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1
US10218170B2
Publication/Patent Number: US10218170B2
Publication date: 2019-02-26
Application number: 14/770,953
Filing date: 2014-03-26
Abstract: A current-limiting device is a current-limiting device that uses a superconductor to perform a current-limiting operation, the current-limiting device including: a superconducting current-limiting element including the superconductor; a capacitor; a reactor; and a bypass switch. The series capacitor is connected in series to the superconducting current-limiting element. The current-limiting reactor is further connected in series to a series circuit including the superconducting current-limiting element and the series capacitor. The thyristor switch is connected in parallel to the series circuit. A current-limiting device is a current-limiting device that uses a superconductor to perform a current-limiting operation, the current-limiting device including: a superconducting current-limiting element including the superconductor; a capacitor; a reactor; and a bypass switch ...more ...less
2
US10408742B2
Publication/Patent Number: US10408742B2
Publication date: 2019-09-10
Application number: 15/524,815
Filing date: 2015-11-20
Abstract: To provide a concentration measurement method with which the concentrations of predetermined chemical components can be measured non-destructively, accurately, and rapidly by a simple means, up to the concentrations in trace amount ranges, as well as a concentration measurement method with which the concentrations of chemical components in a measurement target can be accurately and rapidly measured in real time up to the concentrations in nano-order trace amount ranges, and which is endowed with a versatility that can be realized in a variety of embodiments and modes. In the present invention, a measurement target is irradiated, in a time sharing manner, with light of a first wavelength and light of a second wavelength that have different optical absorption rates with respect to the measurement target. The light of each wavelength, arriving optically via the measurement target as a result of irradiation with the light of each wavelength, is received at a shared light-receiving sensor. A differential signal is formed, the differential signal being of a signal pertaining to the light of the first wavelength and a signal pertaining to the light of the second wavelength, the signals outputted from the light-receiving sensor upon receipt of the light. The concentration of a chemical component in the measurement target is derived on the basis of the differential signal. To provide a concentration measurement method with which the concentrations of predetermined chemical components can be measured non-destructively, accurately, and rapidly by a simple means, up to the concentrations in trace amount ranges, as well as a concentration measurement ...more ...less
4
US10006843B2
Publication/Patent Number: US10006843B2
Publication date: 2018-06-26
Application number: 15/126,016
Filing date: 2015-03-19
Abstract: Provided is a method for predicting the remaining life of a hose and a method for diagnosing the deterioration level of a hose that can be easily performed without breaking the hose. The disclosure includes: a testing step of performing a hose bending test; and a predicting step of predicting the remaining life of a hose subject to prediction, wherein during the hose bending test, either a value of an external force required to displace a hose portion in a direction of the external force by a predetermined displacement amount, or a value of a displacement amount in a direction of the external force of the hose portion when the external force of a predetermined magnitude is exerted on the hose portion is measured, and the measured value is obtained as the test result. Provided is a method for predicting the remaining life of a hose and a method for diagnosing the deterioration level of a hose that can be easily performed without breaking the hose. The disclosure includes: a testing step of performing a hose bending test; and a predicting step ...more ...less
5
US9944018B2
Publication/Patent Number: US9944018B2
Publication date: 2018-04-17
Application number: 14/386,915
Filing date: 2013-02-25
Assignee: GUNZE LIMITED
Abstract: The invention provides a novel method for producing a composite member by fixing a surface member to the outer peripheral surface of a core member. A method for producing a composite member having a core member and a surface member fixed to the outer peripheral surface of the core member includes the surface member providing step of providing the surface member having magnetism lower than magnetism of the core member made of a conductive material on the outer peripheral surface of the core member, and the fusing step of electromagnetic induction heating the core member from outside the surface member to melt at least one of facing regions between the surface member and the core member with heat of the heated core member and fuse the surface member to the core member. The invention provides a novel method for producing a composite member by fixing a surface member to the outer peripheral surface of a core member. A method for producing a composite member having a core member and a surface member fixed to the outer peripheral surface of the ...more ...less
7
EP3406337A1
Publication/Patent Number: EP3406337A1
Publication date: 2018-11-28
Application number: 18178201.2
Filing date: 2011-08-02
Abstract: The present invention relates to a hydrocracking catalyst for hydrocarbon oil comprising a support containing a framework-substituted zeolite-1 in which zirconium atoms and/or hafnium atoms form a part of a framework of an ultra-stable Y-type zeolite and a hydrogenative metal component carried thereon and a method for producing the same. The hydrocracking catalyst of the present invention makes it easy to diffuse heavy hydrocarbon oils such as VGO, DAO and the like into mesopores, is improved in a cracking activity and makes it possible to obtain a middle distillate at a high yield as compared with catalysts prepared by using zeolite comprising titanium and/or zirconium carried thereon. Further, it has a little low cracking activity as compared with conventional hydrocracking catalysts containing zeolite in which titanium is substituted in a framework, but overcracking reactor of kerosene and gas oil is inhibited, and therefore a middle distillate can be obtained at a high yield. Also, the hydrocracking catalyst for hydrocarbon oil according to the present invention is increased in the number of active sites and therefore provided with a high hydrocracking activity. The present invention relates to a hydrocracking catalyst for hydrocarbon oil comprising a support containing a framework-substituted zeolite-1 in which zirconium atoms and/or hafnium atoms form a part of a framework of an ultra-stable Y-type zeolite and a hydrogenative metal ...more ...less
8
CN107106818A
Publication/Patent Number: CN107106818A
Publication date: 2017-08-29
Application number: 201580058955
Filing date: 2015-11-02
Assignee: GUNZE KK
Abstract: Provided is a wire member having excellent sliding properties. The wire member 1 is provided with a long core 2 and a surface-positioned member 3 that is helically disposed at prescribed intervals on the surface of the core 2 in the longitudinal direction of the core 2
9
US2017082526A1
Publication/Patent Number: US2017082526A1
Publication date: 2017-03-23
Application number: 15/126,016
Filing date: 2015-03-19
Abstract: Provided is a method for predicting the remaining life of a hose and a method for diagnosing the deterioration level of a hose that can be easily performed without breaking the hose. The disclosure includes: a testing step of performing a hose bending test; and a predicting step of predicting the remaining life of a hose subject to prediction, wherein during the hose bending test, either a value of an external force required to displace a hose portion in a direction of the external force by a predetermined displacement amount, or a value of a displacement amount in a direction of the external force of the hose portion when the external force of a predetermined magnitude is exerted on the hose portion is measured, and the measured value is obtained as the test result. Provided is a method for predicting the remaining life of a hose and a method for diagnosing the deterioration level of a hose that can be easily performed without breaking the hose. The disclosure includes: a testing step of performing a hose bending test; and a predicting step ...more ...less
10
EP3121584A1
Publication/Patent Number: EP3121584A1
Publication date: 2017-01-25
Application number: 15765976.4
Filing date: 2015-03-19
Abstract: Provided is a method for predicting the remaining life of a hose and a method for diagnosing the deterioration level of a hose that can be easily performed without breaking the hose. The disclosure includes: a testing step of performing a hose bending test; and a predicting step of predicting the remaining life of a hose subject to prediction, wherein during the hose bending test, either a value of an external force required to displace a hose portion in a direction of the external force by a predetermined displacement amount, or a value of a displacement amount in a direction of the external force of the hose portion when the external force of a predetermined magnitude is exerted on the hose portion is measured, and the measured value is obtained as the test result. Provided is a method for predicting the remaining life of a hose and a method for diagnosing the deterioration level of a hose that can be easily performed without breaking the hose. The disclosure includes: a testing step of performing a hose bending test; and a predicting step ...more ...less
11
EP3121584A4
Publication/Patent Number: EP3121584A4
Publication date: 2017-04-12
Application number: 15765976
Filing date: 2015-03-19
Abstract: Provided is a method for predicting the remaining life of a hose and a method for diagnosing the deterioration level of a hose that can be easily performed without breaking the hose. The disclosure includes: a testing step of performing a hose bending test; and a predicting step of predicting the remaining life of a hose subject to prediction Provided is a method for predicting the remaining life of a hose and a method for diagnosing the deterioration level of a hose that can be easily performed without breaking the hose. The disclosure includes: a testing step of performing a hose bending test; and a predicting step ...more ...less
12
USD788110S1
Publication/Patent Number: USD788110S1
Publication date: 2017-05-30
Application number: 29/567,269
Filing date: 2016-06-07
Assignee: PFU LIMITED
IPC:
13
US9762051B2
Publication/Patent Number: US9762051B2
Publication date: 2017-09-12
Application number: 14/770,998
Filing date: 2014-03-26
Abstract: A current-limiting and power-flow control device according to the present invention includes a superconducting current-limiting element including a superconductor, a series capacitor, and a parallel circuit. The series capacitor is connected in series with the superconducting current-limiting element. The parallel circuit includes a reactor connected in parallel with a series circuit including the superconducting current-limiting element and the series capacitor. Accordingly, overcurrent at the time of occurrence of a fault causes transition of the superconductor of the superconducting current-limiting element to the normal conducting state, and thus causes autonomous current-limiting operation of the superconducting current-limiting element. Thus, application of an excessive load across the terminals of the series capacitor due to the aforementioned fault can surely be prevented. Accordingly, unlike the conventional device, it is unnecessary to install an arrester for protection of the series capacitor and the configuration of the current-limiting and power-flow control device can be simplified. A current-limiting and power-flow control device according to the present invention includes a superconducting current-limiting element including a superconductor, a series capacitor, and a parallel circuit. The series capacitor is connected in series with the superconducting ...more ...less
14
TWI566258B
Publication/Patent Number: TWI566258B
Publication date: 2017-01-11
Application number: 102107817
Filing date: 2013-03-06
Assignee: Gunze Limited
Abstract: Provided is a novel method for producing a composite member that is produced by firmly fixing a surface member to the outer peripheral surface of a core material. This method is for producing a composite member (1) in which a surface member (12) is firmly fixed to the outer peripheral surface of a core material (11) Provided is a novel method for producing a composite member that is produced by firmly fixing a surface member to the outer peripheral surface of a core material. This method is for producing a composite member (1) in which a surface member (12) is firmly fixed to the outer ...more ...less
15
CN103911163B
Publication/Patent Number: CN103911163B
Publication date: 2017-03-01
Application number: 201310654971
Filing date: 2013-12-06
Abstract: The present invention relates to a liquid crystal orientating agent
16
EP2983263A4
Publication/Patent Number: EP2983263A4
Publication date: 2017-01-11
Application number: 14779757
Filing date: 2014-03-26
Abstract: A current-limiting and power-flow control device (10) according to the present invention includes a superconducting current-limiting element (8) including a superconductor
17
EP2983262A4
Publication/Patent Number: EP2983262A4
Publication date: 2017-01-04
Application number: 14778416
Filing date: 2014-03-26
Abstract: A current-limiting device (10) is a current-limiting device (10) that uses a superconductor to perform a current-limiting operation
18
KR20170103779A
Publication/Patent Number: KR20170103779A
Publication date: 2017-09-13
Application number: 20177017288
Filing date: 2015-11-20
Abstract: [과제] 간단한 수단으로 극미량 영역의 농도까지 비파괴로 정확 또한 신속하게 소정의 화학성분의 농도를 측정할 수 있는 농도 측정 방법
19
EP3222995A1
Publication/Patent Number: EP3222995A1
Publication date: 2017-09-27
Application number: 15860939.6
Filing date: 2015-11-20
Abstract: To provide a concentration measurement method with which the concentrations of predetermined chemical components can be measured non-destructively, accurately, and rapidly by a simple means, up to the concentrations in trace amount ranges, as well as a concentration measurement method with which the concentrations of chemical components in a measurement target can be accurately and rapidly measured in real time up to the concentrations in nano-order trace amount ranges, and which is endowed with a versatility that can be realized in a variety of embodiments and modes. [Solution] In the present invention, a measurement target is irradiated, in a time sharing manner, with light of a first wavelength and light of a second wavelength that have different optical absorption rates with respect to the measurement target. The light of each wavelength, arriving optically via the measurement target as a result of irradiation with the light of each wavelength, is received at a shared light-receiving sensor. A differential signal is formed, the differential signal being of a signal pertaining to the light of the first wavelength and a signal pertaining to the light of the second wavelength, the signals outputted from the light-receiving sensor upon receipt of the light. The concentration of a chemical component in the measurement target is derived on the basis of the differential signal. To provide a concentration measurement method with which the concentrations of predetermined chemical components can be measured non-destructively, accurately, and rapidly by a simple means, up to the concentrations in trace amount ranges, as well as a concentration measurement ...more ...less
20
US2017315051A1
Publication/Patent Number: US2017315051A1
Publication date: 2017-11-02
Application number: 15/524,815
Filing date: 2015-11-20
Abstract: To provide a concentration measurement method with which the concentrations of predetermined chemical components can be measured non-destructively, accurately, and rapidly by a simple means, up to the concentrations in trace amount ranges, as well as a concentration measurement method with which the concentrations of chemical components in a measurement target can be accurately and rapidly measured in real time up to the concentrations in nano-order trace amount ranges, and which is endowed with a versatility that can be realized in a variety of embodiments and modes. In the present invention, a measurement target is irradiated, in a time sharing manner, with light of a first wavelength and light of a second wavelength that have different optical absorption rates with respect to the measurement target. The light of each wavelength, arriving optically via the measurement target as a result of irradiation with the light of each wavelength, is received at a shared light-receiving sensor. A differential signal is formed, the differential signal being of a signal pertaining to the light of the first wavelength and a signal pertaining to the light of the second wavelength, the signals outputted from the light-receiving sensor upon receipt of the light. The concentration of a chemical component in the measurement target is derived on the basis of the differential signal. To provide a concentration measurement method with which the concentrations of predetermined chemical components can be measured non-destructively, accurately, and rapidly by a simple means, up to the concentrations in trace amount ranges, as well as a concentration measurement ...more ...less