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 | 具有排线带的磁通返回路径 | CN200780011559.2 | 2007-03-07 | CN101410913A | 2009-04-15 | W·马雷考; J·斯托克梅尔 |
本发明涉及一种形成磁芯(4)或磁芯的部分的方法,该磁芯或磁芯的部分包括结构非常紧凑的若干层的磁线(6)的绕组(5),其特征在于,通过并排卷绕若干层的线的排线带(5)直到获得磁芯或磁芯的部分的期望层数来形成磁芯(4)或磁芯的部分。 | ||||||
2 | 变压器 | CN02127219.0 | 2002-07-30 | CN1420505A | 2003-05-28 | 川野边和男 |
一种由多层结构(B)构成的变压器,在该多层结构(B)中,依次叠放着多个薄片螺线形原边线圈(1)和多个薄片螺线形副边线圈(2)。多层结构(B)中的原边线圈(1)彼此连接,多层结构(B)中的副边线圈(2)彼此连接,薄片上屏蔽层(3)安装在多层结构(B)的最上层,下屏蔽层(4)安装在多层结构(B)的最下层。 | ||||||
3 | 利用线圈感应装置的能量变换系统 | CN00817994.8 | 2000-12-27 | CN100449660C | 2009-01-07 | 哈里·R·巴斯韦尔 |
一种能量变换系统,它利用了一种感应装置,该装置具有由多根延伸穿过该感应装置并延伸到器电绕组外面的金属线形成的磁芯。这些金属线的端部围绕着所述电绕组接触并且连接在一起,从而包裹着所述磁芯和绕组,以形成完整的磁路。感应装置可以为用在电源变换器和其它具有两个或多个绕组的装置中的变压器,用在镇流器、电源、变换器或其它感应装置中并仅具有一个绕组的扼流圈。该能量变换系统还可以包括整流器、滤波器和稳压器、所谓的模拟系统或如在开关模式系统中一样的部件。在该能量变换系统的一个实施例中,可以将整流、过滤或稳压部件或其它部件中一个或全部设置在由磁芯形成的外壳中,从而提供物理保护和屏蔽,以防止来自外部能源的电磁干扰的侵入。 | ||||||
4 | 金属丝芯感应装置 | CN99813803.7 | 1999-11-29 | CN100392776C | 2008-06-04 | 哈里·R·巴斯韦尔 |
感应装置(10)的磁心由多根穿过感应装置(10)延伸并在电绕组(18,19)之外的金属丝(17)形成。金属丝(17)的端部环绕电绕组(18,19)形成、会合、并连接在一起,包围磁心(16)和绕组(18,19)并形成一完整磁路。感应装置(10)可以是具有两个或多个绕组的变压器、只有一个绕组的扼流器、或者其它感应装置。电绕组(18,19)可直接缠绕在金属丝磁心(16)上,或者单独成形然后放置在磁心(16)上。可将一安装杆(14)等捆扎在磁心(16)中并用作感应装置(10)的安装杆;可将冷却管(43)和/或大棒(38)插入磁心中用于支承。 | ||||||
5 | 变压器磁芯 | CN01804607.X | 2001-02-06 | CN1398412A | 2003-02-19 | 伦纳特·赫格隆 |
一种变压器或感应器的磁性材料磁芯,具有通过磁轭互相连接的三个铁心(6,8,10)。这种磁芯包括由磁性材料的金属线和/或带状线构成的环(12,14,16),其中每个环构成两个铁心的一部分。构成两个不同铁心部件的一部分的环交织在一个共同的铁心部件上。这为磁芯提供了机械稳定性和优良的磁特性。 | ||||||
6 | 金属丝芯感应装置 | CN99813803.7 | 1999-11-29 | CN1357147A | 2002-07-03 | 哈里·R·巴斯韦尔 |
感应装置(10)的磁心由多根穿过感应装置(10)延伸并在电绕组(18,19)之外的金属丝(17)形成。金属丝(17)的端部环绕电绕组(18,19)形成、会合、并连接在一起,包围磁心(16)和绕组(18,19)并形成一完整磁路。感应装置(10)可以是具有两个或多个绕组的变压器、只有一个绕组的扼流器、或者其它感应装置。电绕组(18,19)可直接缠绕在金属丝磁心(16)上,或者单独成形然后放置在磁心(16)上。可将一安装杆(14)等捆扎在磁心(16)中并用作感应装置(10)的安装杆;可将冷却管(43)和/或大棒(38)插入磁心中用于支承。 | ||||||
7 | 具有排线带的磁通返回路径 | CN201110278828.X | 2007-03-07 | CN102360681A | 2012-02-22 | W·马雷考; J·斯托克梅尔 |
本发明涉及一种形成磁芯(4)或磁芯的部分的方法,该磁芯或磁芯的部分包括结构非常紧凑的若干层的磁线(6)的绕组(5),其特征在于,通过并排卷绕若干层的线的排线带(5)直到获得磁芯或磁芯的部分的期望层数来形成磁芯(4)或磁芯的部分。 | ||||||
8 | 环形感应装置及其制造方法 | CN02804044.9 | 2002-01-23 | CN1237551C | 2006-01-18 | 哈里·R·巴斯韦尔 |
一种感应装置包括基本环形的电绕组部件和多个离散的磁性部件,该离散的磁性部件至少部分地包围着电绕组部件以完成磁通量通路并在多个离散的磁性部件的端部部分之间形成至少一个间隙。 | ||||||
9 | 变压器磁芯 | CN01804607.X | 2001-02-06 | CN1213447C | 2005-08-03 | 伦纳特·赫格隆 |
一种变压器或感应器的磁性材料磁芯,具有通过磁轭互相连接的三个铁心(6,8,10)。这种磁芯包括由磁性材料的金属线和/或带状线构成的环(12,14,16),其中每个环构成两个铁心的一部分。构成两个不同铁心部件的一部分的环交织在一个共同的铁心部件上。这为磁芯提供了机械稳定性和优良的磁特性。 | ||||||
10 | 环形感应装置及其制造方法 | CN02804044.9 | 2002-01-23 | CN1488153A | 2004-04-07 | 哈里·R·巴斯韦尔 |
一种感应装置包括基本环形的电绕组部件和多个离散的磁性部件,该离散的磁性部件至少部分地包围着电绕组部件以完成磁通量通路并在多个离散的磁性部件的端部部分之间形成至少一个间隙。 | ||||||
11 | 利用线圈感应装置的能量变换系统 | CN00817994.8 | 2000-12-27 | CN1415111A | 2003-04-30 | 哈里·R·巴斯韦尔 |
一种能量变换系统,它利用了一种感应装置,该装置具有由多根延伸穿过该感应装置并延伸到器电绕组外面的金属线形成的磁芯。这些金属线的端部围绕着所述电绕组接触并且连接在一起,从而包裹着所述磁芯和绕组,以形成完整的磁路。感应装置可以为用在电源变换器和其它具有两个或多个绕组的装置中的变压器,用在镇流器、电源、变换器或其它感应装置中并仅具有一个绕组的扼流圈。该能量变换系统还可以包括整流器、滤波器和稳压器、所谓的模拟系统或如在开关模式系统中一样的部件。在该能量变换系统的一个实施例中,可以将整流、过滤或稳压部件或其它部件中一个或全部设置在由磁芯形成的外壳中,从而提供物理保护和屏蔽,以防止来自外部能源的电磁干扰的侵入。 | ||||||
12 | MAGNETKERN SOWIE DROSSEL BZW. TRANSFORMATOR MIT EINEM SOLCHEN MAGNETKERN | EP15736283.1 | 2015-07-10 | EP3320546A1 | 2018-05-16 | Millsap, James |
The invention relates to a magnetic core (10) for a three-phase choke or a three-phase transformer, comprising three winding legs (11, 12, 13) for holding electrical windings (21, 22, 23), wherein the winding legs (11, 12, 13) are arranged substantially parallel to each other in the shape of a triangle, wherein the winding legs (11, 12, 13) are connected by means of an annular or convex polygonal yoke (14), which lies on the winding legs (11, 12, 13). The invention also relates to a choke or transformer having such a magnetic core (10). | ||||||
13 | MAGNETIC STRUCTURE | EP07809655.9 | 2007-06-14 | EP2033300A2 | 2009-03-11 | YARGER, Eric J.; SPENCER, David F.; CHRISTIANSEN, Dale W. |
A magnetic structure configured to generate an unbalanced magnetic field. The magnetic structure may be advantageously employed in electro-mechanical and electro-magnetic devices. | ||||||
14 | INDUCTIVE DEVICES AND METHODS OF MAKING THE SAME | EP07710207.7 | 2007-01-18 | EP1979921A2 | 2008-10-15 | Buswell, Harrie R. |
Toroidal inductive devices are manufactured with high efficiency through the use of bobbin winding techniques or wound magnetic pattern members . | ||||||
15 | Transformer | EP02018164.0 | 2002-08-19 | EP1315181A1 | 2003-05-28 | Kawanobe, Kazuo, c/o JHC Osaka Corporation |
A transformer made of a multilayer construction (B) in which plural spiral primary-side coils (1) of thin plate and plural spiral secondary-side coils (2) of thin plate are layered in turn. The primary-side coils (1) of the multilayer construction (B) are connected each other, the secondary-side coils (2) of the multilayer construction (B) are connected each other, an upper shielding layer (3) of thin plate is disposed on the uppermost layer of the multilayer construction (B), and a lower shielding layer (4) is disposed under the lowermost layer of the multilayer construction (B). |
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16 | APPARATUS FOR ALIGNING MAGNETIC WIRE AND METHOD FOR ALIGNING THE SAME | US15805852 | 2017-11-07 | US20190051457A1 | 2019-02-14 | Katsuhiko NISHIHATA |
Apparatus for aligning magnetic wire aligns magnetic wires on a wire alignment substrate along its base lines, which are positions the magnetic wires are aligned with, with a small interval and without inducing torsional stresses. A microscope is used to detect misplacement between the base line and a reference line that is the magnetic wire taking a form of a straight line under application of tensile force and pulled out by a wire chuck. The misplacement is corrected using a position adjustment device of a substrate attaching base to which the wire alignment substrate is attached. The magnetic wires are temporarily fixed to the wire alignment substrate by magnetic power, and then permanently fixed to the wire alignment substrate using resin while free from the torsional stresses. | ||||||
17 | MAGNETIC CORE, AND CHOKE OR TRANSFORMER HAVING SUCH A MAGNETIC CORE | US15742904 | 2015-07-10 | US20180218826A1 | 2018-08-02 | James MILLSAP |
The invention relates to a magnetic core (10) for a three-phase choke or a three-phase transformer, comprising three winding legs (11, 12, 13) for holding electrical windings (21, 22, 23), wherein the winding legs (11, 12, 13) are arranged substantially parallel to each other in the shape of a triangle, wherein the winding legs (11, 12, 13) are connected by means of an annular or convex polygonal yoke (14), which lies on the winding legs (11, 12, 13). The invention also relates to a choke or transformer having such a magnetic core (10). | ||||||
18 | Electronic component | US14934065 | 2015-11-05 | US09953753B2 | 2018-04-24 | Byeong Cheol Moon |
An electronic component includes a magnetic body having internal coil patterns. The magnetic body includes a core part including the internal coil patterns; and upper and lower cover parts disposed above and below the core part, respectively. Magnetic wires are disposed in the core part, and magnetic plates are disposed in the upper and lower cover parts. | ||||||
19 | Reactor | US13698269 | 2011-05-12 | US09330834B2 | 2016-05-03 | Tsutomu Morimoto; Kenichi Inoue; Koji Inoue; Hiroshi Hashimoto |
A core member (2) of the disclosed reactor (Da) comprises a magnetic wire material and is arranged outside a plurality of coils (1). As the core member (2) in the reactor (Da) having this structure is a wire material and is arranged outside the plurality of coils (1), the core member (2) can be formed by the winding of the wire material, simplifying manufacturing. | ||||||
20 | INDUCTIVE DEVICES AND METHODS OF MAKING THE SAME | US12161544 | 2007-01-18 | US20090278647A1 | 2009-11-12 | Harrie R. Buswell |
Toroidal inductive devices are manufactured with high efficiency through the use of bobbin winding techniques or wound magnetic pattern members. |