JP2014225451A - Illuminating device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an illuminating device which can prevent generation of current noise and can enhance the shape of light, and to improve the energy generated by preventing generation of current noise from an illuminating device while arranging the wavelength.SOLUTION: An illuminating device A consisting of a light-emitting section 1, a control section 2 connected with the light-emitting section 1, and a connection terminal 3 (outlet) connected with the control section 2, is further provided with a wave energy catalyst processing section K(wave energy catalyst material K1, noise eliminator K2) for enhancing the shape of light emitted from the light-emitting section 1.

Description

  The present invention relates to an illuminating device for illuminating an object, and more particularly to an illuminating device provided with a wave energy catalyst processing unit for illuminating an object and improving the quality and dimension of light emitted from a light emitting unit.

Conventionally, for example, lighting fixtures using LEDs, organic EL, and the like are known (see Patent Documents 1 and 2).
Among them, a relatively small size is often used for home use or beauty use, and the quality of light affects the body when illuminating the face or body directly.
Even if light is irradiated with such illumination, for example, light emitted from a lighting device using a noisy current is not necessarily good for eyes or the like.
The irradiated light is also slightly affected by noise, and some customers may feel visually uncomfortable.
There have also been reports of adverse effects on the body due to the effects of electromagnetic waves emitted by lighting devices.

JP 2007-330585 A Utility Model Registration No. 3094504

  An object of the present invention is to provide an illumination device that is based on such a technical background and that can prevent the generation of current noise and increase the quality of light emitted from a light emitting unit, that is, the dimension.

  That is, the present invention is (1) an illumination device including a light emitting unit, a control unit connected to the light emitting unit, and a connection terminal unit (outlet unit) connected to the control unit, and emits from the light emitting unit. It exists in the illuminating device which provided the wave energy catalyst processing part for raising the dimension of light.

  Moreover, this invention exists in the illuminating device of the said (1) description with which the wave energy catalyst process part is provided in the connection terminal part (2).

  Moreover, this invention exists in the illuminating device of the said (1) description with which (3) and the wave energy catalyst processing part are provided in the control part.

  The present invention also relates to (4), wherein the wave energy catalyst processing portion provided in the connection terminal portion is a wave energy catalyst material applied and formed on a plug blade provided in the connection terminal portion. It exists in the lighting device.

  In the present invention, (5), the wave energy catalyst substance is a synthetic resin added with inorganic powder, and the inorganic powder is tourmaline powder, serpentine powder, precious gem powder, amorphous powder, titanium powder, lapis lazuli. It exists in the illuminating device of the said (4) description which is a powder containing 1 or more selected from powder.

  In the present invention, (6), the wave energy catalyst processing unit provided in the control unit is a noise elimination device, and the noise elimination device includes a first conductor having a spiral groove formed on a surface thereof, A coiled second conductor disposed outside the first conductor without engaging with the spiral groove, a cylindrical metal sheet disposed outside the second conductor, and disposed outside the cylindrical metal sheet. The illumination device according to the above (3), which includes a covering member, and a filling member of the same material as the covering member, which is filled in a gap between the cylindrical metal sheet and the first conductor.

  Further, the present invention comprises (7) a rectangular rotating substrate part having a constant thickness and a rectangular base part, and the rotating substrate part is provided with a rectangular organic EL light emitting part, The base unit is provided with a control unit connected to the organic EL light emitting unit, the control unit is provided with a wave energy catalyst processing unit, and the base unit has a pair of support columns extending upward at both ends. The rotating substrate portion is rotatably mounted between the support columns by a support shaft, and a single stop bar is mounted between the pair of support columns of the base unit. The lighting device is located at a certain distance from the support shaft of the rotating base plate at a certain distance below and rearward.

  As long as this invention meets this purpose, it is possible to adopt a configuration in which two or more selected from the above (1) to (7) are combined.

The present invention is an illuminating device including a light emitting unit, a control unit connected to the light emitting unit, and a connection terminal unit (outlet unit) connected to the control unit, for increasing the dimension of light emitted from the light emitting unit. Since the wave energy catalyst processing part is provided, the generation of current noise in the lighting device is prevented and the wavelength is adjusted, so that high-quality, that is, high-dimensional light can be obtained, and as a result, the generated energy can be enhanced. .
As a result, the light emitted from the lighting device of the present invention has a positive effect on the physiological action on the human body and also provides a relaxation effect.

  Further, the wave energy catalyst processing portion provided in the connection terminal portion is a wave energy catalyst material applied and formed on the plug blade provided in the connection terminal portion, so that it is extremely possible to provide the wave energy catalyst processing portion. Easy.

  The wave energy catalyst processing unit is provided in the control unit, the wave energy catalyst processing unit provided in the control unit is a noise erasing device, and the noise erasing device has a first surface in which a spiral groove is formed. A conductor, a coiled second conductor disposed outside the first conductor without engaging with the spiral groove, a cylindrical metal sheet disposed outside the second conductor, and an outside of the cylindrical metal sheet And a filling member of the same material as the covering member, which is filled in the gap between the cylindrical metal sheet and the first conductor, thereby generating current noise in the lighting device. It is surely prevented.

  In addition, it is composed of a rectangular rotating substrate portion having a constant thickness and a base portion that supports the rectangular rotating substrate portion. The rotating substrate portion is provided with a rectangular organic EL light emitting portion, and the base portion is provided with an organic EL. A control unit connected to the light emitting unit is provided, a wave energy catalyst processing unit is provided in the control unit, and the base unit has a pair of support pillars extending upward at both ends, and between the support pillars The rotating board part is rotatably attached by a support shaft, a stop bar is attached between the pair of support pillars of the base part, and the position where the stop bar is attached is the support shaft of the rotating board part. Since the position is a certain distance away from the lower rear side, at least the rotation limitation of the rotation substrate portion is simple.

FIG. 1 is a diagram illustrating a portion where a wave energy catalyst processing portion (connection terminal portion) is provided. FIG. 2 is a diagram illustrating a portion where a wave energy catalyst processing unit (control unit) is provided. FIG. 3 is a perspective view showing an illumination device including an organic EL light emitting unit. FIG. 4 is a front view showing an illumination device including an organic EL light emitting unit. FIG. 5 is a rear view showing an illumination device including an organic EL light emitting unit. FIGS. 6A and 6B are side views showing a lighting device including an organic EL light emitting unit, where FIG. 6A shows a right side view and FIG. 6B shows a left side view. FIG. 7 is a view showing a connection terminal portion (outlet portion) in which a plug blade is incorporated. FIG. 8 is a view showing a wave energy catalyst processing portion provided on the plug blade. FIG. 9 is a perspective view of an illumination device including an organic EL light emitting unit as viewed from the front. FIG. 10 is a perspective view of the illumination device including the organic EL light emitting unit as seen from the rear. FIG. 11 is a side view showing a state where the organic EL light emitting unit is rotated upward. FIG. 12 is a side view showing a state where the organic EL light emitting unit is rotated downward. FIG. 13 is an explanatory diagram illustrating an example of a noise erasing device. FIG. 14 is a cross-sectional view taken along line AA in FIG. FIG. 15 is an explanatory diagram showing an experimental apparatus for confirming the effect of the noise erasing apparatus. FIG. 16 shows an AC waveform measured using the experimental apparatus of FIG.

The lighting device according to the present invention is a lighting device including a light emitting unit 1, a control unit 2 connected to the light emitting unit, and a connection terminal unit (outlet unit) 3 connected to the control unit 2. The wave energy catalyst processing part for raising the dimension of the light emitted from is provided.
And the part which can provide the wave energy catalyst processing part is used as a connection terminal part (outlet part) as shown in FIG. 1, or as a control part as shown in FIG.
Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.
Embodiment 1 shown below is an example in the case where a wave energy catalyst processing portion K is provided in the former connection terminal portion (outlet portion) 3.

(Embodiment 1)
This illuminating device A employs an organic EL light emitting unit in which an organic EL element is disposed as the light emitting unit 1, and includes an organic EL light emitting unit, a control unit 2 connected to the organic EL light emitting unit, and the control unit 2 And a connection terminal portion (outlet portion) 3 connected to.

FIG. 3 is a perspective view of a handy lighting device including the organic EL light emitting unit.
FIG. 4 is a front view of an illumination device including the organic EL light emitting unit, FIG. 5 is a rear view, and FIG. 6 is a side view.

This lighting device includes a hexagonal base 1A having an organic EL light emitting unit 1 and a rod-shaped grip 1B extending downward from the hexagonal base.
The user can hold the grip portion 1B and illuminate the face and body with, for example, light emitted from the organic EL light emitting portion.
A square organic EL light emitting unit 1 is provided at the hexagonal base.

A control unit 2 is connected to the organic EL light emitting unit 1, and a connection terminal unit (outlet unit) 3 connected to the control unit 2 extends.
The control unit 2 is provided with an AD-DC converter that changes alternating current to direct current, a brightness adjustment tool, and the like, and the organic EL light emitting unit is turned off and the illuminance is adjusted by moving the adjustment knob 2A. Can do.
The connection terminal part (outlet part) 3 is provided with a wave energy catalyst processing part K, which can increase the dimension of light emitted from the organic EL light emitting part.

  Here, an example of the wave energy catalyst processing part K provided in the connection terminal part (outlet part) 3 will be described.

  7 has a plug blade 33 incorporated in a body member 31 and a cover member 32, and a wave energy catalyst processing section K is provided on the plug blade 33. As shown in FIG. .

As shown in FIG. 8, the wave energy catalyst processing portion K here is specifically configured by coating and forming a certain amount of wave energy catalyst material K1 on the plug blade 33.
As the wave energy catalyst material K1, a material obtained by adding various inorganic powders to a synthetic resin is employed.

As the synthetic resin, for example, an inorganic powder (special special powder) that is easily kneaded, for example, a polyacrylic resin, a polyurethane resin, or the like is employed.
Examples of the inorganic powder include tourmaline powder, serpentine powder, precious gem powder, amorphous powder, titanium powder, and lapis lazuli powder, and those containing one or more selected from them are adopted.

Here, the inorganic powder has 30-50% by weight of tourmaline, 30-50% by weight of precious gemstones (so-called “quartz porphyry”), 5-10% by weight of titanium, and 5-10% of lapis lazuli as its components. It is preferable to obtain a material containing 5% by weight by calcination.
Tourmaline (also known as “tourmaline”) is a silicate mineral that generates far-infrared rays and negative ions.

Precious jewels have far-infrared emission and negative ion generation greater than tourmaline.
Lapis lazuli is a material composed mainly of laslite, sodalite, Auin, and Josean, and its chemical formula is Na _8-10 Al ₆ Si ₆ O ₂₄ S ₂ , Na ₈ Al ₆ Si ₆ O ₂₄ Cl ₂ , (Na , Ca) _6-8 Al ₆ Si ₆ O ₂₄ (SO ₄ ) _1-2 , Na ₈ Al ₆ Si ₆ O ₂₄ SO ₄ .

As described above, when the connection terminal portion (outlet portion) 3 has the wave energy catalytic material K1, the noise of the lighting device connected to the connection terminal portion (outlet portion) 3 is reduced and the wave energy is increased. .
As a result, the dimension of light emitted from the organic EL light emitting unit can be increased.

And as above-mentioned, the light emitted from the illuminating device of this invention has a favorable influence on the physiological effect | action with respect to a human body, and brings about the relaxation effect by obtaining the light of high dimension.
For example, in the lighting device as shown in FIG. 3, by gripping and operating the grip portion 1B extending downward, the light irradiation angle with respect to the face of the organic EL light emitting portion can be optimized, and the physiological action of the face Can have a positive impact.

  Further, the wave energy catalyst material K1 can eliminate as much as possible the trouble caused by electromagnetic waves of extremely low frequency waves (for example, 50 Hz and 60 Hz) generated by commercial AC power flowing through the plug blade 33.

For example, the wave energy catalyst processing unit has a function of shaping electromagnetic waves and cutting noise as much as possible, as will be described later. In other words, it is possible to suppress the generation of electromagnetic waves harmful to the human body.
In other words, when the lighting device emits wave light with increased wave energy and irradiates the living body with this light, various effects can be exhibited.
For example, the antibacterial property can be improved by light, and this is confirmed by an irradiation experiment using Staphylococcus aureus.
In addition, when receiving the light of the illumination device of the present invention, the α wave increases more than usual, and this is confirmed by an electroencephalogram measurement experiment.
In addition, when plants such as rice receive the light of the lighting device of the present invention, they have obtained knowledge that growth is promoted, and this has been confirmed from an experiment of irradiating seeds with light.
Furthermore, it is confirmed from irradiation experiments using saliva that biological stress is reduced and biological acid is reduced.
Thus, the light emitted from the lighting device of the present invention has a positive effect on the physiological action on the human body and also provides a relaxation effect.

(Embodiment 2)
The second embodiment shown below is an example when the wave energy catalyst processing unit K is provided in the control unit 2.
This lighting device also employs an organic EL light emitting unit as the light emitting unit 1, and includes an organic EL light emitting unit, a control unit 2 connected to the organic EL light emitting unit, and a connection terminal unit (outlet) connected to the control unit 2. Part) 3.

FIG. 9 is a perspective view seen from the front of the lighting device including the organic EL light emitting unit.
FIG. 10 is a perspective view of the illumination device including the organic EL light emitting unit as viewed from the rear.
FIG. 11 is a side view showing a state where the organic EL light emitting unit is rotated upward.
FIG. 12 is a side view showing a state where the organic EL light emitting unit is rotated downward.

This illuminating device A includes a rectangular rotating substrate portion 1C having a constant thickness and a base portion 1D that supports the rotating substrate portion 1C.
The rotating substrate unit 1C is provided with a rectangular organic EL light emitting unit 1, and the base unit 1D is provided with a control unit 2 connected to the organic EL light emitting unit.
A connection terminal part (jack part) J is connected to the control part 2.

  The base portion 1D has a pair of support columns 1D1 extending upward at both ends, and a rotating substrate portion 1C is rotatably attached to the support columns 1D1 by a support shaft P.

One stop rod S is attached between the pair of support pillars of the base 1D.
In terms of side view, the position at which the stop bar S is attached is a position that is a certain distance away from the support shaft P of the rotating substrate portion 1C obliquely downward and rearward.
Therefore, when the rotating substrate portion 1C is tilted backward and rotated so that the organic EL light emitting portion 1 faces upward, a part of the back side of the light emitting portion 1 comes into contact with the stop rod S and stops.
From the viewpoint of securing an appropriate area that can be covered when a face is placed in front, the stop position is preferably a position where the rotating substrate portion 1C is substantially horizontal.
That is, even if it is tilted backward as much as possible, the stop rod S hits the rotating substrate portion 1C so that it is in the horizontal position.
Conversely, when the rotating substrate portion 1C is rotated forward so as to face downward, similarly, a part of the back side of the rotating substrate portion comes into contact with the stop rod S and stops.
From the viewpoint of securing an appropriate area that can be covered when a face is placed in front, the stop position is preferably a position where the rotating substrate portion 1C is slightly inclined downward.

As described above, since the rotation angle range before and after the light emitting unit 1 can be defined simply by providing one stop rod S, the structure for limiting the rotation becomes simple.
Further, as in the first embodiment, the control unit 2 is provided with an AD-DC converter, a brightness adjustment tool, and the like, and moves and adjusts the adjustment knob 2A.
The illumination device provided with the organic EL light emitting unit described above is extremely useful because it is relatively small and can be used on a desktop.

As the wave energy catalyst processing unit K provided in the control unit 2, a noise canceling device K2 is used here.
The noise canceling device K2 will be described below.

FIG. 13 shows an example of a noise reduction device (for example, interposed in the energization circuit) K2 provided in the control unit 1 for noise reduction.
FIG. 14 is a cross-sectional view taken along line AA in FIG.
The noise erasing device 12 shown in FIG. 13A has a first conductor 13 having a spiral groove 13a, and is a spiral-forming conductor device.

A coiled second conductor 14 is wound around the first conductor 13 so as not to be electrically connected to the first conductor 13.
The winding direction of the second conductor 14 is formed opposite to the spiral groove 13a, and is not in mesh with the spiral groove 13a.

A cylindrical metal sheet 15 is provided outside the second conductor 14.
However, it is preferable that the cylindrical metal sheet 15 is provided on a paper piece (preferably Japanese paper) wound around the second conductor 14.

The cylindrical metal sheet 15 is configured to cover the outer periphery of the second conductor 14. As the material thereof, for example, aluminum is used, but amorphous metal is more preferably used.
A covering member 16 is provided outside the cylindrical metal sheet 15.

As described in the first embodiment, for example, a material obtained by adding an inorganic powder to a synthetic resin is used as the material of the covering member 16, and specifically, an inorganic powder (special special powder) is kneaded as the synthetic resin. Easy materials such as polyacrylic resin and polyurethane resin are employed.
Moreover, the powder as shown in Example 1 is also used for the inorganic powder (special special powder).

The covering member 16 serves to protect at least the first conductor 13, the second conductor 14, and the cylindrical metal sheet 15 contained therein.
A gap between the cylindrical metal sheet 15 and the first conductor 13 is filled with a filling member 17 made of the same material as the covering member 16.

The filling member 17 plays a role of ensuring that the first conductor 13, the second conductor 14, and the cylindrical metal sheet 15 are not electrically connected to each other and a role of immobilization.
The first conductor 13 and the second conductor 14 are electrically arranged in parallel.
Note that connection points S1 and S2 for connecting to other wirings are provided at both ends of the noise erasing device 12 so that the noise eliminator 12 can be incorporated into the control unit 2.
Incidentally, in addition to the noise elimination device 12 described above, FIG. 13B shows a modification thereof.
In this modification, the first conductor 13 has two spiral grooves 13a in opposite directions intersecting each other, and the other structure is the same as that of the noise erasing apparatus shown in FIG.

  Here, the effect about the noise elimination apparatus 12 which is one aspect | mode of the wave energy catalyst processing part K was seen.

FIG. 15 shows an experimental device that was used to confirm the effect of the noise canceling device 12.
In this experimental apparatus, two noise elimination apparatuses 12 as shown in FIG. 13A are arranged in parallel to each other.

The noise canceling device 12 is provided so as to be easily removable because it needs to be compared with an experimental result without the device.
A commercial alternating current (100V) was input to one end of the noise eliminator 12, and a dryer 22 was connected to the output side as a load.
The dryer 22 is manufactured by IZUMI, rated at 100 V, 1200 W, and 50-60 Hz.

A two-phenomenal oscilloscope 23 (SS-5702DC-20M1Hz standard) was connected to the AC input at one end and the AC output at the other end of the noise elimination 3 device 12 to observe the waveform.
As a result, in the case of the noise erasing device 12 of the present invention, the noise component of the AC waveform is effectively removed.

  FIG. 16 shows an AC waveform actually measured using the experimental apparatus of FIG. 15 (note that the wave 16 (A) here is a waveform measured without the noise erasing device 12 attached, and FIG. B) shows a waveform measured with the noise elimination device 12 attached.

Comparing these waveforms, it can be seen that the noise component is effectively removed by providing the noise canceling device 12 which is the wave energy catalyst processing unit K.
As described above, high-dimensional light can be obtained by this, and various effects can be exhibited.
Although the present invention has been described above, the present invention can be variously modified without being restricted by the above-described embodiment.
For example, the wave energy catalyst processing portion, that is, the wave energy catalyst material can be provided in a conduction circuit which is a part extended from the connection terminal portion.
Moreover, as a light emission part, naturally it is employable also with a fluorescent lamp, an incandescent lamp, etc.
In addition, a lighting device that does not have a control unit and has a connection terminal (outlet) connected directly from the light emitting unit can be used. In this case, however, the connection terminal (outlet) must be connected. A wave energy catalyst processing part will be provided.

  Since the illuminating device of the present invention is provided with the wave energy catalyst processing unit for increasing the dimension of light, the generation of current noise of the illuminating device is prevented and the wavelength is adjusted, and as a result, the generated energy can be enhanced. However, as long as this principle can be applied, it can be widely used in devices and devices that emit various kinds of light.

DESCRIPTION OF SYMBOLS 1 ... Light emission part 1A ... Base part 1B ... Grip part 1C ... Turning board part 1D ... Base part 1D1 ... Supporting pillar 2 ... Control part 2A ... Adjustment knob 3 ... Connection terminal part (outlet part)
31 ... Body member 32 ... Cover member 33 ... Plug blade 12 ... Noise erasing device 13 ... First conductor 13a ... Spiral groove 14 ... Second conductor 15 ... Cylindrical metal sheet 16 ... Cover member 17 ... Filling member 22 ... Dryer 23 ... Oscilloscope A ... Illuminating device J ... Jack part K ... Wave energy catalyst processing part K1 ... Wave energy catalyst material K2 ... Noise canceling device P ... Spindle S1, S2 ... Connection point

Claims (7)

  A lighting device comprising a light emitting unit, a control unit connected to the light emitting unit, and a connection terminal unit connected to the control unit, provided with a wave energy catalyst processing unit for increasing the dimension of light emitted from the light emitting unit A lighting device characterized by that.   The lighting device according to claim 1, wherein the wave energy catalyst processing portion is provided in the connection terminal portion.   The lighting device according to claim 1, wherein the wave energy catalyst processing unit is provided in the control unit.   3. The lighting device according to claim 2, wherein the wave energy catalyst processing portion provided in the connection terminal portion is a wave energy catalyst material applied and formed on a plug blade provided in the connection terminal portion.   The wave energy catalytic material is a synthetic resin added with an inorganic powder, and the inorganic powder includes one or more selected from tourmaline powder, serpentine powder, precious gem powder, amorphous powder, titanium powder, and lapis lazuli powder. The lighting device according to claim 4, wherein the lighting device is powder.   The wave energy catalyst processing unit provided in the control unit is a noise erasing device, and the noise eliminator is in contact with the first conductor having a spiral groove formed on the surface thereof, and the first conductor in a state where it does not mesh with the spiral groove A coiled second conductor disposed outside the cylindrical conductor, a cylindrical metal sheet disposed outside the second conductor, a covering member disposed outside the cylindrical metal sheet, and a cylindrical metal sheet, The lighting device according to claim 3, further comprising: a filling member made of the same material as the covering member and filled in a gap between the first conductor and the first conductor.   A rectangular rotating substrate portion having a constant thickness and a base portion that supports the rectangular rotating substrate portion. The rotating substrate portion is provided with a rectangular organic EL light emitting portion, and the base portion is provided with an organic EL light emitting portion. A control unit connected to the control unit, a wave energy catalyst processing unit is provided in the control unit, and the base unit has a pair of support columns extending upward at both ends, and is rotated between the support columns. The substrate part is pivotally attached by a support shaft, a stop bar is attached between a pair of support pillars of the base part, and the position at which the stop bar is attached is oblique from the support shaft of the rotation board part An illuminating device characterized by being located at a certain distance from the lower rear.

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