子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 使用智能材料对安全机构的激活 | CN201210564916.0 | 2012-12-24 | CN103178456A | 2013-06-26 | N.W.平托四世; A.L.布朗; N.L.约翰森 |
| 本发明涉及使用智能材料对安全机构的激活。具体地,提供了一种使用可变形材料来选择性地致动安全机构以防止电击的系统。所述系统包括可变形材料,所述可变形材料:(1)能够电连接到具有不想要电荷的电气部件;以及,(2)基于由所述电气部件处的电荷产生的电输入,能够在变形形状和未变形形状之间变化。所述可变形材料还:(3)被机械地连接到所述安全机构,使得所述可变形材料的变化导致所述安全机构的运动。所述可变形材料还:(4)在所述系统中构造并设置成,响应于被暴露给所述电输入而变化至其未变形形状,并且由此致动所述安全机构。 | ||||||
| 2 | 使用智能材料对安全机构的激活 | CN201210564916.0 | 2012-12-24 | CN103178456B | 2017-04-12 | N.W.平托四世; A.L.布朗; N.L.约翰森 |
| 本发明涉及使用智能材料对安全机构的激活。具体地,提供了一种使用可变形材料来选择性地致动安全机构以防止电击的系统。所述系统包括可变形材料,所述可变形材料:(1)能够电连接到具有不想要电荷的电气部件;以及,(2)基于由所述电气部件处的电荷产生的电输入,能够在变形形状和未变形形状之间变化。所述可变形材料还:(3)被机械地连接到所述安全机构,使得所述可变形材料的变化导致所述安全机构的运动。所述可变形材料还:(4)在所述系统中构造并设置成,响应于被暴露给所述电输入而变化至其未变形形状,并且由此致动所述安全机构。 | ||||||
| 3 | 熔丝单元 | CN201280012704.X | 2012-02-22 | CN103477413B | 2016-09-28 | 松村记夫; 木伏秀典 |
| 熔丝单元(1)包括:汇流排(2)和绝缘保护部(20)。该汇流排(2)具有:电源连接部(3)、输出连接部(4、5)以及围绕电源连接部(3)设置的端子安装槽(13)。该绝缘保护部(20)布置于汇流排(2)的外表面上,使得汇流排(2)在电源连接部(3)、输出连接部(4、5)以及端子安装槽(13)中的表面的部分从绝缘保护部(20)露出。 | ||||||
| 4 | 热响应开关及其制造方法 | CN201380075272.1 | 2013-03-29 | CN105264628A | 2016-01-20 | 安宅孝志; 堀友广 |
| 本发明涉及的热响应开关具备:密闭容器,由金属制的壳体和盖板构成;两个导电端子销,被气密地固定至设置于盖板的两个贯通孔;固定接点,固定于一方的导电端子销;加热器,一端被连接至另一方的导电端子销,另一端被连接至盖板;热响应板,一端被连接至壳体的内表面,在规定的温度下弯曲方向反转;以及可动接点,设置于热响应板的另一端,与固定接点一起构成开闭接点。贯通孔由使盖板向外侧突出的筒状部构成,仅仅该筒状部和填充材料以及导电端子销被电绝缘性的树脂覆盖。 | ||||||
| 5 | 熔断器板 | CN201280003183.1 | 2012-05-25 | CN103140912B | 2015-07-22 | 小野正浩; 中川贵嗣; 高野晓 |
| 本发明提供一种熔断器板,包括:金属板;与电池连接的连接部;将金属板和连接部连结的熔断器部;以及粘接于熔断器部的绝缘性树脂膜,熔断器部的布线图案具有弯曲部,绝缘性树脂膜为覆盖熔断器部的一个面的矩形片状形态。 | ||||||
| 6 | 熔丝单元 | CN201280012704.X | 2012-02-22 | CN103477413A | 2013-12-25 | 松村记夫; 木伏秀典 |
| 熔丝单元(1)包括:汇流排(2)和绝缘保护部(20)。该汇流排(2)具有:电源连接部(3)、输出连接部(4、5)以及围绕电源连接部(3)设置的端子安装槽(13)。该绝缘保护部(20)布置于汇流排(2)的外表面上,使得汇流排(2)在电源连接部(3)、输出连接部(4、5)以及端子安装槽(13)中的表面的部分从绝缘保护部(20)露出。 | ||||||
| 7 | 熔断器板及具备该熔断器板的电池块 | CN201280003183.1 | 2012-05-25 | CN103140912A | 2013-06-05 | 小野正浩; 中川贵嗣; 高野晓 |
| 本发明提供一种熔断器板,包括:金属板;与电池连接的连接部;将金属板和连接部连结的熔断器部;以及粘接于熔断器部的绝缘性树脂膜,熔断器部的布线图案具有弯曲部,绝缘性树脂膜为覆盖熔断器部的一个面的矩形片状形态。 | ||||||
| 8 | ELECTRONIC UNIT ATTACHING STRUCTURE | US16046326 | 2018-07-26 | US20190052028A1 | 2019-02-14 | Takuya NAKAGAWA; Koki SATO |
| An electronic unit attaching structure includes an electronic unit (30) having a plurality of connector connection portions (33, 34) and an electronic unit attachment (20) having a plurality of connectors (C1, C2) correspond to the plurality of the connector connection portions. The electronic unit attaching structure is configured to allow first connection and second connection in this order when the electronic unit (30) is attached to the electronic unit attachment (20). The first connection is a connection of first part (C2) of the plurality of the connectors with first part (34) of the plurality of the connector connection portions. The second connection is a connection of second part (C1) of the plurality of the connectors with second part (33) of the plurality of the connector connection portions. | ||||||
| 9 | Retention sleeve with rolling bearings in a hold-down release apparatus | US15279515 | 2016-09-29 | US10029809B1 | 2018-07-24 | Edwin E. Vega |
| A release apparatus includes a coiled restraining wire with at least one end attached to a fuse wire. Actuation current through the fuse wire causes it to break; breakage of the fuse wire allows the restraining wire to partially uncoil and allow the release apparatus to transition from a retained condition to a released condition, by allowing disengagement a sleeve from retention members and disengagement of retention members from a release member that can then move out of the release apparatus. The sleeve isolates the restraining wire and fuse wire from load forces on the release member. Rolling bearings within the sleeve against the retention members reduces resistance to disengagement of the sleeve. The release apparatus can be employed to attach a deployable component to a satellite or spacecraft, and can be readily repaired, refurbished or reset for repetitive ground testing. | ||||||
| 10 | Thermally responsive switch and method of manufacturing same | US14780874 | 2013-03-29 | US09972470B2 | 2018-05-15 | Takashi Adake; Tomohiro Hori |
| A thermally responsive switch is provided with a sealed container having a housing and a cover plate secured to the housing; a couple of conductive thermal pins inserted into a couple of through holes provided on the cover plate and secured by an insulative filler; a stationary contact secured to one of the conductive thermal pins inside the container; a heater having one end connected to the other of the conductive terminal pins inside the container and the other end connected to the cover plate; a thermally responsive plate having one end connected to the housing and being configured to invert a direction of curvature thereof at a predetermined temperature; and a movable contact provided on the other end of the thermally responsive plate. The through holes are configured by cylindrical portions, only the cylindrical portions, the filler, and the conductive terminal pins being covered by an insulative resin. | ||||||
| 11 | Activation of human-protecting safety mechanisms using smart materials | US13335127 | 2011-12-22 | US09543103B2 | 2017-01-10 | Nicholas W. Pinto, IV; Alan L. Browne; Nancy L. Johnson |
| The present disclosure relates to a system, for selectively actuating a safety mechanism, to protect against electrical shock, using a transformable material. The system includes the transformable material, being: (1) connectable electrically to an electrical component having an unwanted electrical charge and (2) changeable between a deformed shape and an undeformed shape based on electrical input resulting from the electrical charge at the electrical component. The transformable material is also (3) connected mechanically to the safety mechanism so that change in the transformable material causes movement of the safety mechanism. The transformable material is further (4) configured and arranged in the system to, in response to being exposed to the electrical input, change to its undeformed shape and thereby actuate the safety mechanism. | ||||||
| 12 | Fuse unit | US14010678 | 2013-08-27 | US09484174B2 | 2016-11-01 | Norio Matsumura; Hidenori Kibushi |
| A fuse unit includes a bus bar and an insulating protection portion. The bus bar has a power supply connection portion, an output connection portion, and a terminal installation recess provided around the power supply connection portion. The insulating protection portion is disposed on an outer surface of the bus bar so that portions of a surface of the bus bar in the power supply connection portion, the output connection portion, and the terminal installation recess are exposed from the insulating protection portion. | ||||||
| 13 | FUSIBLE SWITCH ASSEMBLIES, AND LOAD BASE ASSEMBLIES, LINE BASE ASSEMBLIES, LINE BUS CONNECTOR ASSEMBLIES, FUSE CLIP ASSEMBLIES, FUSE CLIP AND LUG ASSEMBLIES, AND OPERATIONAL METHODS THEREOF | US14484543 | 2014-09-12 | US20160079687A1 | 2016-03-17 | Michael J. Holland; Thomas Jameson |
| A fusible switch assembly including a line base assembly and load base assembly is disclosed. Line base assembly includes a low-profile fuse clip assembly and line bus connector assembly with single-piece connector body and sliding nuts. Load base assembly includes a fuse clip and lug assembly having a lug body including a multiple lugs and a fuse clip at least partially formed by the lug body. Line base assemblies, load base assemblies, fuse clip assemblies, line bus connector assemblies, fuse clip and lug assemblies, and methods of operating line base assemblies are provided, as are other aspects. | ||||||
| 14 | Novel fuse programming schemes for robust yield | US11635125 | 2006-12-06 | US20080136496A1 | 2008-06-12 | Jun He; Zhanping Chen; Jeffrey Hicks; Gregory F. Taylor |
| An embodiment of the present invention is a technique to program a fuse. A program circuit generates first and second currents to program the fuse. The second current is higher than the first current. A control circuit controls generating the first and second currents in succession. | ||||||
| 15 | Fuse plate, and the battery block having a it | JP2013138652 | 2013-07-02 | JP5360329B2 | 2013-12-04 | 正浩 小野; 貴嗣 中川; 曉 高野 |
| A fuse board including a metal plate, a connection portion connected to a cell, a fuse portion connecting the metal plate to the connection portion, and an insulating resin film bonded to the fuse portion, wherein a wiring pattern of the fuse portion has a bent portion, and the insulating resin film has a rectangular sheet-like shape that covers one surface of the fuse portion. | ||||||
| 16 | Fuse plate and battery block provided with the same | JP2013138652 | 2013-07-02 | JP2013219052A | 2013-10-24 | ONO MASAHIRO; NAKAGAWA TAKASHI; TAKANO AKIRA |
| PROBLEM TO BE SOLVED: To prevent disconnection of fuse wiring due to vibration by optimizing a wiring pattern of a fuse and arranging a resin film for protecting the fuse.SOLUTION: A fuse plate includes: a metal plate; a connection part to be connected to a battery; a fuse part connecting the metal plate and the connection part; and an insulating resin film bonded to the fuse part. The fuse part is constituted of a wiring pattern having a bent portion, and the insulating resin film is a protective film covering one surface of the fuse part. | ||||||
| 17 | Battery connection assembly | JP12399996 | 1996-04-22 | JPH08298145A | 1996-11-12 | FURITSUTSU JIYOSEFU AROISU KUR |
| PROBLEM TO BE SOLVED: To provide a battery connection assembly which enables automated assembly, while having a mechanism for preventing fire occurrence at the time of an accident. SOLUTION: A battery connection assembly 50 has a terminal 2 to be connected to a battery post 4 and a housing 52 to which a positive electrode and a negative electrode circuit 54, 56 are attached. The terminal 2 has a contact part 6 and a rotatable spring clamp 8 cam-engaged with a periphery of the contact part 6. When the spring clamp 8 is rotated around the battery post 4, the battery post 4 between the spring clamp 7 and the contact part 6 is clamped. Because of this, the terminal 2 can be integrated into the battery post 4 by using a robot. The housing 52 is provided with a short-circuit drive means for short-circuiting a battery at the time of occurrence of an accident. Because a fuse is blown by the short-circuit and power supply is interrupted, fire does not occur. | ||||||
| 18 | BUSBAR AND BATTERY MODULE HAVING SUCH A BUSBAR | US15779014 | 2016-08-31 | US20180351152A1 | 2018-12-06 | Martin Reingruber; Edmund Jenner-Braunschmied |
| A battery, a battery pack for the battery, and a busbar for connecting battery cells, the busbar having an electrically conductive metal sheet and having at least one sheet metal connector piece, which is incorporated into the metal sheet with the aid of a cutting method and which protrudes from the metal sheet; the sheet metal connector piece has a contacting part for electrically connecting to a pole of the battery cell and a safety part embodied in the form of a fuse. In order to create a busbar that is durable and simply designed and nevertheless has a high degree of fire safety, it is proposed that the safety part be embodied in the form of a coiled helical spring. | ||||||
| 19 | Fusible switch assemblies, and load base assemblies, line base assemblies, line bus connector assemblies, fuse clip assemblies, fuse clip and lug assemblies, and operational methods thereof | US14484543 | 2014-09-12 | US09368296B2 | 2016-06-14 | Michael J. Holland; Thomas Jameson |
| A fusible switch assembly including a line base assembly and load base assembly is disclosed. Line base assembly includes a low-profile fuse clip assembly and line bus connector assembly with single-piece connector body and sliding nuts. Load base assembly includes a fuse clip and lug assembly having a lug body including a multiple lugs and a fuse clip at least partially formed by the lug body. Line base assemblies, load base assemblies, fuse clip assemblies, line bus connector assemblies, fuse clip and lug assemblies, and methods of operating line base assemblies are provided, as are other aspects. | ||||||
| 20 | THERMALLY RESPONSIVE SWITCH AND METHOD OF MANUFACTURING SAME | US14780874 | 2013-03-29 | US20160071679A1 | 2016-03-10 | Takashi ADAKE; Tomohiro HORI |
| A thermally responsive switch is provided with a sealed container having a housing and a cover plate secured to the housing; a couple of conductive thermal pins inserted into a couple of through holes provided on the cover plate and secured by an insulative filler; a stationary contact secured to one of the conductive thermal pins inside the container; a heater having one end connected to the other of the conductive terminal pins inside the container and the other end connected to the cover plate; a thermally responsive plate having one end connected to the housing and being configured to invert a direction of curvature thereof at a predetermined temperature; and a movable contact provided on the other end of the thermally responsive plate. The through holes are configured by cylindrical portions, only the cylindrical portions, the filler, and the conductive terminal pins being covered by an insulative resin. | ||||||
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