公开(公告)号：US20180180496A1

公开(公告)日：2018-06-28

申请号：US15849177

申请日：2017-12-20

Applicant: Konica Minolta, Inc.

Inventor： Hideo UEMURA ,  Kazuki IKEDA

IPC: G01L1/22 ,  G01B11/16 ,  G01L1/24

CPC classification number: G01L1/2293 ,  G01B11/161 ,  G01L1/247

Abstract: A strain sensor includes a marker, a light source, a first detector, a second detector and a calculator. The marker includes a strain body and surface plasmon generating particles which are arranged in the strain body in a direction normal to a light receiving surface of the strain body and in a first direction that is an in-plane direction of the light receiving surface. A strain is produced in the strain body by a load. The first detector detects a spectrum intensity of the light which has been reflected on the marker or which has passed through the marker. The second detector detects a peak of an absorption spectrum of the light. The calculator calculates the quantity of strain in the direction normal to the light receiving surface.

公开(公告)号：US20160252345A1

公开(公告)日：2016-09-01

申请号：US15015230

申请日：2016-02-04

Applicant: KONICA MINOLTA, INC.

Inventor： Kazuki IKEDA ,  Takashi KUROSAWA ,  Hideo UEMURA

IPC: G01B11/16 ,  G01L1/24

CPC classification number: G01B11/168 ,  G01B11/165 ,  G01L1/24 ,  G01L5/166

Abstract: A strain sensor includes a light source, a marker which is disposed on a measuring object so that light from the light source is reflected by or transmitted through the marker, a detector which detects the intensity of the light from the marker, and a signal processor which calculates a strain amount based on the detected light intensity. The marker is a flat film including first and second media having different refractive indexes. The second medium is periodically arrayed in the first medium and exists simultaneously with the first medium on a plane parallel to the marker mounting surface. The maximum length of the second medium in a direction parallel to the mounting surface is shorter than the wavelength of the emitted light. The first and second media deform in response to load in a direction parallel to the mounting surface.

Abstract translation: 应变传感器包括光源，设置在测量对象上的标记，使得来自光源的光被标记物反射或透过，用于检测来自标记的光的强度的检测器，以及信号处理器 其基于检测到的光强计算应变量。 标记是包括具有不同折射率的第一和第二介质的平坦膜。 第二介质周期性排列在第一介质中，并且与平行于标记安装表面的平面上的第一介质同时存在。 第二介质在平行于安装表面的方向上的最大长度短于发射光的波长。 第一和第二介质响应于平行于安装表面的方向的负载而变形。

公开(公告)号：US20180113036A1

公开(公告)日：2018-04-26

申请号：US15793348

申请日：2017-10-25

Applicant: Konica Minolta, Inc.

Inventor： Hideo UEMURA ,  Kazuki IKEDA ,  Makoto OOKI

IPC: G01L1/24 ,  G01B11/16

CPC classification number: G01L1/241 ,  G01B11/16 ,  G01B11/18

Abstract: A strain sensor includes a marker, detectors and a calculator. The marker is disposed on a surface of a measurement object and includes a strain body and surface plasmon generating particles. In the strain body, a strain is formed by a load. The surface plasmon generating particles are arranged in two directions which are parallel to two in-plane directions of a light receiving surface of the strain body. The first detector detects a spectral intensity of a light which has been reflected on the marker or has passed through the marker. The second detector detects absorption spectral peaks corresponding to the respective array directions of the particles from the spectral intensity. The calculator calculates the quantity of the strain of the marker based on a difference in wavelength of the two absorption spectral peaks.

公开(公告)号：US20170089832A1

公开(公告)日：2017-03-30

申请号：US15242400

申请日：2016-08-19

Applicant: KONICA MINOLTA, INC.

Inventor： Hideo UEMURA ,  Kazuki IKEDA ,  Takashi KUROSAWA

IPC: G01N21/552 ,  G01N21/27 ,  G01N21/41

CPC classification number: G01N21/554 ,  G01N21/783 ,  G01N2021/7776

Abstract: Provided is a gas detection method using a localized surface plasmon sensor that can transmit, reflect, or scatter applied electromagnetic waves and that causes a change in a response spectrum of the applied electromagnetic waves due to interaction with a target to be detected, wherein the localized surface plasmon sensor includes at least an aggregate of particles having a core-shell structure composed of a core made of a substance having a maximum optical absorption peak wavelength due to surface plasmon resonances in an infrared region and a shell covering the core, the shell absorbs or reacts with the target to be detected to show a change in its refractive index, and the core has an average particle diameter D1 of 0.6 μm or more but less than the maximum optical absorption peak wavelength of the core.

公开(公告)号：US20180350882A1

公开(公告)日：2018-12-06

申请号：US15956238

申请日：2018-04-18

Applicant: KONICA MINOLTA, INC.

Inventor： Kazuki IKEDA ,  Makoto OOKI ,  Hideo UEMURA ,  Tomohiko TAGAWA ,  Yoshinobu EHARA

IPC: H01L27/32 ,  H01L51/52

CPC classification number: H01L27/32 ,  H01L25/0753 ,  H01L33/08 ,  H01L51/5275 ,  H01L2924/00 ,  H01L2924/0002 ,  H01S5/423

Abstract: An optical writing device includes: a light emitting substrate on which light emitting device groups obtained by grouping light emitting devices is arranged; a lens array including image forming lenses condensing light emitted from the light emitting devices on an image carrier; a first base material including the lens array; and a second base material including the light emitting substrate or the lens array, wherein the first and/or second base materials, each of which includes a joint formed in a joint part with the other member, is a transparent body, the joint includes a metal layer, an intermediate layer providing a peak of total transmissivity of the joint in a first wavelength band, and a marker for alignment, the first and second base materials are joined via the metal layer, and the light emitting devices emit light of a wavelength band out of the first wavelength band.

公开(公告)号：US20140168725A1

公开(公告)日：2014-06-19

申请号：US14108993

申请日：2013-12-17

Applicant: Konica Minolta, Inc.

Inventor： Akira YAMAMURA ,  Makoto OOKI ,  Takashi KUROSAWA ,  Hideo UEMURA ,  Masahiko TAKAHASHI ,  Kazuki IKEDA

IPC: H04N1/028

CPC classification number: H04N1/02815 ,  H04N1/00005 ,  H04N1/00015 ,  H04N1/00031 ,  H04N1/00047 ,  H04N1/0005 ,  H04N2201/0091

Abstract: An image forming apparatus includes: an image reading mechanism configured to read an image from a document; an image forming mechanism configured to print the image read by the image reading mechanism on a recording sheet; and an image inspection mechanism configured to read the image printed on the recording sheet in the image forming mechanism. The image reading mechanism and the image inspection mechanism each include: a light source configured to irradiate a reading target with light; and a solid-state image sensing device on which reflected light from the reading target is made incident, and configured to perform photoelectric conversion operation. Light emitting members forming the light sources of the image reading mechanism and the image inspection mechanism have the same spectral characteristics.

Abstract translation: 图像形成装置包括：图像读取机构，被配置为从文档读取图像; 图像形成机构，被配置为将由图像读取机构读取的图像打印在记录纸上; 以及图像检查机构，被配置为读取在图像形成机构中印刷在记录纸上的图像。 图像读取机构和图像检查机构各自包括：被配置为用光照射读取目标的光源; 以及其上使来自读取对象的反射光入射的固态图像感测装置，并且被配置为进行光电转换操作。 形成图像读取机构和图像检查机构的光源的发光构件具有相同的光谱特性。

公开(公告)号：US20190285779A1

公开(公告)日：2019-09-19

申请号：US16267944

申请日：2019-02-05

Applicant: KONICA MINOLTA, INC.

Inventor： Makoto OOKI ,  Hideo UEMURA ,  Kazuki IKEDA

IPC: G02B3/00 ,  G03G15/043

Abstract: A micro lens array includes: a glass substrate; and a plurality of resin lenses arranged on at least one main surface of the glass substrate, wherein, among the plurality of lenses, resin lenses arranged on one main surface of the glass substrate are such that a plurality of lines of lenses arranged in a first direction is arranged side by side in a second direction different from the first direction, a core thickness, a radius of curvature, and a surface shape of a resin lens in a certain lens line are different from a core thickness, a radius of curvature, and a surface shape of a resin lens of another lens line, and the resin lenses have the same resin volume.

公开(公告)号：US20200117110A1

公开(公告)日：2020-04-16

申请号：US16591789

申请日：2019-10-03

Applicant: Konica Minolta, Inc.

Inventor： Kazuki IKEDA ,  Makoto Ooki ,  Yoshihiro Inagaki ,  Daisuke Kobayashi ,  Mohdmakhtar Nurnabila

IPC: G03G15/041 ,  G02B3/00 ,  G03G15/04

Abstract: An image forming apparatus includes a photoconductor, a light emitting substrate, and imaging optical systems, wherein an optical axis of the imaging optical systems are parallel, imaging magnifications of the imaging optical systems are substantially equal for the light emitting point groups, the imaging optical systems includes a first lens array, a second lens array, and apertures, central points of the light emitting point group exist in a first plane, central points of the imaging lenses exist in a second plane, central points of the apertures exist in a third plane, central points of the imaging lenses exist in a fourth plane, the first plane forms a non-zero predetermined angle with respect to a plane perpendicular to an optical axis direction, and the angle formed with respect to the plane perpendicular to the optical axis direction is greater in the order of the first, second, third, and the fourth plane.

公开(公告)号：US20180066937A1

公开(公告)日：2018-03-08

申请号：US15696867

申请日：2017-09-06

Applicant: KONICA MINOLTA, INC.

Inventor： Kazuki IKEDA ,  Makoto Ooki ,  Hideo Uemura

IPC: G01B11/16 ,  G01N21/25

CPC classification number: G01B11/16 ,  G01B11/18 ,  G01L1/241 ,  G01L1/247 ,  G01N21/25 ,  G01N2021/258

Abstract: A structural color changeable material includes a strain body and surface plasmon generating particles. In the strain body, a strain is produced by an external pressure or an internal change. The surface plasmon generating particles generate surface plasmon and are contained in the strain body. The surface plasmon is generated by an incident light with a wavelength of 2400 nm or less. A mean particle size of the surface plasmon generating particles is equal to or less than the wavelength of the incident light. The surface plasmon generating particles are periodically arranged parallel to an in-plane direction of a reflection surface of the incident light.