JP4230763B2 - Power supply mechanism and fan device for light source provided on rotating body - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a power supply mechanism and a fan device for a light source provided in a rotating body.
[0002]
[Prior art and problems]
As a method for causing the light source provided on the rotating body to emit light while the rotating body is rotating, there is a method in which electricity is sent from the rotating body support side to the rotating body with an electric brush and the light source is caused to emit light. However, in this method, there is a problem that when the electric brush is disconnected due to wear or the like, power is not supplied to the rotating body.
[0003]
In view of such problems, the present invention is capable of causing a light source provided on a rotating body to emit light during the rotation of the rotating body, and further providing power to the light source for a long lifetime. An object is to provide a power feeding mechanism and a fan device.
[0004]
[Means for Solving the Problems]
The above problem is that a magnet for generating a magnetic field for power generation is provided, and a rotating body is provided with a coil for power generation and a light source, and when the rotating body rotates, the coil moves the magnetic field by the magnet to generate power, This is solved by a power supply mechanism to the light source provided in the rotating body, wherein the light source is turned on by electricity.
[0005]
In this power feeding mechanism, when the rotating body rotates, a current flows through a coil provided on the rotating body by electromagnetic induction, and the light source is turned on by the electricity. Therefore, between the rotating body and the rotation support portion, There is no contact for energization to the light source, so that the light source provided on the rotating body can emit light while the rotating body is rotating, and the power supply to the light source can be prolonged.
[0006]
The present invention includes the following electric blower fan device using this power feeding mechanism. That is, a magnet for generating a magnetic field for power generation is provided, a power generation coil and a light source are provided in the impeller, and when the impeller rotates, the coil moves the magnetic field generated by the magnet to generate power. The light source is lit, and
The impeller blades are provided with a photocatalytic substance, the light source is provided at a site where an antifouling function is provided by the photocatalytic substance, and the vanes are antifouled by the photocatalytic substance. It is an electric blower fan device.
[0007]
In this electric blower fan device, since the impeller of the fan device rotates stably by electric power, the light source provided on the impeller can emit light stably. This stable light emission allows the photocatalyst material to effectively perform the antifouling action of the impeller.
[0008]
In addition, since the light source is provided on the impeller provided with the photocatalyst material, and the photocatalyst material and the light source rotate together with the impeller, the impeller rotates in a three-dimensional shape. However, the light from the light source can be effectively applied to the photocatalyst material of the impeller with a small amount of light, and the photocatalyst material can be effectively antifouled.
[0009]
In addition, since the light source of the impeller is caused to emit light by the electricity generated by the electromagnetic induction as described above accompanying the rotation of the impeller by driving the fan, and the photocatalysis is performed by the light emission, the drive of the fan It is not necessary to provide an electrical switching mechanism for interlocking the lighting of the light source and the light source, and the photocatalytic action can be performed in a timely manner with a simple mechanism.
[0010]
This electric blower fan device can effectively disassemble and remove dirt such as oil adhering to the impeller when it is a ventilation fan in a kitchen that is particularly susceptible to dirt.
[0011]
In the electric blower fan device described above, the impeller is made of a light-transmitting material, the light source is provided on the rotation center side of the impeller, and the light from the light source is sent to the tip side through the flesh of the blade. Can ensure a small light source installation space on the rotation center side of the impeller and disperse the light widely only by providing the light source there, and the impeller can be effectively antifouled by the photocatalytic action. In addition, since it is on the rotation center side of the impeller, it is difficult to get dirty, and the light source is not covered with dirt.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings.
[0013]
The embodiment shown in FIGS. 1 and 2 is applied to a ventilating fan for a kitchen, where 1 is an impeller as a rotating body, 2 is an electric motor, and the impeller 1 is attached to the core 3. Each of the blades 4 is made of a translucent material such as an acrylic resin, and a photocatalytic substance 5 such as titanium oxide is applied to the surface portion including the tip side of each blade 4. Is provided by. The photocatalytic substance 5 may be provided on the entire surface portion of the impeller 1, may be provided on the entire surface portion of the blade 4, or the entire surface portion on the outer peripheral side half of the blade 4. Or may be determined as appropriate according to the region to be antifouling.
[0014]
And the light source 6 ... by a light emitting diode etc. is provided in the base part of each blade | wing 4, The light from light source 6 ... is sent to the front end side through the flesh of each blade | wing 4 .... In the impeller 1 made of a translucent resin such as acrylic resin, the light from the light source 6 is sent to the tip side through the flesh of the blade 4 so that the light is concentrated on the tip side of the blade 4. The tip side can be particularly brightened, whereby dirt concentrated on the tip side of the blades 4 by centrifugal force can be effectively decomposed and removed by photocatalysis.
[0015]
And in order to send electricity to said light source 6 ..., in this embodiment, the following electric power feeding mechanisms are employ | adopted. That is, as shown in FIG. 2, magnets 7 are provided on the fixed side of the electric motor 2, that is, on the side of the rotating body support, and the coil 9 is provided on the core 3 of the impeller 1. The magnet 7 and the coil 9 face each other, the impeller 1 rotates and the coil 9 moves the magnetic field generated by the magnet 7 to generate power by electromagnetic induction, and a current flows through the coil 9. It is made like that. A light source 6 is connected to the coil 9, and the light sources 6 are turned on by electricity. In the present embodiment, the magnet 8 is also provided on the impeller 1 side, and power generation by electromagnetic induction is effectively performed in combination with the magnet 7 on the rotation support portion side.
[0016]
In the ventilation fan described above, when the impeller 1 rotates, a current flows through the coil 9 provided in the impeller 1 by electromagnetic induction, and the light source 6 is lit by the electricity. Therefore, between the impeller 1 and the rotation support portion. Therefore, the light source 6 provided in the impeller 1 can emit light while the impeller 1 is rotating, and the power supply to the light source 6 can be prolonged. it can.
[0017]
And since the impeller 1 rotates stably by electricity, the light source 6 provided in the impeller 1 can emit light stably, and the impeller 1 can be effectively antifouled with the photocatalytic substance 5. .
[0018]
The light sources 6 are provided on the impeller 1 provided with the photocatalyst material 5, and the photocatalyst material 5 and the light sources 6 are rotated integrally with the impeller 1. The light from ... can be effectively applied to the photocatalytic substance 5, and the antifouling action by the photocatalytic substance can be made effective. Further, even if an electric switching mechanism for interlocking driving of the fan and lighting of the light source 6 is not provided, the light source 6 is turned on when the fan is driven, and the photocatalytic action is performed in a timely manner with a simple mechanism. Further, since the light sources 6 are provided on the rotation center side of the impeller 1, they are not hidden by dirt.
[0019]
Although the embodiment of the present invention has been described above, the present invention is not limited to this, and various modifications can be made without departing from the spirit of the invention. For example, in the above-described embodiment, the case where the light sources 6 are provided on the rotation center side of the impeller 1 is illustrated, but the light source 6 may be provided on the tip side of the blade, or from the rotation center side to the tip side of the blade. It may be provided in a dispersed state, or may be provided on both sides of the blade, may be provided on one side of one of the blades, or may be provided in an embedded state on the blade or the core. In short, it is only necessary that the photocatalyst material provided in the impeller is provided in a portion where the antifouling action of the impeller can be performed. The impeller and its blades may be made of a material that does not have translucency. Furthermore, it goes without saying that the electric blower fan device of the present invention can be widely applied to various electric blower fan devices as well as a ventilating fan in a kitchen. In addition, a power supply mechanism for supplying power to the light source provided in the impeller is an optional component, and a photocatalytic substance is provided in the impeller blades, and a light source is provided in the impeller. An electric blower fan device in which the blades are antifouled with a light medium substance is also one of the inventions disclosed in the present application. The power feeding mechanism of the present invention may be used for a wind turbine for wind power generation.
[0020]
【The invention's effect】
Since the present invention is as described above, the light source provided on the rotating body can emit light while the rotating body is rotating, and power can be supplied to the light source for a long lifetime.
[Brief description of the drawings]
FIG. 1 shows an embodiment, in which FIG. (A) is a front view of a fan device, and (B) is a sectional side view of the same part.
FIG. 2 is an enlarged partial cross-sectional side view showing a power feeding mechanism portion.
[Explanation of symbols]
1 ... Impeller (Rotating body)
4 ... Blade 5 ... Photocatalytic substance 6 ... Light source 7 ... Magnet 9 ... Coil

Claims (3)

A magnet for generating a magnetic field for power generation is provided on the side of the rotating body support, and a power generation coil and a light source are provided on an impeller as a rotating body, and the coil is formed by the magnet by rotating the impeller. A magnetic field is generated to generate power, and the light source is turned on by the electricity; and
The impeller blades are provided with a photocatalytic substance, the light source is provided at a site where an antifouling function is provided by the photocatalytic substance, and the vanes are antifouled by the photocatalytic substance. Electric blower fan device. The electric blower fan device according to claim 1 , wherein the fan is a ventilation fan of a kitchen. The electric motor according to claim 1 or 2 , wherein the impeller is made of a translucent material, the light source is provided on the rotation center side of the impeller, and the light of the light source is sent to the tip side through the flesh of the blade. Blower fan device.

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