公开(公告)号：US20220339698A1

公开(公告)日：2022-10-27

申请号：US17640736

申请日：2020-09-07

Applicant: TECHNOVA INC.

Inventor： Akito TAKAHASHI ,  Joji HACHISUKA ,  Yuichi FURUYAMA

IPC: B22F1/17 ,  B22F1/054 ,  B22F9/00 ,  B22F9/02 ,  B22F9/04

Abstract: A nanocomposite metal material includes a carrier formed of Zr and two-element metal particles supported on the carrier. The two-element metal is formed of Cu and Ni, and a degree of oxidation of the carrier is more than 31% and 100% or less. In a case where the nanocomposite metal material is disposed in a reaction furnace of a thermal reactor, the inside of the reaction furnace is brought into a vacuum state, and the inside of the reaction furnace is heated to a temperature range of 250° C. or higher and 350° C. or lower with a heating mechanism included in the thermal reactor while supplying at least one of hydrogen gas and deuterium gas into the reaction furnace, excessive heat of the nanocomposite metal material is 100 W/kg or more.

公开(公告)号：US09406429B2

公开(公告)日：2016-08-02

申请号：US14405022

申请日：2013-06-05

Applicant: TECHNOVA INC.

Inventor： Shigeru Abe ,  Yasuyoshi Kaneko ,  Tomio Yasuda

IPC: H01F27/08 ,  H01F27/10 ,  H01F27/24 ,  H01F27/22 ,  H01F38/14 ,  B60L11/18 ,  H01F27/255 ,  H01F3/14 ,  H01F27/34

CPC classification number: H01F27/22 ,  B60L11/182 ,  B60L11/1824 ,  B60L11/185 ,  B60L2230/10 ,  B60L2240/36 ,  H01F3/14 ,  H01F27/085 ,  H01F27/10 ,  H01F27/24 ,  H01F27/255 ,  H01F38/14 ,  H01F2027/348 ,  Y02T10/7005 ,  Y02T10/7088 ,  Y02T90/121 ,  Y02T90/122 ,  Y02T90/128 ,  Y02T90/14

Abstract: According to one embodiment, a contactless power transfer transformer includes a both-sides wound coil. The both-sides wound coil includes an inter-magnetic-pole core portion between two magnetic pole portions. The winding wire is wound around a wound region of the inter-magnetic-pole core portion. The inter-magnetic-pole includes: a plurality of separate magnetic members that connect to each of the two magnetic pole portions, and are arranged with a spacing therebetween and in parallel with each other; and a heat conductor that is alternately arranged with respect to the separate magnetic members on a plane formed by the separate magnetic members so as to be in contact with the separate magnetic members. Heat generated by the separate magnetic members is guided to the outside of the wound region of the inter-magnetic-pole core portion through the heat conductor, and is dissipated.

Abstract translation: 根据一个实施例，非接触式电力传输变压器包括双面缠绕线圈。 两侧缠绕线圈包括两个磁极部之间的磁芯间心部。 绕组线缠绕在磁极芯部分的缠绕区域上。 所述磁极之间包括：连接到所述两个磁极部中的每一个的多个分离的磁性部件，并且彼此间隔开并且彼此平行; 以及在由分离的磁性构件形成的平面上相对于分离的磁性构件交替布置以与分离的磁性构件接触的导热体。 由分离的磁性构件产生的热量通过导热体被引导到磁极间部分的缠绕区域的外部，并被消散。

公开(公告)号：US09373437B2

公开(公告)日：2016-06-21

申请号：US14405022

申请日：2013-06-05

Applicant: TECHNOVA INC.

Inventor： Shigeru Abe ,  Yasuyoshi Kaneko ,  Tomio Yasuda

IPC: H01F27/08 ,  H01F27/10 ,  H01F27/24 ,  H01F27/22 ,  H01F38/14 ,  B60L11/18 ,  H01F27/255 ,  H01F3/14 ,  H01F27/34

Abstract: According to one embodiment, a contactless power transfer transformer includes a both-sides wound coil. The both-sides wound coil includes an inter-magnetic-pole core portion between two magnetic pole portions. The winding wire is wound around a wound region of the inter-magnetic-pole core portion. The inter-magnetic-pole includes: a plurality of separate magnetic members that connect to each of the two magnetic pole portions, and are arranged with a spacing therebetween and in parallel with each other; and a heat conductor that is alternately arranged with respect to the separate magnetic members on a plane formed by the separate magnetic members so as to be in contact with the separate magnetic members. Heat generated by the separate magnetic members is guided to the outside of the wound region of the inter-magnetic-pole core portion through the heat conductor, and is dissipated.

公开(公告)号：US20230250999A1

公开(公告)日：2023-08-10

申请号：US18163947

申请日：2023-02-03

Applicant: TECHNOVA INC.

Inventor： Akito TAKAHASHI ,  Masahiko HASEGAWA ,  Yutaka MORI

IPC: F24V30/00 ,  G05D7/06

CPC classification number: F24V30/00 ,  G05D7/0635

Abstract: An exothermic reaction apparatus includes a reactor capable of accommodating a nanocomposite metal material, a cutoff unit provided in a gas pipe to cut off a supply of hydrogen to the reactor, a measurement unit that measures an occlusion rate of hydrogen in the nanocomposite metal material accommodated in the reactor, and a controller that controls the exothermic reaction apparatus. The controller controls the occlusion rate of hydrogen in the nanocomposite metal material accommodated in the reactor to a value within a range of 1.0 or more and 3.5 or less by controlling the cutoff unit during an exothermic reaction to stop the supply of hydrogen into the reactor when the occlusion rate of hydrogen in the nanocomposite metal material based on a measurement result obtained with the measurement unit approaches a predetermined value and to resume the supply of hydrogen into the reactor a predetermined time after.

公开(公告)号：US20150137925A1

公开(公告)日：2015-05-21

申请号：US14405022

申请日：2013-06-05

Applicant: TECHNOVA INC.

Inventor： Shigeru Abe ,  Yasuyoshi Kaneko ,  Tomio Yasuda

IPC: H01F27/22 ,  H01F38/14 ,  H01F27/24 ,  H01F27/08 ,  H01F27/10

CPC classification number: H01F27/22 ,  B60L11/182 ,  B60L11/1824 ,  B60L11/185 ,  B60L2230/10 ,  B60L2240/36 ,  H01F3/14 ,  H01F27/085 ,  H01F27/10 ,  H01F27/24 ,  H01F27/255 ,  H01F38/14 ,  H01F2027/348 ,  Y02T10/7005 ,  Y02T10/7088 ,  Y02T90/121 ,  Y02T90/122 ,  Y02T90/128 ,  Y02T90/14

Abstract: According to one embodiment, a contactless power transfer transformer includes a both-sides wound coil. The both-sides wound coil includes an inter-magnetic-pole core portion between two magnetic pole portions. The winding wire is wound around a wound region of the inter-magnetic-pole core portion. The inter-magnetic-pole includes: a plurality of separate magnetic members that connect to each of the two magnetic pole portions, and are arranged with a spacing therebetween and in parallel with each other; and a heat conductor that is alternately arranged with respect to the separate magnetic members on a plane formed by the separate magnetic members so as to be in contact with the separate magnetic members. Heat generated by the separate magnetic members is guided to the outside of the wound region of the inter-magnetic-pole core portion through the heat conductor, and is dissipated.

Abstract translation: 根据一个实施例，非接触式电力传输变压器包括双面缠绕线圈。 两侧缠绕线圈包括两个磁极部之间的磁芯间心部。 绕组线缠绕在磁极芯部分的缠绕区域上。 所述磁极之间包括：连接到所述两个磁极部中的每一个的多个分离的磁性部件，并且彼此间隔开并且彼此平行; 以及在由分离的磁性构件形成的平面上相对于分离的磁性构件交替布置以与分离的磁性构件接触的导热体。 由分离的磁性构件产生的热量通过导热体被引导到磁极间部分的缠绕区域的外部，并被消散。

公开(公告)号：US20150123486A1

公开(公告)日：2015-05-07

申请号：US14401982

申请日：2013-05-21

Applicant: TECHNOVA INC.

Inventor： Shigeru Abe ,  Yasuyoshi Kaneko ,  Tomio Yasuda ,  Hiroyuki Kishi

IPC: H01F38/14 ,  B60L11/18 ,  H02J17/00

CPC classification number: H01F38/14 ,  B60L1/02 ,  B60L5/00 ,  B60L11/182 ,  B60L11/1833 ,  B60L11/185 ,  B60L2240/36 ,  B60L2270/147 ,  H01F27/255 ,  H02J7/025 ,  H02J17/00 ,  H02J50/10 ,  H02J50/70 ,  Y02T10/7005 ,  Y02T10/7072 ,  Y02T90/12 ,  Y02T90/121 ,  Y02T90/122 ,  Y02T90/125 ,  Y02T90/14

Abstract: According to one embodiment, contactless power transfer transformer includes power transmission coil and power reception coil. At least one of the power transmission coil and the power reception coil is configured by coupled and both-sides wound coil. The coupled and both-sides wound coil is configured by both-sides wound coils. One of magnetic poles of one of the both-sides wound coils is connected to one of the magnetic poles of adjacent one of the both-sides wound coils. Directions of magnetic fluxes toward corresponding coil from each of the magnetic poles connected to each other are identical. The both-sides wound coils are selected so that leakage magnetic flux around moving body does not exceed predetermined value. Number of the both-sides wound coils is set so that value obtained by multiplying power transfer capacity of one of the both-sides wound coils by the number satisfies capacity of the transformer.

Abstract translation: 根据一个实施例，非接触式电力传输变压器包括输电线圈和受电线圈。 电力传输线圈和受电线圈中的至少一个由耦合的和两侧的缠绕线圈构成。 联接和双面缠绕线圈由双面缠绕线圈构成。 两侧缠绕线圈中的一个的磁极中的一个连接到相邻的一个缠绕线圈的一个磁极。 从彼此连接的每个磁极到相应线圈的磁通量的方向是相同的。 选择双面缠绕线圈，使得移动体周围的漏磁通不超过预定值。 设定两侧卷绕线圈的数量，使得通过将两侧卷绕线圈中的一个的传递能力乘以该数量而获得的值满足变压器的容量。

公开(公告)号：US20190182304A1

公开(公告)日：2019-06-13

申请号：US15839183

申请日：2017-12-12

Applicant: Connect TechNova Inc

Inventor： Kenny Fok ,  David Diplock ,  Niral Bhalodia ,  David Chhat

IPC: H04L29/06 ,  H04W4/00 ,  H04L5/00

Abstract: A streaming media system includes: a source that provides streaming content to a destination across a communication channel, where: the streaming content is sent using a message structure with packets having a first payload size, each packet including at least one streaming payload having a second payload size. An automated method includes: determining a first payload size associated with a communication channel between a source and a destination; determining a second payload size associated with an encoding algorithm used to provide streaming content; determining a maximum number of message types based on the first payload size; and determining a size of an identifier associated with each message. An automated method of providing streaming content includes: receiving streaming content at a source; identifying a message structure; fragmenting the received data based on the message structure; generating an optimized packet using the fragmented data; and sending the optimized packet to a destination.

公开(公告)号：US10065515B2

公开(公告)日：2018-09-04

申请号：US15123013

申请日：2014-03-04

Applicant: TECHNOVA INC.

Inventor： Tomio Yasuda ,  Hiroyuki Kishi ,  Isami Norigoe

IPC: B60L11/18 ,  B60L5/00 ,  H02J7/02 ,  H02J50/12 ,  H02J50/40

Abstract: On the ground, a plurality of primary power supply transformers are separately installed with a longitudinal direction of magnetic poles matching a vehicle traveling direction. The primary power supply transformers each include a double-sided coil with an H-shaped core around which a wire is wound. On a vehicle, a secondary power supply transformer including an H-shaped core is mounted with a longitudinal direction of magnetic poles matching a vehicle front-back direction. The distance between the primary power supply transformers is set such that the distance between the centers of the magnetic poles of the neighboring primary power supply transformers does not exceed 3D where D represents the size of the magnetic poles.

公开(公告)号：US09793045B2

公开(公告)日：2017-10-17

申请号：US14401982

申请日：2013-05-21

Applicant: TECHNOVA INC.

Inventor： Shigeru Abe ,  Yasuyoshi Kaneko ,  Tomio Yasuda ,  Hiroyuki Kishi

IPC: H02J50/70 ,  H01F38/14 ,  B60L1/02 ,  B60L11/18 ,  H01F27/255 ,  B60L5/00 ,  H02J17/00

CPC classification number: H01F38/14 ,  B60L1/02 ,  B60L5/00 ,  B60L11/182 ,  B60L11/1833 ,  B60L11/185 ,  B60L2240/36 ,  B60L2270/147 ,  H01F27/255 ,  H02J7/025 ,  H02J17/00 ,  H02J50/10 ,  H02J50/70 ,  Y02T10/7005 ,  Y02T10/7072 ,  Y02T90/12 ,  Y02T90/121 ,  Y02T90/122 ,  Y02T90/125 ,  Y02T90/14

Abstract: According to one embodiment, contactless power transfer transformer includes power transmission coil and power reception coil. At least one of the power transmission coil and the power reception coil is configured by coupled and both-sides wound coil. The coupled and both-sides wound coil is configured by both-sides wound coils. One of magnetic poles of one of the both-sides wound coils is connected to one of the magnetic poles of adjacent one of the both-sides wound coils. Directions of magnetic fluxes toward corresponding coil from each of the magnetic poles connected to each other are identical. The both-sides wound coils are selected so that leakage magnetic flux around moving body does not exceed predetermined value. Number of the both-sides wound coils is set so that value obtained by multiplying power transfer capacity of one of the both-sides wound coils by the number satisfies capacity of the transformer.

公开(公告)号：US12091732B2

公开(公告)日：2024-09-17

申请号：US17640736

申请日：2020-09-07

Applicant: TECHNOVA INC.

Inventor： Akito Takahashi ,  Joji Hachisuka ,  Yuichi Furuyama

IPC: B32B5/16 ,  B22F1/054 ,  B22F1/08 ,  B22F1/18 ,  B22F9/00 ,  B22F9/02 ,  B22F9/04 ,  C22C16/00 ,  B22F1/17

CPC classification number: C22C16/00 ,  B22F1/054 ,  B22F1/08 ,  B22F1/18 ,  B22F9/002 ,  B22F9/023 ,  B22F9/04 ,  B32B5/16 ,  B22F1/17 ,  B22F2009/049 ,  B22F2201/013 ,  B22F2301/10 ,  B22F2301/15 ,  B22F2301/205 ,  B22F2301/25 ,  B22F2303/01 ,  B22F2998/10 ,  B22F9/04 ,  B22F9/023 ,  B22F1/142

Abstract: A nanocomposite metal material includes a carrier formed of Zr and two-element metal particles supported on the carrier. The two-element metal is formed of Cu and Ni, and a degree of oxidation of the carrier is more than 31% and 100% or less. In a case where the nanocomposite metal material is disposed in a reaction furnace of a thermal reactor, the inside of the reaction furnace is brought into a vacuum state, and the inside of the reaction furnace is heated to a temperature range of 250° C. or higher and 350° C. or lower with a heating mechanism included in the thermal reactor while supplying at least one of hydrogen gas and deuterium gas into the reaction furnace, excessive heat of the nanocomposite metal material is 100 W/kg or more.