The present invention relates to a vehicle lamp.
A vehicle lamp capable of improving visibility of road signs is known in Patent Document 1, etc.
Patent Document 1: Japanese Patent Laid-Open Publication No. 2010-108727
The present inventors have found that there is room for further improving visibility of road signs in the vehicle lamp described above.
The present invention aims to provide a vehicle lamp having high visibility of road signs.
A vehicle lamp of the present invention includes
a light source configured to emit light of a prescribed spectrum; and
an optical member provided on an optical path of the light and configured to increase the number of peaks in the spectrum of the light.
Generally, in road signs, specific color shade portions such as blue, green and red are combined. According to the vehicle lamp of the present invention, out of light emitted from the light source, light with certain wavelength is attenuated by the optical member, and hence, the light where the number of peaks is increased is emitted from the vehicle lamp. Thus, luminous intensity of light with a peak wavelength is greater than that of light with other wavelength. Therefore, by selecting the optical member such that a peak is formed at a wavelength corresponding to a specific color shade of road signs, a specific color shade portion of the road signs is evidently illuminated than an object of other colors. In this way, it is possible to provide a vehicle lamp in which visibility of road signs is improved.
In the vehicle lamp of the present invention,
light having at least two or more peaks may be emitted to the front of the vehicle lamp by the optical member.
Further, light having at least three or more peaks may be emitted to the front of the vehicle lamp by the optical member.
According to the vehicle lamp of the present invention, it is possible to favorably handle road signs in which two or three or more colors are combined.
In the vehicle lamp of the present invention,
a light-transmitting member configured to transmit the light may be provided on the optical path of the light, and
the optical member may be provided in the light-transmitting member.
According to the vehicle lamp of the present invention, a separate structure for supporting the optical member is not required and it is not necessary to change the design of an existing vehicle lamp.
In the vehicle lamp of the present invention,
a light-reflecting member configured to reflect the light may be provided on the optical path of the light, and
the optical member may be provided in the light-reflecting member.
According to the vehicle lamp of the present invention, a separate structure for supporting the optical member is not required and it is not necessary to change the design of an existing vehicle lamp.
Further, a vehicle lamp of the present invention includes
a light source configured to emit light of a spectrum having at least two peaks; and
an optical member provided on an optical path of the light and configured to attenuate light having a wavelength between the peaks of the light.
In the vehicle lamp of the present invention,
a housing having an opening on the front side may be provided, and
the optical member may be an outer cover which closes the opening to form a lamp chamber together with the housing.
In the vehicle lamp of the present invention,
a housing having an opening and an outer cover for closing the opening to form a lamp chamber together with the housing may be provided, and
the optical member may be an inner lens provided on the optical path in the lamp chamber.
In the vehicle lamp of the present invention,
the optical member may be a reflector which is provided on the optical path and reflects light emitted from the light source.
In the vehicle lamp of the present invention,
a transmission spectrum of the optical member may have a peak at a wavelength corresponding to the peak of light emitted from the light source.
In the vehicle lamp of the present invention,
the light source may emit light having at least two peaks which become a white light when combined with each other.
According to the present invention, a vehicle lamp having high visibility of road signs is provided.
<First Embodiment>
Hereinafter, a vehicle lamp according to a first embodiment of the present invention will be described in detail with reference to the drawings. The vehicle lamp of the present embodiment is a lamp which is provided on the front portion of a vehicle, and especially, can be suitably irradiated to road signs.
The LED light source 10 includes an LED (Light Emitting Diode) element 10a and a circuit board 10b on which the LED element 10a is mounted. The LED element 10a has a light emitting element to emit a blue light and a phosphor to convert the blue light into a yellow light. The LED element emits a white light by mixing the blue light and the yellow light. The LED light source 10 is supported on a front surface of a support substrate 4. The support substrate 4 is attached to the housing 2 through an aiming screw 5.
In the projection lens 20, a rear focal point is located at a position near the LED element 10a. The projection lens 20 is fixed to a lens holder 6 extending forward from the support substrate 4.
A heat sink 7 and a heat dissipation fan 8 are provided on a rear surface of the support substrate 4. The heat sink 7 and the heat dissipation fan 8 dissipate heat generated from the LED light source 10 provided on the front surface of the support substrate 4.
As shown in
The multi-layer film filter 30 can be produced by laminating a semi-transparent metal film, a transparent dielectric film and a semi-transparent metal film by using, for example, a plasma ion process (an example of the deposition). The multi-layer film filter 30 can be produced by laminating, for example, Ta2O3, Ti2O3, Si2O3 or the like. For example, a multi-band pass filter (Model No. #87-245) made by Edmund Optics Inc., can be used as the multi-layer film filter 30.
Next, the optical characteristics of the vehicle lamp 1 are described with reference to
As shown in
As shown in
When the light emitted from the LED light source 10 passes through the multi-layer film filter 30, out of the light emitted from the LED light source 10, the light with the wavelength of 550 nm to 590 nm is not transmitted. Therefore, the peak formed over the wavelength of 520 nm to 650 nm is divided into two.
Therefore, as shown in
Thus, according to the vehicle lamp 1 of the present embodiment, out of the light emitted from the LED light source 10, the light with a specific wavelength is transmitted by the multi-layer film filter 30 and the light with other wavelength is attenuated by the multi-layer film filter 30, thereby increasing the number of peaks. When the multi-layer film filter 30 is configured such that a peak is formed at a wavelength corresponding to a specific color shade of road signs, the road signs are evidently illuminated.
Specifically, in the vehicle lamp 1 of the present embodiment, the multi-layer film filter 30 has a transmission spectrum shown in
Further, since the vehicle lamp 1 of the present embodiment can emit light having three peaks to the front of the lamp, the light can be evidently irradiated to the road signs composed of three colors, thereby improving visibility of the road signs.
In the present embodiment, the projection lens 20 for transmitting the light from the LED light source 10 is provided on an optical path of the light and the multi-layer film filter 30 is provided in the projection lens 20. Therefore, it is not necessary to separately provide a structure for supporting the multi-layer film filter 30. As a result, the multi-layer film filter 30 can be provided in a vehicle lamp having an existing projection lens without changing the design of the vehicle lamp, and hence, versatility is high.
Meanwhile, the number of peaks or the width of peaks of light to be formed by the multi-layer film filter 30 is not limited to the above embodiment. For example, the number of peaks or the width of peaks can be properly selected in accordance with the color shades of target road signs. Now, first to third modified examples where at least one of the optical member and the light source is changed from the above embodiment are described.
<First Modified Example>
In a first modified example, the characteristics of the multi-layer film filter 30 are changed from the vehicle lamp 1 of the first embodiment described above.
Since the LED light source 10 of the vehicle lamp 1 of the present modified example is the same as the LED light source 10 of the first embodiment,
As shown in
Therefore, as shown in
According to the vehicle lamp 1 of the present modified example, light can be evidently irradiated to road signs having a color shade corresponding to the wavelength of the peak formed by the multi-layer film filter 30. Therefore, visibility of the road signs can be improved.
Especially, according to the vehicle lamp 1 of the first modified example, light with a narrower wavelength band can be irradiated to the front of the lamp, as compared with the vehicle lamp of the first embodiment. Therefore, the road signs having a color corresponding to the light with this wavelength can be more emphasized.
<Second Modified Example>
Also in a second modified example, the characteristics of the multi-layer film filter 30 are changed from the vehicle lamp of the first embodiment described above.
Since the LED light source 10 of the vehicle lamp 1 of the present modified example is the same as the LED light source 10 of the first embodiment,
As shown in
Therefore, as shown in
According to the vehicle lamp 1 of the present modified example, light can be evidently irradiated to the road signs having a color shade corresponding to the wavelength of the peak formed by the multi-layer film filter 30. Therefore, visibility of the road signs can be improved.
Especially, for the light emitted from the vehicle lamp 1 of the second modified example, luminous intensity of light with the wavelength of 445 nm to 450 nm is greater than in other peaks, as compared with the first embodiment and the first modified example described above. Therefore, reflective brightness of the blue portion corresponding to the light with the wavelength of 445 nm to 450 nm becomes greater than that of the light with other wavelength, so that the blue portion of road signs is evidently visible.
<Third Modified Example>
In a third modified example, the light source is changed from the LED light source 10 to a halogen light source 11, unlike the vehicle lamp 1 of the first embodiment. Further, a multi-layer film filter 30 having optical characteristics different from the multi-layer film filter 30 of the first embodiment is used.
As shown in
As shown in
Therefore, as shown in
According to the vehicle lamp 1 of the present modified example, light can be evidently irradiated to the road signs having a color shade corresponding to the wavelength of the peak formed by the multi-layer film filter 30. Therefore, visibility of the road signs can be improved.
Especially, as is apparent from a comparison between
Meanwhile, the multi-layer film filter 30 is preferably designed such that the light illuminated from the vehicle lamp 1 is a white light.
Therefore, the vehicle lamp 1 according to the first embodiment and the first to third modified examples can be applied to an existing vehicle headlamp. Further, even when a white portion is included in the road signs described above, it is possible to improve visibility of the road signs.
In the above-described embodiments, an example where light having three peaks is emitted to the front of the lamp by the multi-layer film filter 30 has been described. However, the present invention is not limited to this configuration. Preferably, light having at least two or more peaks is emitted to the front of the lamp by the multi-layer film filter 30. Light can be evidently irradiated to road signs in which two or more colors are combined, thereby improving visibility of the road signs.
In the first embodiment described above, an example where the multi-layer film filter 30 is deposited on the rear surface of the projection lens 20 has been described. However, the present invention is not limited to this configuration. For example, the multi-layer film filter 30 may be formed on at least one of the rear surface and front surface of the projection lens 20, specifically, on the portion through which light to illuminate a region having road signs located thereon passes.
Further, the position where the multi-layer film filter 30 is provided is not limited to the projection lens 20, so long as the multi-layer film filter 30 is provided on the optical path of light emitted from the light source. The multi-layer film filter 30 can be provided in a light-transmitting member for transmitting light emitted from the light source. For example, the multi-layer film filter 30 may be provided on various inner lenses provided in the lamp chamber S, such as a light pipe, alternatively, on the outer cover 3. Further, the multi-layer film filter 30 may be formed on the light emitting surface of the LED light source 10 or the halogen light source 11.
<Second Embodiment>
The multi-layer film filter 30 may be provided on a light-reflecting member, which is provided on the optical path of light emitted from the light source and reflects the light. Subsequently, a second embodiment of the present invention where an optical film 31 as an example of the optical member is provided on a reflector 40 as an example of the light-reflecting member is described.
The vehicle lamp 1A of the present embodiment includes the reflector 40 in the lamp chamber S. Light emitted from the LED light source 10 is reflected in a reflective surface of the reflector 40 and emitted to the front of the lamp.
The optical film 31 (an example of the optical member) is bonded to the reflective surface of the reflector 40. The optical film 31 can be formed by depositing a multi-layer film on the surface of, for example, an adhesive tape. The optical film 31 has the same optical characteristics as those shown in
Also in the vehicle lamp 1A according to the present embodiment, light can be evidently irradiated to road signs having a color shade corresponding to the wavelength of the peak formed by the optical film 31. Therefore, visibility of the road signs can be improved. Further, also in the present embodiment, it is not necessary to separately provide a structure for supporting the optical member, and hence, it is not necessary to change the design of a vehicle lamp having an existing reflector. Thus, the present invention can be also applied to a vehicle lamp which does not use a projection lens. Further, the present invention can be also applied to a vehicle lamp which includes a projection lens and a reflector.
<Third Embodiment>
The vehicle lamp according to the present embodiment includes an inner lens 50 between the projection lens 20 and the LED light source 10. A multi-layer film filter 32 is formed on the surface of the inner lens 50 facing the LED light source 10.
The inner lens 50 is pivotable around a rotation axis directed in a longitudinal direction by a motor 51 attached to the lens holder 6. In this way, the multi-layer film filter 32 provided in the inner lens 50 is movable to a position on the optical path of light emitted from the LED light source 10 and a position deviated from the optical path.
Therefore, a normal state where light from the LED light source 10 is irradiated as it is and an object of various color shades is thus easily visible and a state where only the light with a specific wavelength band is illuminated by the multi-layer film filter 32 and visibility of road signs is thus improved can be switched by the driving of the motor 51. Thus, it is possible to provide a vehicle lamp 1B capable of improving visibility of road signs, as needed.
Further, in the present embodiment, the motor 51 and the LED light source 10 are preferably controlled by using a control means 70 such that the luminous intensity of light passed through the multi-layer film filter 32 is constant both when the multi-layer film filter 32 is located on the optical path and when the multi-layer film filter 32 is deviated from the optical path. In this way, the reflective brightness of a specific color shade portion of road signs can be periodically varied while the luminous intensity of light emitted from the vehicle lamp 1B is substantially constant. Therefore, visibility of the road signs can be further improved. The control means 70 may be mounted on the vehicle lamp 1B or may be incorporated into an ECU (Electronic Control Unit) of a vehicle.
<Fourth Embodiment>
The vehicle lamp 1C according to the present embodiment includes a first lamp unit 61 and a second lamp unit 62 in the lamp chamber S. Each of the first lamp unit 61 and the second lamp unit 62 includes the LED light source 10 and the projection lens 20 or the like and is configured to illuminate substantially the same range. While the multi-layer film filter 30 is provided on the projection lens 20 of the first lamp unit 61, the multi-layer film filter is not provided in the projection lens 20 of the second lamp unit 62. Therefore, the second lamp unit 62 emits a white light emitted from the light source as it is whereas the first lamp unit 61 emits a white light composed of only the light with a specific wavelength band out of light emitted from the light source.
By alternately lighting the first lamp unit 61 and the second lamp unit 62, the road signs are evidently visible and an object with various color shades can be made in a state of being easily visible. Preferably, the period of the lighting is set in a period such that the light does not appear as being flashed on and off for a driver.
Further, in the present embodiment, both of the LED light sources 10, 10 are preferably controlled by using the control means 70 such that luminous intensity of light emitted from the first lamp unit 61 is substantially the same as that of light emitted from the second lamp unit 62. In this way, the reflective brightness of a specific color shade portion of road signs can be periodically varied while the luminous intensity of light emitted from the vehicle lamp 1C is substantially constant. Therefore, visibility of the road signs can be further improved. The control means 70 may be mounted on the vehicle lamp 1C or may be incorporated into an ECU (Electronic Control Unit) of a vehicle.
Meanwhile, in each of the embodiments and the modified examples described above, an example where the multi-layer film filters 30, 32 or the optical film 31 formed by deposition is used as the optical member has been described. However, the present invention is not limited to this configuration.
For example, the optical member may be formed by applying material such as Ta2O3 described above on the surface of the projection lens 20, the reflector 40 or the inner lens 50. The optical member may be formed by incorporating specific material into the projection lens 20 so as to have the above-described optical characteristics. Alternatively, the optical member may be formed by forming fine irregularities on the surface of the projection lens 20 or the reflector 40 so as to have the above-described optical characteristics.
In each of the embodiments and each of the modified examples described above, an example where the LED light source 10 or the halogen light source 11 is used as the light source has been described. However, the present invention is not limited to these examples. As the light source, a known light source such as an incandescent bulb, a discharge bulb, an organic EL and a phosphor LD (Laser Diode) can be used.
Further, the above-described vehicle lamp is preferably mounted on a vehicle in such a way that an emission position of light from the lamp is positioned within 200 mm from a front end of a front window of a vehicle. As the emission position of the light approaches an eye point, visibility of road signs can be improved.
<Fifth Embodiment>
Next, a vehicle lamp according to a fifth embodiment of the present invention is described in detail with reference to the drawings. The vehicle lamp of the present embodiment is a lamp provided in a vehicle front portion.
For example, in Japanese Patent Laid-Open Publication No. 2011-100555 or the like, various suggestions for preventing the damage (so-called erosion) of resin components of the lamp by sunlight condensed by a projection lens have been made for a vehicle lamp.
An outer cover of a vehicle lamp is uniformly colorless and transparent and the vehicle lamps look like the same. Further, currently, there is no attempt to improve the design while preventing erosion.
Therefore, the fifth embodiment of the present invention provides a vehicle lamp having the design improved while preventing erosion.
The LED light source 110 includes an LED (Light Emitting Diode) element 110a and a circuit board 110b on which the LED element 110a is mounted. The LED element 110a has a light emitting element to emit a blue light and a phosphor to convert the blue light into a yellow light. The LED element emits a white light by mixing the blue light and the yellow light. The LED light source 110 is mounted on a holder 106 supported on a front surface of a support substrate 104. The support substrate 104 is attached to the housing 102 through an aiming screw 105.
The reflector 140 is mounted on the holder 106. The projection lens 120 is provided in front of the LED light source 110. The projection lens 120 is fixed to the holder 106.
A heat sink 107 and a heat dissipation fan 108 are provided on a rear surface of the support substrate 104. The heat sink 107 and the heat dissipation fan 108 dissipate heat generated from the LED light source 110 provided on the front surface of the support substrate 104.
In the present embodiment, the outer cover 103 as an example of the optical member has optical characteristics of attenuating the light with the wavelength between peaks in the spectrum of light emitted from the LED light source 110. The outer cover 103 exhibits an appearance of dark-smoke tone during non-lighting. For example, the outer cover 103 is formed by mixing specific-wavelength absorbing pigment or the like into transparent acrylic resin. In this way, the outer cover 103 having such optical characteristics can be realized.
Next, the optical characteristics of the vehicle lamp 101 are described with reference to
As shown in
As shown in
Therefore, as shown in
Strictly, the light with the wavelength band of 440 nm or less and the light with the wavelength band of 450 nm to 520 nm are cut (100% attenuation) by the outer cover 103. However, as shown in
On the other hand, as shown in
Therefore, considering the entire wavelength band, the light emitted from the LED light source 110 is not greatly attenuated by the outer cover 103.
Subsequently, a case where sunlight enters the lamp chamber S via the outer cover 103 is described with reference to
As shown in
As shown in
Therefore, when viewing the vehicle lamp 101 from the outside during non-lighting, the sunlight attenuated enters the lamp chamber S, and hence, the outer cover 103 is seen in the dark-smoke tone. As compared with a vehicle lamp which has a conventional colorless and transparent outer cover, the outer cover 103 gives a unique impression, and thus, the vehicle lamp 101 with high appearance design is provided. Especially, since the outer cover 103 occupies a large area of the vehicle lamp 101 as seen from the front, the design of the vehicle lamp 101 is greatly enhanced.
Further, since the sunlight entering the lamp chamber S is attenuated, the energy of light entering the lamp chamber S is low. Therefore, erosion does not occur, even when sunlight is condensed on the surface of the support substrate 104 or the holder 106 by the projection lens 120 or the reflector 140 or the like. Further, in addition to the support substrate 104 or the holder 106, erosion of resin members provided in the lamp chamber S, such as an extension or a shade, can be prevented.
Further, as described in
Further, according to the vehicle lamp 101 of the present embodiment, the transmission spectrum of the outer cover 103 has a peak at a wavelength corresponding to a peak of light emitted from the LED light source 110, as shown in
(Fourth Modified Example)
Meanwhile, the outer cover is not limited to those having the transmission spectrum shown in
The RGB laser light source of the present modified example emits light having a peak near the wavelength of 445 nm, a peak near the wavelength of 525 nm and a peak near the wavelength of 620 nm, as shown in
As shown in
Therefore, as shown in
Strictly, the light with the wavelength band of 440 nm or less, 450 nm to 520 nm, 550 nm to 590 nm, and 650 nm or more is attenuated by the outer cover 103. However, the light with the above wavelength band, which is emitted from the RGB laser light source, has low relative irradiance. Therefore, the light passed through the outer cover 103 is not greatly attenuated.
On the contrary, when sunlight enters the lamp chamber S via the outer cover 103, the sunlight is greatly attenuated by the outer cover 103. Out of sunlight having a continuous spectrum, the light with the wavelength band of 440 nm or less, 450 nm to 520 nm, 550 nm to 590 nm, and 650 nm or more is attenuated by the outer cover 103, and thus, the energy of sunlight is greatly lowered by the outer cover 103.
Therefore, when viewing the vehicle lamp 101 from the outside during non-lighting, the outer cover 103 is seen in the dark-smoke tone. As compared with a vehicle lamp which has a conventional colorless and transparent outer cover, the appearance design of the vehicle lamp 101 of the present modified example is enhanced. Further, the energy of sunlight entering the lamp chamber S is lowered, and hence, erosion is less likely to occur.
Thus, also in the present modified example, the vehicle lamp 101 where erosion is prevented and design is enhanced is provided.
Meanwhile, in the embodiments and the modified examples described above, an example where the outer cover 103 has a transmission spectrum shown in
Further, in the first embodiment described above, an example where the outer cover 103 is caused to have a specific transmission spectrum has been described. However, the present invention is not limited to this configuration. The optical member having the transmission spectrum as shown in
In this case, in the front view of the vehicle lamp 101, an inner lens or the reflector 140 constituting a portion of the lamp exhibits a smoke tone or a specific color shade. Therefore, it is possible to provide a vehicle lamp having good appearance design in which the inner lens or the reflector 140 is noticeable.
In the fifth embodiment and the fourth modified example described above, an example where the LED light source having two peaks and the RGB laser light source having three peaks are adopted as the light source has been described. However, the present invention is not limited to these configurations. For example, an LED light source, an LD (Laser Diode) light source, a discharge bulb or an organic EL or the like, which emits light having a plurality of peaks, can be adopted as the light source.
Further, the light source and the optical member are preferably designed such that the light illuminated from the vehicle lamp 101 is a white light.
Meanwhile, a means for giving desired optical characteristics to the optical member such as the outer cover 103 is not limited to those described above. For example, it is possible to give desired optical characteristics to the optical member by laminating Ta2O3, Ti2O3 or Si2O3 or the like on the surface of the optical member. Alternatively, a film having Ta2O3, Ti2O3 or Si2O3 or the like laminated thereon may be bonded to the optical member. Alternatively, a desired optical member may be provided by forming fine irregularities on the surface of the optical member so as to have the above-described optical characteristics.
Further, in
In addition, the vehicle lamp 101 shown in
Further, the present invention is not limited to the configurations described in the above embodiments and modified examples thereof but may employ a configuration that other various modifications are applied thereto.
This application is based upon Japanese Patent Application (Patent Application No. 2014-011344) filed on Jan. 24, 2014 and Japanese Patent Application (Patent Application No. 2014-017398) filed on Jan. 31, 2014, and the contents of which are incorporated herein by reference.
According to the present invention, a vehicle lamp with high visibility of road signs is provided.
1: Vehicle Lamp, 2: Housing, 3: Outer Cover, 4: Support Substrate, 5: Aiming Screw, 6: Lens Holder, 7: Heat Sink, 8: Heat Dissipation Fan, 10: LED Light Source, 11: Halogen Light Source, 10a: LED Element, 10b: Circuit Board, 20: Projection Lens, 30: Multi-layer Film Filter, 31: Optical Film, 40: Reflector, 50: Inner Lens, 61: First Lamp Unit, 62: Second Lamp Unit, 70: Control Means, 101: Vehicle Lamp, 102: Housing, 103: Outer Cover, 104: Support Substrate, 105: Aiming Screw, 106: Holder, 107: Heat Sink, 108: Heat Dissipation Fan, 110: LED Light Source, 111: Halogen Light Source, 110a: LED Element, 110b: Circuit Board, 120: Projection Lens, 140: Reflector, A: chromaticity range, S: Lamp Chamber
Number | Date | Country | Kind |
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2014-011344 | Jan 2014 | JP | national |
2014-017398 | Jan 2014 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2015/050805 | 1/14/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2015/111483 | 7/30/2015 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5285362 | Sakata | Feb 1994 | A |
20050117361 | Takeda et al. | Jun 2005 | A1 |
20080036351 | Muller et al. | Feb 2008 | A1 |
20100110715 | Nakada | May 2010 | A1 |
20110248624 | Kishimoto et al. | Oct 2011 | A1 |
Number | Date | Country |
---|---|---|
1664440 | Sep 2005 | CN |
101057166 | Oct 2007 | CN |
102252247 | Nov 2011 | CN |
H 5-67453 | Mar 1993 | JP |
H 11-25709 | Jan 1999 | JP |
2001160377 | Jun 2001 | JP |
2008268757 | Nov 2008 | JP |
2010108727 | May 2010 | JP |
2011100555 | May 2011 | JP |
Entry |
---|
Machine Translation of Kazunari JP 2001-160377A. |
Machine Translation of Manabu JP 11025709A. |
Search Report (PCT/ISA/210) dated Feb. 17, 2015, issued by the International Searching Authority in counterpart International Application No. PCT/JP2015/050805. |
Written Opinion (PCT/ISA/237) dated Feb. 17, 2015, issued by the International Searching Authority in counterpart International Application No. PCT/JP2015/050805. |
Communication dated Dec. 4, 2017, from the State Intellectual Property Office of People's Republic of China in counterpart Application No. 201580005533.1. |
Number | Date | Country | |
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20170009948 A1 | Jan 2017 | US |