular fan-shaped metal radiator 29, the heat dissipation effect is superior to that of the light emitting diodes not arranged in a grid pattern. It avoids the phenomenon that light is not attenuated by local heat generation and the lamp does not turn on as in the case of a light emitting diode that is not arranged.
At least one ventilation convection port 291 is provided at the bottom of the lamp holder 2 facing the annular fan-shaped metal radiator 29. This sufficiently fulfills the purpose of heat dissipation.
Light emitted from the light emitting diodes 24 arranged in a lattice pattern is transmitted and radiated through the lamp shade 23.

  The light emitting diodes 24 in a grid arrangement have features such as long life, low power consumption, durability, earthquake resistance, robustness, mass production suitability, small volume, fast response, etc., so that the lighting lamps simultaneously meet the requirements of high brightness and environmental protection concept Satisfied and greatly improved the disadvantages of conventional lighting products. The annular fan-shaped metal radiator 29 contributes to the heat dissipation of the power adapter 22 and greatly reduces the temperature when the light emitting diodes 24 in the grid arrangement are lit. According to the first embodiment of the present invention, when a current is applied at a constant voltage, the light emission power is increased by about 30% as compared with a light emitting diode not arranged in a grid, thereby improving the lighting effect.

  In the first embodiment of the present invention, a fluorescent lamp shape may be used in addition to the lamp shape. As shown in FIGS. 2 and 3, the lighting device is provided with a support frame 25, and the light emitting diodes 24 arranged in a grid pattern are attached to the support frame 25. One end of the support frame 25 is disposed on the upper surface of the lamp holder 2, and the other end is extended to a location adjacent to the upper surface of the lamp shade 23. The cross section of the support frame 25 is triangular. Three light emitting diodes 24 in a lattice arrangement may be attached to the three side surfaces of the support frame 25. This greatly improves the brightness of the light source and the range of illumination. The support frame 25 not only has the light emitting diodes 24 arranged in a grid pattern, but also has a heat dissipation effect of the light emitting diodes 24 arranged in a grid pattern.

  As shown in FIGS. 2, 3, and 5, the light emitting diodes 24 in a lattice arrangement are formed from elements such as an outer shell 241, a substrate 242, and a light transmission plate 244. The substrate 242 is provided on the bottom surface of the outer shell 241. Each substrate 242 has a large number of chips 243. The chips 243 can emit blue light or ultraviolet light. The light transmission plate 244 is installed on the upper surface of the outer shell 241. The light transmission plate 244 is coated with a fluorescent material. As a result, when the chip 243 emits blue light or ultraviolet light, the fluorescent material in the light transmission plate 244 can be excited, and thus the light emitting diodes 24 in the lattice arrangement generate extremely bright light.

  Furthermore, since the light emitting diodes 24 in the grid arrangement have an excellent heat dissipation effect compared to the light emitting diodes not arranged in the grid arrangement, according to the present embodiment, a current is applied at a constant voltage and the light emitting diodes 24 are arranged in the grid arrangement. Compared with non-light emitting diodes, the light emission power increases by 30% to 50%. In addition, in the state of low power consumption, high-intensity light is emitted, and at the same time, the needs for lighting and environmental protection concepts are satisfied.

  As shown in FIG. 3, a clamping plate 26 is provided on the upper surface of the lamp holder 2. On one surface of the clamping plate 26 facing the lamp shade 23, the support frame 25 is installed, and the light-emitting diodes 24 in a lattice arrangement are directly attached. In the lamp holder 2, a connection lamp holder 27 is provided on one surface facing the clamping plate 26 and the lamp holder 2. Each of the connection lamp holders 27 is electrically connected to the light emitting diodes 24 and the power supply adapter 22 arranged in a grid pattern. As a result, the DC power is transmitted to the light emitting diodes 24 in a grid array.

  As shown in FIG. 3, one side that electrically connects the power adapter 22 and the conductive plug 21 is an input end of an AC power source. One side where the power adapter 22 and the connection lamp holder 27 are electrically connected is an output end of a DC power source. The output voltage of the output terminal of the DC power supply is 12.5V to 13.5V. The luminous efficiency generally reaches 80 lumen / w or more. The output power is 3 W when the light emitting diodes 24 of one grid arrangement are used, and 9 W when the light emitting diodes 24 of three grid arrangements are used.

  Since the annular fan-shaped metal radiator 29 and the ventilation convection port 291 help the heat radiation of the lighting lamp, the light emission power increases by about 30% when a current is applied at a constant voltage. Further, a flange 28 is provided on the peripheral edge of the upper surface of the lamp holder 2. The lamp shade 23 is fastened to the lamp holder 2 when it is fitted to the peripheral edge of one end of the lamp shade 23 via the flange 28.

(Second Embodiment)
An illumination lamp according to a second embodiment of the present invention is shown in FIG. The light emitting diodes 24 in a grid arrangement are square and are fastened to the upper surface of the lamp holder 2. The lamp shade 23 is circular. With such a shape, the volume of the illumination lamp is reduced, and light can be emitted in all directions when the illumination lamp is mounted on the ceiling.

(The invention's effect)
As described above, the illumination lamp of the present invention not only provides a high-intensity light source, but also has characteristics such as low power consumption, earthquake resistance, small volume, and quick response, meeting the requirements of current environmental protection concepts. To do. Further, there are no defects such as a decrease in effective flux, a decrease in heat radiation efficiency, and a decrease in light efficiency in the conventional energy saving lamp. In addition, the protection of the lamp shade makes it easy to package and transport, and avoids the risk of impact and damage.

  The above shows only a preferred embodiment of the present invention. The structural features of the present invention are not limited in any way, and in the technical idea of the present invention, any local change or modification made by a person skilled in the technology is included in the scope of the claims of the present invention. .

It is a perspective view which shows the conventional lamp | ramp. It is a perspective view which shows the illumination lamp by 1st Embodiment of this invention. It is a perspective view which shows the illumination lamp by 1st Embodiment of this invention. It is a perspective view which shows the illumination lamp by 2nd Embodiment of this invention. It is a schematic diagram which shows the cross section of the light emitting diode of the grid | lattice-like arrangement | sequence of the illumination lamp by 1st Embodiment of this invention.

Explanation of symbols

  2: lamp holder, 21: conductive plug, 22: power adapter, 23: lamp shade, 24: light-emitting diode in a grid pattern, 241: outer shell, 242: substrate, 243: chip, 244: light transmission plate, 25 : Support frame, 26: Fastening plate, 27: Connection lamp holder, 28: Flange, 29: Annular fan-shaped metal radiator, 291: Convection port for ventilation

Claims (10)

A lamp holder,
A conductive plug provided on the bottom surface of the lamp holder and inserted and connected to an outlet;
A power adapter provided in the lamp holder and electrically connected to the conductive plug;
An annular fan-shaped metal radiator provided on the bottom surface of the lamp holder and connected to the power adapter;
A lamp shade in which a peripheral edge of one end is fitted to a peripheral edge of the upper surface of the lamp holder;
At least one grid-shaped light emitting diode attached to the upper surface of the lamp holder and electrically connected to the power adapter;
An illumination lamp comprising:   The illumination lamp according to claim 1, wherein at least one ventilation convection port is provided on a bottom surface of the lamp holder, and the ventilation convection port faces an annular fan-shaped metal radiator.   The light emitting diodes arranged in a lattice form include an outer shell, a substrate provided on the bottom surface of the outer shell, each having several chips, and a light transmission plate provided on the upper surface of the outer shell and coated with a fluorescent material. The illumination lamp according to claim 2, further comprising:   4. The illumination lamp according to claim 3, further comprising a support frame, wherein one end of the support frame is provided on an upper surface of the lamp holder, and the other end is extended to an adjacent location on the upper surface of the lamp shade.   The illumination lamp according to claim 4, wherein the light emitting diodes in the grid arrangement are rectangular and are attached to a surface of the support frame.   4. The illumination lamp according to claim 3, wherein the light emitting diodes in the grid pattern are square and are attached to a surface of the support frame.   The lamp holder includes a clamping plate, and a connection lamp holder provided on one surface facing the clamping plate and the lamp holder, and electrically connected to the light emitting diodes in the grid array and the power adapter, respectively. The illumination lamp according to claim 5 or 6, characterized in that.   One side where the power adapter and the conductive plug are electrically connected is an input end of an AC power source, and one side where the power adapter and the connection lamp holder are electrically connected is an output end of a DC power source. The illumination lamp according to claim 7.   The illumination lamp according to claim 8, wherein a flange is provided on a peripheral edge of the upper surface of the lamp holder, and the flange is fitted to a peripheral edge of one end of the lamp shade.   The illumination lamp according to claim 8, wherein the output voltage of the output terminal of the DC power supply is between 12.5V and 13.5V.

Images