公开(公告)号：US20150287957A1

公开(公告)日：2015-10-08

申请号：US14440697

申请日：2012-11-08

Applicant: Pioneer Corporation

Inventor： Ayako Yoshida ,  Kazuo Kuroda

IPC: H01L51/52 ,  H01L27/32

CPC classification number: H01L51/5271 ,  H01L27/3218 ,  H01L27/3283 ,  H01L51/5036 ,  H01L51/5203 ,  H01L51/5218 ,  H01L51/5225 ,  H01L51/5234 ,  H01L2251/5307 ,  H01L2251/5361 ,  H01L2251/5376

Abstract: A mirror device has a plurality of organic EL elements and a plurality of metal mirror surface portions that are divided by banks made of a light-transmissive dielectric material and aligned on a substrate. Each of the organic EL elements has an organic layer that is formed between a light-transmissive electrode and a reflection electrode and contains a light-emitting layer. Each of the metal mirror surface portions and each of the organic EL elements or each group of the metal mirror surface portions and each group of the organic EL elements are alternately disposed.

Abstract translation: 反射镜装置具有多个有机EL元件和多个金属镜表面部分，它们被由透光电介质材料制成并且在衬底上排列的堤分隔开。 每个有机EL元件具有形成在透光电极和反射电极之间并且包含发光层的有机层。 金属镜表面部分和每个有机EL元件或每组金属镜表面部分和每组有机EL元件中的每一个交替地布置。

公开(公告)号：US10090488B2

公开(公告)日：2018-10-02

申请号：US15202919

申请日：2016-07-06

Applicant: PIONEER CORPORATION

Inventor： Ayako Yoshida ,  Kazuo Kuroda

IPC: H01L51/52 ,  H01L27/32 ,  G02B5/09 ,  B60Q3/252

Abstract: A mirror device has a light-transmissive substrate and at least one organic EL element supported on the back surface of the light-transmissive substrate, and emits light from the front surface of the light-transmissive substrate. The organic EL element has an organic layer containing a light-emitting layer layered between a light-transmissive electrode and a reflection electrode that are opposite to each other. The light-transmissive electrode is formed on the light-transmissive substrate. The mirror device has a plurality of metal mirror surface portions that each have an area smaller than the area of the light-transmissive electrode and are distributed and disposed on the front surface of the light-transmissive substrate so as to be opposite to the light-emitting layer.

公开(公告)号：US10109819B2

公开(公告)日：2018-10-23

申请号：US15411104

申请日：2017-01-20

Applicant: PIONEER CORPORATION

Inventor： Ayako Yoshida ,  Kazuo Kuroda

IPC: H01L51/52 ,  H01L27/32

Abstract: A mirror device has a plurality of organic EL elements and a plurality of metal mirror surface portions that are divided by banks made of a light-transmissive dielectric material and aligned on a substrate. Each of the organic EL elements has an organic layer that is formed between a light-transmissive electrode and a reflection electrode and contains a light-emitting layer. Each of the metal mirror surface portions and each of the organic EL elements or each group of the metal mirror surface portions and each group of the organic EL elements are alternately disposed.

公开(公告)号：US09399428B2

公开(公告)日：2016-07-26

申请号：US14441159

申请日：2012-11-08

Applicant: Pioneer Corporation

Inventor： Ayako Yoshida ,  Kazuo Kuroda

IPC: B60Q3/02 ,  H01L51/52 ,  H01L27/32

CPC classification number: H01L51/5271 ,  B60Q3/252 ,  G02B5/09 ,  H01L27/3211 ,  H01L27/3246 ,  H01L27/3283 ,  H01L51/5206 ,  H01L51/5221 ,  H01L51/5262

Abstract: A mirror device has a light-transmissive substrate and at least one organic EL element supported on the back surface of the light-transmissive substrate, and emits light from the front surface of the light-transmissive substrate. The organic EL element has an organic layer containing a light-emitting layer layered between a light-transmissive electrode and a reflection electrode that are opposite to each other. The light-transmissive electrode is formed on the light-transmissive substrate. The mirror device has a plurality of metal mirror surface portions that each have an area smaller than the area of the light-transmissive electrode and are distributed and disposed on the front surface of the light-transmissive substrate so as to be opposite to the light-emitting layer.

Abstract translation: 反射镜装置具有透光基板和支撑在透光基板的背面上的至少一个有机EL元件，并且从透光基板的前表面发射光。 有机EL元件具有包含彼此相对的在透光电极和反射电极之间层叠的发光层的有机层。 透光电极形成在透光性基板上。 镜装置具有多个金属镜面部分，每个金属镜面部分的面积小于透光电极的面积，并且分布并设置在透光性基板的正面上， 发光层。

公开(公告)号：US09590209B2

公开(公告)日：2017-03-07

申请号：US14440697

申请日：2012-11-08

Applicant: Pioneer Corporation

Inventor： Ayako Yoshida ,  Kazuo Kuroda

IPC: H01L51/52 ,  H01L27/32 ,  H01L51/50

CPC classification number: H01L51/5271 ,  H01L27/3218 ,  H01L27/3283 ,  H01L51/5036 ,  H01L51/5203 ,  H01L51/5218 ,  H01L51/5225 ,  H01L51/5234 ,  H01L2251/5307 ,  H01L2251/5361 ,  H01L2251/5376

Abstract: A mirror device has a plurality of organic EL elements and a plurality of metal mirror surface portions that are divided by banks made of a light-transmissive dielectric material and aligned on a substrate. Each of the organic EL elements has an organic layer that is formed between a light-transmissive electrode and a reflection electrode and contains a light-emitting layer. Each of the metal mirror surface portions and each of the organic EL elements or each group of the metal mirror surface portions and each group of the organic EL elements are alternately disposed.

Abstract translation: 反射镜装置具有多个有机EL元件和多个金属镜表面部分，它们被由透光电介质材料制成并且在衬底上排列的堤分隔开。 每个有机EL元件具有形成在透光电极和反射电极之间并且包含发光层的有机层。 金属镜表面部分和每个有机EL元件或每组金属镜表面部分和每组有机EL元件中的每一个交替地布置。

公开(公告)号：US20150280173A1

公开(公告)日：2015-10-01

申请号：US14436996

申请日：2012-10-26

Applicant: PIONEER CORPORATION

Inventor： Kazuo Kuroda ,  Hiroshi Ohata ,  Toshiharu Uchida

IPC: H01L51/52 ,  H01L51/00 ,  H01L51/50

CPC classification number: H01L51/5275 ,  H01L51/0045 ,  H01L51/0096 ,  H01L51/5012 ,  H01L51/5206 ,  H01L51/5212 ,  H01L51/5234 ,  H01L51/5253 ,  H01L51/5271 ,  H01L2251/301 ,  H01L2251/5361 ,  H01L2251/558 ,  H05B33/22 ,  H05B33/28

Abstract: A dielectric layer (170) faces a surface of alight transmissive electrode (120) opposite to a surface facing an organic functional layer (110). Then, a light transmissive substrate (140) faces a surface of the dielectric layer (170) opposite to a surface facing the light transmissive electrode (120). At least apart of an optical angle change unit (150) is positioned in the dielectric layer (170) in a thickness direction of the light transmissive substrate (140). Light incident on the dielectric layer (170), for example, is reflected by a side surface of the optical angle change unit (150), and thus an incident angle with respect to a first surface (141) of the light transmissive substrate (140) decreases.

Abstract translation: 电介质层（170）面向与面向有机功能层（110）的表面相对的透光电极（120）的表面。 然后，透光基板（140）面向与面向透光电极（120）的表面相对的电介质层（170）的表面。 光学角度变化单元（150）的至少一部分在透光性基板（140）的厚度方向上位于电介质层（170）中。 入射到电介质层（170）上的光例如被光学角度变化单元（150）的侧表面反射，因此相对于透光基底（140）的第一表面（141）的入射角 ）减少。

公开(公告)号：US20180013984A1

公开(公告)日：2018-01-11

申请号：US15705116

申请日：2017-09-14

Applicant: PIONEER CORPORATION

Inventor： Kazuo Kuroda ,  Ayako Yoshida

IPC: H04N7/18 ,  H04N5/357 ,  H04N5/235 ,  G06K9/20 ,  G06K9/18 ,  H04N1/195 ,  G11B25/04 ,  G06K9/32 ,  H04N5/225 ,  H04N5/232

CPC classification number: H04N7/18 ,  G06K9/18 ,  G06K9/2018 ,  G06K9/3216 ,  G11B25/04 ,  H04N1/19594 ,  H04N5/2251 ,  H04N5/2252 ,  H04N5/2256 ,  H04N5/23296 ,  H04N5/2354 ,  H04N5/357 ,  H04N2201/00

Abstract: A mark irradiation unit (130) irradiates an object with a mark. An image capture unit (140) captures an image of the object, and generates image data. Then, an image capture area data generation unit recognizes a position of the mark in the object, and cuts out image capture area data which is a part of the image data on the basis of the mark. For this reason, the mark irradiation unit (130) irradiates the object with the mark, and thus even when a positioning symbol is not printed on the object to be stored as the image data, only a necessary portion in the image data is cut out.

公开(公告)号：US09810961B2

公开(公告)日：2017-11-07

申请号：US14763137

申请日：2013-01-25

Applicant: Pioneer Corporation

Inventor： Kazuo Kuroda

IPC: G02F1/1335 ,  G02F1/137 ,  H01L51/50 ,  G09G3/34 ,  E06B9/24

CPC classification number: G02F1/137 ,  E06B2009/2464 ,  G02F1/133528 ,  G09G3/3406 ,  H01L51/50

Abstract: A light emitting system 10 includes a light source (100), a light transmission quantity adjustment unit (200), and a control unit (300). The light source (100) may be a fluorescent lamp or an electric bulb, and may be an Organic Electroluminescence (EL) element or a Light Emitting Diode (LED) element. The light transmission quantity adjustment unit (200) is arranged with a space (S) from the light source (100), and adjusts a light transmission quantity. The control unit (300) controls the light transmission quantity adjustment unit (200) based on a timing at which the light source (100) emits light.