JP2011023137A - Self-powered lighting equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a self-powered lighting equipment that stores and supplies electric energy by itself. <P>SOLUTION: The self-powered lighting equipment includes a lamplight source 1 and a self-powered collection set 2. The lamplight source includes a light shade 11, a casing 12, and a light emitting element 13 in the casing 12. The self-powered collection set is composed of a power collection plate 21, a controller 22, an energy storage device 23, and a current converting switch 24. A plurality of power collection plates 21 is arranged inside a lampshade of the lamplight source. The power collection plate converts the light emitted from the light emitting element 13 into electric energy. Inside the casing, there are installed the controller 22, the energy storage device 23, and the current converting switch 24. Also, two circuits of a current A circuit 242 and a current B circuit 243 are installed. The electric energy absorbed from the plurality of power collection plates 21 is stored in the energy storage device 23. The energy storage device 23 can feed electric energy to the current converting switch 24 via a detective switch 241, supply electric energy to the light emitting element 13 via the current A circuit 242, receive electric energy from an external power source, and supply electric energy to the light emitting element 13 via the current B circuit 243. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to lighting equipment, and more particularly to self-contained lighting equipment.

When a conventional illuminating lamp emits light in a room, the light beam is radiated and refracted on the ceiling and a relatively upper wall in the room. However, if the light beam is constantly refracted in the room, the human eye in the room is damaged. There is a fear. In addition, conventional power-saving lamps can save electric energy more effectively than ordinary lighting lamps, but the necessary light control is still insufficient, and excessive light is emitted, which damages the eyes. there is a possibility.
Under such circumstances, it has been eagerly desired to develop a lighting facility that stores electricity so that it can be illuminated when necessary, and that constantly controls the refraction of light rays.

  Therefore, the main subject of this invention is providing the lighting installation which has the self-sufficiency effect which can store and supply electric energy by itself.

Therefore, as a result of intensive investigations to solve the above-described problems of the present invention, the present inventor has focused on a rational design that can effectively solve the above problems, and based on such knowledge, Completed the invention.
Thus, according to the present invention,
At least, mainly composed of a lamp shade, a casing and a light emitting element, a casing is installed at the upper end of the lamp shade, a light emitting element is installed in the casing, and the lamp shade and the casing protect the light emitting element, A light source, wherein the light source provides a light source;
It consists mainly of a current collector plate, a controller, a power storage device, and a current conversion switch. A plurality of current collector plates are installed inside the lamp shade of the lamp light source, and the collector plate emits light emitted from the light emitting element of the lamp light source. In the casing of the light source, a controller, a power storage device and a current conversion switch are installed, and a detection switch is installed at one end of the current conversion switch. Two circuits, a current A circuit and a current B circuit, are respectively installed at one end of the power supply, and the controller can take in and integrate the electric energy absorbed from the plurality of current collecting plates, and the electric energy is further transferred to the power storage device. Is transmitted and stored, and the power storage device sends the stored electrical energy to the current conversion switch via the detection switch. Then, electric energy is supplied to the light emitting element through the current A circuit (first circuit), and the current conversion switch also takes in the electric energy from the external power source and passes through the current B circuit (second circuit). A self-contained current collection set that can supply electrical energy to the light emitting element,
Composed of,
A self-contained lighting facility is provided.

According to the present invention, the above-mentioned self-contained lighting equipment can be provided, but preferred embodiments include the following 1) to 7).

1) The self-contained lighting equipment, wherein the lamp shade of the lamp light source is a cover that can protect a light emitting element whose outer shape extends at a predetermined angle.
2) The self-contained lighting system in which the lamp shade of the lamp light source is provided with a current collecting plate outside the lamp shade.
3) The self-contained illumination facility, wherein the light emitting element of the lamp light source is an LED lamp.
4) The self-contained lighting equipment, wherein the light emitting element of the lamp light source is a general light bulb or an energy saving light bulb.
5) The self-contained illumination facility, wherein the light emitting element of the lamp light source is a fluorescent lamp.
6) The current conversion switch of the self-contained current collection set is configured such that the current A circuit installed at one end is set to an alternating current or a direct current based on the current supplied by the power storage device of the self-contained current collection set. The self-contained lighting equipment.
7) The current conversion switch of the self-contained current collecting set is the self-contained illumination in which a current B circuit installed at one end is set to an alternating current or a direct current based on a current supplied from an external power source. Facility.

As described above, the self-contained lighting equipment according to the present invention includes at least a lamp light source and a self-contained current collecting set.

  The lamp light source mainly includes a lamp shade, a casing, and a light emitting element. A casing is installed at an upper end of the lamp shade, a light emitting element is installed in the casing, and the lamp shade and the casing protect the light emitting element. The light emitting element is a lamp that provides a light source.

  The self-contained current collecting set mainly includes a current collecting plate, a controller, a power storage device, and a current conversion switch, and a plurality of current collecting plates capable of absorbing light emitted from the light emitting element of the lamp light source inside the lamp shade of the lamp light source. The light is converted into electrical energy, the controller, the power storage device and the current conversion switch are installed in the casing of the lamp light source, respectively, and the detection switch is installed at one end of the current conversion switch. . In addition, two circuits of a current A circuit and a current B circuit are installed at the other end, respectively, so that the controller can accept and integrate the electric energy absorbed from the plurality of current collecting plates, and the electric energy can be further stored. The electric energy transmitted to and stored in the device and stored in the power storage device can be supplied to the current A circuit after being further sent to the current conversion switch via the detection switch. Accordingly, electric energy can be supplied to the light emitting element via the first circuit, and the electric energy supplied from the external power source can be accepted and transmitted to the current B circuit by the current conversion switch. Thereby, electrical energy can be supplied to the light emitting element in the second circuit.

Hereinafter, the features and technical contents of the present invention will be described in detail with reference to the drawings. However, those drawings and the like are for reference and explanation, and the present invention is not limited by the drawings and the like.
The present invention is a self-contained lighting facility, and is composed of at least a lamp light source 1 and a self-contained current collecting set 2 as shown in FIG.
As shown in FIG. 2, the lamp light source 1 mainly includes a lamp shade 11, a casing 12, and a light emitting element 13. The lamp shade 11 is a cover that spreads at a predetermined angle, and the casing 12 is installed at the upper end. The light emitting element 13 is installed in the casing 12, and the lamp shade 11 and the casing 12 protect the light emitting element 13. The light emitting element 13 is a lamp light source that supplies light, and the power supplied from the self-contained current collecting set 2 or the external power source 3 can be alternately used by the light emitting element 13. The light emitting element 13 may be an LED lamp, or a general light bulb or an energy saving light bulb as shown in FIG. Further, as shown in FIG. 4, the light emitting element 13 may be a fluorescent lamp.

  As shown in FIG. 1, the self-contained current collection set 2 mainly includes a current collection plate 21, a controller 22, a power storage device 23, and a current conversion switch 24. 21 is installed, and the current collecting plate 21 can absorb the light emitted from the light emitting element 13 of the lamp light source 1 and convert the light into electrical energy. A controller 22, a power storage device 23, and a current conversion switch 24 are installed in the casing 12 of the lamp light source 1. A detection switch 241 is installed at one end of the current conversion switch 24, and two circuits, a current A circuit 242 and a current B circuit 243, are installed at the other end of the current conversion switch 24, respectively. The current A circuit 242 and the current B circuit 243 can be set to an alternating current or a direct current based on the current supplied by the power storage device 23 or the external power supply 3. As shown in FIG. 5, the controller 22 can take in and integrate the electric energy absorbed from the plurality of current collecting plates 21, and the electric energy is further transmitted to and stored in the power storage device 23. Sends the stored electrical energy to the current conversion switch 24 via the detection switch 241 and supplies it to the current A circuit 242. Thus, electric energy is supplied to the light emitting element 13 in the first circuit, and the current conversion switch 24 can also take over the external power source 3. When the electric energy of the external power source 3 is sent to the current conversion switch 24 and then transmitted to the current B circuit 243, the second circuit supplies electric energy to the light emitting element 13, and therefore The current conversion switch 24 can alternately supply the electric energy supplied from the power storage device 23 and the external power source 3 to the light emitting element 13 as needed, and also to the outside of the lamp shade 11 as shown in FIG. In addition, the current collecting plate 21 is installed, and by using the current collecting plate 21, the external light source can be absorbed excessively, and the amount of stored electricity is increased.

  According to the self-contained lighting equipment of the present invention, as shown in FIG. 7, in the general case, the light emitting element 13 of the lamp light source 1 emits light by the electric energy supplied by the external power source 3, and the light emitting element 13 emits light. At this time, the light beam radiated to the lamp shade 11 of the lamp light source 1 is absorbed by the current collecting plates 21 of the plurality of self-contained current collection sets 2 provided on the lamp shade 11. Thus, as shown in FIG. 5, the light rays absorbed by the current collecting plate 21 are converted into electric energy and integrated by the controller 22 of the self-contained current collecting set 2. The electric energy after the integration is further sent to the power storage device 23 of the self-contained power collection set 2 to be stored. When the electrical energy stored in the power storage device 23 becomes full, the electrical energy in the power storage device 23 is converted into the current conversion switch 24 by the detection switch 241 provided at one end of the current conversion switch 24 of the self-contained power collection set 2. Sent to. The electric energy supplied from the external power source 3 is turned off by the current conversion switch 24, and the electric energy of the power storage device 23 is supplied to the light emitting element 13. When the electrical energy stored in the power storage device 23 disappears, the detection switch 241 turns off the circuit that supplies the electrical energy by the power storage device 23 and supplies the electrical energy again by the external power source 3 by the current conversion switch 24. Turn on the circuit you want. Further, when the current supplied by the power storage device 23 is a direct current and the current supplied by the external power source 3 is an alternating current, when the above two types of current flow to the current conversion switch 24, the direct current is A current is supplied to the light emitting element 13 through a circuit that is the current A circuit 242, and an alternating current supplies a current to the light emitting element 13 through a circuit that is the current B circuit 243.

According to the self-contained lighting equipment according to the present invention, the following advantages can be obtained. For example, as shown in FIG. 7, the current collecting plates 21 of the plurality of self-contained current collecting sets 2 are installed in the lamp shade 11 of the lamp light source 1, and the light emitting elements 13 of the lamp light source 1 are collected by the current collecting plate 21. The light beam applied to the plate 21 is absorbed, and the light beam is converted into electric energy. The electric energy is stored and can be supplied to the light emitting element 13 and used again. The light emitting element 13 can save a large amount of electric energy supplied from the external power source 3.
As described above, the self-contained illuminating device according to the present invention is more progressive and more practical, and has a great contribution to the industry, and therefore requires legal protection.
The above description is a preferred embodiment of the present invention, but the present invention is not limited thereby. Moreover, the equivalent range by the change and correction performed based on the content of the claim concerning this invention and the specification is included in the range of this invention.

It is a whole section conceptual diagram of the present invention. It is an external appearance three-dimensional conceptual diagram in the case of using an LED lamp for the light emitting element of this invention. It is an external appearance three-dimensional conceptual diagram in the case of using a light bulb for the light emitting element of the present invention. It is an external appearance three-dimensional conceptual diagram when using a fluorescent lamp for the light emitting element of this invention. 3 is a flowchart for supplying electric energy to the light emitting device of the present invention. It is a cross-sectional conceptual diagram in the case of installing the current collecting plate of this invention outside a lamp shade. It is a cross-sectional conceptual diagram in case the light emitting element of this invention light-emits.

DESCRIPTION OF SYMBOLS 1 Lamp light source 11 Lamp shade 12 Casing 13 Light emitting element 2 Self-supplied current collection set 21 Current collecting plate 22 Controller 23 Power storage device 24 Current conversion switch 241 Detection switch 242 Current A circuit 243 Current B circuit 3 External power supply

Claims (8)

at least,
Mainly composed of a lamp shade, a casing and a light emitting element, a casing is installed at the upper end of the lamp shade, a light emitting element is installed in the casing, and the lamp shade and the casing protect the light emitting element. A light source that provides a light source;
It consists mainly of a current collecting plate, a controller, a power storage device, and a current conversion switch. A plurality of current collecting plates are installed inside the lamp shade of the lamp light source. In the casing of the lamp light source, a controller, a power storage device, and a current conversion switch are installed, and a detection switch is installed at one end of the current conversion switch. Two circuits of a current A circuit and a current B circuit are installed at the other end, respectively, and the controller can take in and integrate the electric energy absorbed from a plurality of current collecting plates, and the electric energy can be further stored. Is transmitted to the device and stored, and the power storage device converts the stored electrical energy to the current conversion switch via the detection switch. Then, electric current is supplied to the light-emitting element via the current A circuit (first circuit), and the current conversion circuit also accepts the electric energy from the external power source and supplies the current B circuit (second circuit). A self-contained current collection set capable of supplying electrical energy to the light emitting element via
Composed of,
This is a self-contained lighting system. The self-contained illumination system according to claim 1, wherein the lamp shade of the lamp light source is a cover that can protect the light emitting element and has an outer shape that spreads at a predetermined angle. The self-contained illumination system according to claim 1, wherein the lamp shade of the lamp light source is provided with a current collecting plate outside the lamp shade. The self-contained illumination system according to claim 1, wherein the light emitting element of the lamp light source is an LED lamp. The self-contained lighting system according to claim 1, wherein the light emitting element of the lamp light source is a general light bulb or an energy saving light bulb. The self-contained illumination system according to claim 1, wherein the light emitting element of the lamp light source is a fluorescent lamp. The current conversion switch of the self-contained current collection set is configured such that the current A circuit installed at one end is set to an alternating current or a direct current based on the current supplied by the power storage device of the self-contained current collection set. The self-contained lighting equipment according to claim 1. The current conversion switch of the self-contained current collecting set is characterized in that a current B circuit installed at one end is set to an alternating current or a direct current based on a current supplied from an external power supply. Item 2. Self-contained lighting equipment according to item 1.