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No. Publication Number Title Publication/Patent Number Publication/Patent Number Publication Date Publication Date
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1
US2021165145A1
NEAR-INFRARED CUT-OFF FILTER AND IMAGING DEVICE INCLUDING THE SAME
Publication/Patent Number: US2021165145A1 Publication Date: 2021-06-03 Application Number: 17/109,415 Filing Date: 2020-12-02 Inventor: Yamazaki, Takeshi   Assignee: HOYA CORPORATION   IPC: G02B5/20 Abstract: Provided is a near-infrared cut-off filter having excellent oblique incidence characteristics due to extremely low dependence on the angle of incidence, and a low transmittance in a wavelength region of 1000 nm or more. More particularly, the near-infrared cut-off filter includes a transparent substrate that is formed of glass containing iron atoms and has a half-value wavelength of greater than 630 nm on a long wavelength side of a transmittance curve and an average transmittance of 1% or less in a wavelength region of 1000 to 1200 nm; and a resin layer formed on at least one main surface of the transparent substrate to absorb light of a specific wavelength.
2
EP3807804A1
VARIATIONALLY AND ADIABATICALLY NAVIGATED QUANTUM EIGENSOLVERS
Publication/Patent Number: EP3807804A1 Publication Date: 2021-04-21 Application Number: 19821588.1 Filing Date: 2019-06-17 Inventor: Matsuura, Shunji   Yamazaki, Takeshi   Zaribafiyan, Arman   Ronagh, Pooya   Assignee: 1QB Information Technologies Inc.   IPC: G06J1/00
3
US2021166148A1
VARIATIONALLY AND ADIABATICALLY NAVIGATED QUANTUM EIGENSOLVERS
Publication/Patent Number: US2021166148A1 Publication Date: 2021-06-03 Application Number: 17/122,828 Filing Date: 2020-12-15 Inventor: Matsuura, Shunji   Yamazaki, Takeshi   Zaribafiyan, Arman   Ronagh, Pooya   Assignee: 1QB Information Technologies Inc.   IPC: G06N10/00 Abstract: The present disclosure provides methods and systems for solving an optimization problem using a computing platform comprising at least one non-classical computer and at least one digital computer. The at least one non-classical computer may be configured to perform an adiabatic quantum computation with a first Hamiltonian and second Hamiltonian.
4
US10908368B2
Optical cable connection structure and optical cable connection method
Publication/Patent Number: US10908368B2 Publication Date: 2021-02-02 Application Number: 16/791,931 Filing Date: 2020-02-14 Inventor: Yamazaki, Takeshi   Ishii, Kentaro   Koyama, Ryozo   Tanooka, Hiroshi   Assignee: HIROSE ELECTRIC CO., LTD.   IPC: G02B6/36 Abstract: An optical cable, in which a fiber optic core and tensile strength filaments are covered with a covering, is connected to a connecting element incorporated into a connector, wherein a clamping member clamps the end portion of the covering along its outer peripheral surface in a state where the covering has been removed from the end portion of the optical cable such that the fiber optic core and the tensile strength filaments are uncovered; a gripping member that grips the exposed tensile strength filaments in a state where the exposed fiber optic core passes therethrough; and a protective member that covers a range extending from the clamping member to the gripping member in the axial direction of the fiber optic core in a state where the exposed fiber optic core is connected to a connecting element of the connector while the gripping member is attached to the connector.
5
US2021078892A1
HEATER, MANUFACTURING APPARATUS FOR MANUFACTURING GLASS ARTICLE, AND MANUFACTURING METHOD FOR MANUFACTURING GLASS ARTICLE
Publication/Patent Number: US2021078892A1 Publication Date: 2021-03-18 Application Number: 17/098,983 Filing Date: 2020-11-16 Inventor: Maehara, Terutaka   Niwa, Akifumi   Hyodo, Shuntaro   Enomoto, Takashi   Yamazaki, Takeshi   Doi, Yoji   Pauli, Roger   Keen, Lawrence   Assignee: AGC Inc.   IPC: C03B5/235 Abstract: According to the present invention, provided is a heater including a heat generating member being conductive and configured to radiate heat rays by being fed with electric power, a tubular member constituted by a metal and accommodating the heat generating member, and an intermediate member arranged between the heat generating member and the tubular member and constituted by an electrically insulating material, wherein the intermediate member is arranged and/or configured to allow, among the heat rays radiated from the heat generating member, at least light having a wavelength of from 1 μm to 2 μm to pass through the intermediate member to reach the tubular member.
6
EP3813485A1
HEATER, DEVICE FOR MANUFACTURING GLASS PRODUCT, AND METHOD FOR MANUFACTURING GLASS PRODUCT
Publication/Patent Number: EP3813485A1 Publication Date: 2021-04-28 Application Number: 19822573.2 Filing Date: 2019-06-14 Inventor: Maehara, Terutaka   Niwa, Akifumi   Hyodo, Shuntaro   Enomoto, Takashi   Yamazaki, Takeshi   Doi, Yoji   Pauli, Roger   Keen, Lawrence   Assignee: AGC INC.   IPC: H05B3/06 Abstract: According to the present invention, provided is a heater including a heat generating member being conductive and configured to radiate heat rays by being fed with electric power, a tubular member constituted by a metal and accommodating the heat generating member, and an intermediate member arranged between the heat generating member and the tubular member and constituted by an electrically insulating material, wherein the intermediate member is arranged and/or configured so as not to block, among the heat rays radiated from the heat generating member, at least light having a wavelength of from 1 µm to 2 µm from reaching the tubular member.
7
EP3275668B1
HEAT TRANSFER PRINTER AND CONTROL METHOD THEREFOR
Publication/Patent Number: EP3275668B1 Publication Date: 2020-03-11 Application Number: 15886523.8 Filing Date: 2015-12-25 Inventor: Yamazaki, Takeshi   Assignee: CITIZEN WATCH CO., LTD.   Citizen Systems Japan CO., LTD.   IPC: B41J2/325
8
EP3088186B1
INKJET PRINTING APPARATUS AND CONTROL METHOD THEREFOR
Publication/Patent Number: EP3088186B1 Publication Date: 2020-09-09 Application Number: 14875522.6 Filing Date: 2014-09-29 Inventor: Yamazaki, Takeshi   Taguchi, Akihiro   Assignee: Konica Minolta, Inc.   IPC: B41J2/19
9
US10589542B2
Thermal transfer printer and method for controlling the same
Publication/Patent Number: US10589542B2 Publication Date: 2020-03-17 Application Number: 16/318,324 Filing Date: 2018-01-29 Inventor: Inokuchi, Yutaka   Yamazaki, Takeshi   Assignee: CITIZEN WATCH CO., LTD.   IPC: B41J2/355 Abstract: In order to prevent degradation in print quality which can come from matter generated from an ink ribbon and adhering to a thermal head, the thermal transfer printer transports an ink ribbon which has characteristics such that the amount of matter generated from the ink ribbon by transfer and adhering to the thermal head has a peak at predetermined transfer energy and reduces in an energy range higher than the predetermined transfer energy with increase in transfer energy, transfers ink and protective material onto paper in this order from the ink ribbon on which the ink and the protective material are repeatedly arranged in a longitudinal direction thereof, and adjusts transfer energy for the protective material to a value within a predetermined range. The lower limit of the predetermined range is higher than the predetermined transfer energy and minimum energy at which the protective material can be transferred, and is a value sufficient for transfer of the protective material to reduce matter having adhered to the thermal head since transfer of the ink. The upper limit of the predetermined range is lower than an energy value at which the protective material becomes mat and thereby glossiness of a protective layer on the paper formed from the protective material is lost.
10
US10780708B2
Printer
Publication/Patent Number: US10780708B2 Publication Date: 2020-09-22 Application Number: 16/275,506 Filing Date: 2019-02-14 Inventor: Yoshizawa, Masao   Yamazaki, Takeshi   Assignee: CITIZEN WATCH CO., LTD.   CITIZEN SYSTEMS JAPAN CO., LTD.   IPC: B41J33/14 Abstract: In a printer that drives by a ribbon motor (302), a winding axle that holds an ink ribbon positioned between a thermal head that performs a photographic printing operation with respect to a photographic medium conveyed along a sub-scanning direction and a platen that opposes the photographic print head with the photographic medium between the photographic print head and the platen, a flywheel (303) is coupled to a shaft of the ribbon motor (302), and a rotational force of the ribbon motor (302) is transmitted to the winding axle, via a worm gear (501) and a helical gear (502).
11
USD883125S1
Frame with elevator indicator
Publication/Patent Number: USD883125S1 Publication Date: 2020-05-05 Application Number: 29/628,107 Filing Date: 2017-12-01 Inventor: Hikima, Takanori   Yamazaki, Takeshi   Assignee: Mitsubishi Electric Corporation   IPC:
12
EP3431298B1
THERMAL TRANSFER PRINTER AND METHOD FOR CONTROLLING SAME
Publication/Patent Number: EP3431298B1 Publication Date: 2020-07-08 Application Number: 18751237.1 Filing Date: 2018-01-29 Inventor: Yamazaki, Takeshi   Inokuchi, Yutaka   Assignee: Citizen Watch Co., Ltd.   Citizen Systems Japan CO., LTD.   IPC: B41J2/355
13
US2020003086A1
JOINING APPARATUS AND METHOD OF JOINING
Publication/Patent Number: US2020003086A1 Publication Date: 2020-01-02 Application Number: 16/455,797 Filing Date: 2019-06-28 Inventor: Nagai, Hiroyuki   Tashiro, Takahisa   Yamazaki, Takeshi   Yokoyama, Takefumi   Assignee: HONDA MOTOR CO., LTD.   IPC: F01L3/22 Abstract: An electrode unit of a joining apparatus includes an abutting section provided with a tapered outer circumferential surface that contacts a tapered pressure-receiving surface by being inserted into an inside of a first metal member. The tapered outer circumferential surface inclines in a direction of getting closer to an axial center of the abutting section from one end side to another end side. At least part of the abutting section has a thickness elastically deformable in such a manner that the tapered outer circumferential surface aligns with the tapered pressure-receiving surface during application of a pressurizing force to the first metal member and a second metal member.
14
US202003086A1
JOINING APPARATUS AND METHOD OF JOINING
Publication/Patent Number: US202003086A1 Publication Date: 2020-01-02 Application Number: 20/191,645 Filing Date: 2019-06-28 Inventor: Nagai, Hiroyuki   Yokoyama, Takefumi   Tashiro, Takahisa   Yamazaki, Takeshi   Assignee: Honda Motor Co., Ltd.   IPC: B23K11/093 Abstract: An electrode unit of a joining apparatus includes an abutting section provided with a tapered outer circumferential surface that contacts a tapered pressure-receiving surface by being inserted into an inside of a first metal member. The tapered outer circumferential surface inclines in a direction of getting closer to an axial center of the abutting section from one end side to another end side. At least part of the abutting section has a thickness elastically deformable in such a manner that the tapered outer circumferential surface aligns with the tapered pressure-receiving surface during application of a pressurizing force to the first metal member and a second metal member.
15
US2020001390A1
JOINING APPARATUS AND METHOD OF JOINING
Publication/Patent Number: US2020001390A1 Publication Date: 2020-01-02 Application Number: 16/455,796 Filing Date: 2019-06-28 Inventor: Yamazaki, Takeshi   Tashiro, Takahisa   Nagai, Hiroyuki   Yokoyama, Takefumi   Assignee: HONDA MOTOR CO., LTD.   IPC: B23K11/11 Abstract: A joining apparatus includes an electrifying/pressurizing head provided with an abutting surface contacting a pressure-receiving surface of a first metal member, joins the first metal member and a second metal member by electrification and pressurization employing the electrifying/pressurizing head, and obtains a joined body in which a joining interface inclines with respect to the pressure-receiving surface. The abutting surface includes: an electrode section capable of electrifying the first metal member; and an insulating section configured from an insulating material. At least a shortest portion where a distance from the joining interface will be shortest, of the pressure-receiving surface will be a non-contact-with-electrode section of non-contact with the electrode section, and the insulating section contacts at least part of the non-contact-with-electrode section.
16
EP3718060A1
METHODS AND SYSTEMS FOR QUANTUM COMPUTING ENABLED MOLECULAR AB INITIO SIMULATIONS USING QUANTUM-CLASSICAL COMPUTING HARDWARE
Publication/Patent Number: EP3718060A1 Publication Date: 2020-10-07 Application Number: 18882806.5 Filing Date: 2018-11-30 Inventor: Yamazaki, Takeshi   Zaribafiyan, Arman   Matsuura, Shunji   Assignee: 1QB Information Technologies Inc.   IPC: G06N99/00
17
US2020264388A1
OPTICAL CABLE CONNECTION STRUCTURE AND OPTICAL CABLE CONNECTION METHOD
Publication/Patent Number: US2020264388A1 Publication Date: 2020-08-20 Application Number: 16/791,931 Filing Date: 2020-02-14 Inventor: Yamazaki, Takeshi   Ishii, Kentaro   Koyama, Ryozo   Tanooka, Hiroshi   Assignee: Hirose Electric Co., Ltd.   IPC: G02B6/38 Abstract: An optical cable, in which a fiber optic core and tensile strength filaments are covered with a covering, is connected to a connecting element incorporated into a connector, wherein a clamping member clamps the end portion of the covering along its outer peripheral surface in a state where the covering has been removed from the end portion of the optical cable such that the fiber optic core and the tensile strength filaments are uncovered; a gripping member that grips the exposed tensile strength filaments in a state where the exposed fiber optic core passes therethrough; and a protective member that covers a range extending from the clamping member to the gripping member in the axial direction of the fiber optic core in a state where the exposed fiber optic core is connected to a connecting element of the connector while the gripping member is attached to the connector.
18
US2020364601A1
METHODS AND SYSTEMS FOR QUANTUM COMPUTING ENABLED MOLECULAR AB INITIO SIMULATIONS USING QUANTUM-CLASSICAL COMPUTING HARDWARE
Publication/Patent Number: US2020364601A1 Publication Date: 2020-11-19 Application Number: 16/888,446 Filing Date: 2020-05-29 Inventor: Yamazaki, Takeshi   Zaribafiyan, Arman   Matsuura, Shunji   Assignee: 1QB Information Technologies Inc.   IPC: G06N10/00 Abstract: The present disclosure provides methods and systems for using a hybrid architecture of quantum and classical computing to compute the quantum mechanical energy and/or electronic structure of a chemical system, as well as to identify stable conformations of a chemical system (e.g., a molecule) and/or to perform an ab initio molecular dynamics calculation or simulation on the chemical system.
19
EP3103775B1
METHOD FOR PRODUCING GRANULATED BODY AND METHOD FOR PRODUCING GLASS ARTICLE
Publication/Patent Number: EP3103775B1 Publication Date: 2020-04-01 Application Number: 15746760.6 Filing Date: 2015-02-05 Inventor: Yamazaki, Takeshi   Maehara, Terutaka   Kuwayama, Akiko   Assignee: AGC Inc.   IPC: C03B1/02
20
US202001390A1
JOINING APPARATUS AND METHOD OF JOINING
Publication/Patent Number: US202001390A1 Publication Date: 2020-01-02 Application Number: 20/191,645 Filing Date: 2019-06-28 Inventor: Nagai, Hiroyuki   Yokoyama, Takefumi   Tashiro, Takahisa   Yamazaki, Takeshi   Assignee: Honda Motor Co., Ltd.   IPC: B23K11/25 Abstract: A joining apparatus includes an electrifying/pressurizing head provided with an abutting surface contacting a pressure-receiving surface of a first metal member, joins the first metal member and a second metal member by electrification and pressurization employing the electrifying/pressurizing head, and obtains a joined body in which a joining interface inclines with respect to the pressure-receiving surface. The abutting surface includes: an electrode section capable of electrifying the first metal member; and an insulating section configured from an insulating material. At least a shortest portion where a distance from the joining interface will be shortest, of the pressure-receiving surface will be a non-contact-with-electrode section of non-contact with the electrode section, and the insulating section contacts at least part of the non-contact-with-electrode section.
Total 144 pages