公开(公告)号：US20100176869A1

公开(公告)日：2010-07-15

申请号：US12686613

申请日：2010-01-13

Applicant: Koji Horie ,  Minoru Nagata

Inventor： Koji Horie ,  Minoru Nagata

IPC: H01L37/00

CPC classification number: H03F1/302 ,  H03F3/195 ,  H03F3/245 ,  H03F2200/447 ,  H03F2200/451

Abstract: A temperature compensation circuit according to an embodiment of the present invention includes a bias circuit configured to output a bias current having a current value increasing in proportion to an absolute temperature in a low-temperature region in which a temperature is lower than a predetermined temperature, and having a greater current value than the current value proportional to the absolute temperature in a high-temperature region in which the temperature is equal to or greater than the predetermined temperature, and a transistor having a control terminal supplied with the bias current. The bias circuit includes a first current generating circuit configured to generate a first current increasing in proportion to the absolute temperature, a second current generating circuit configured to generate a second current that does not flow in the low-temperature region and flows in the high-temperature region, and a control circuit configured to control the second current and having a connection terminal capable of being connected with an external resistor for adjusting a magnitude of the second current, and is configured to generate a third current by adding the first current to the second current, and output the bias current depending on or equal to the third current.

Abstract translation: 根据本发明实施例的温度补偿电路包括：偏置电路，被配置为输出与温度低于预定温度的低温区域中的绝对温度成比例地增加的电流值的偏置电流， 并且具有比在温度等于或大于预定温度的高温区域中与绝对温度成比例的电流值的电流值更大的电流值，以及具有提供偏置电流的控制端子的晶体管。 偏置电路包括：第一电流产生电路，被配置为产生与绝对温度成比例的第一电流;第二电流产生电路，被配置为产生不在低温区域中流动并在高温区域中流动的第二电流; 温度区域和控制电路，被配置为控制第二电流并具有能够与外部电阻器连接的连接端子，用于调整第二电流的大小，并且被配置为通过将第一电流加到第一电流中来产生第三电流 并且根据或等于第三电流输出偏置电流。

公开(公告)号：US4245725A

公开(公告)日：1981-01-20

申请号：US40993

申请日：1979-05-21

Applicant: Tokio Kurita ,  Koji Horie

Inventor： Tokio Kurita ,  Koji Horie

IPC: F16D51/00 ,  B60T17/04 ,  F16D51/30 ,  F16D65/00 ,  F16D65/22 ,  F16F7/00

CPC classification number: F16D65/22 ,  B60T17/046 ,  F16D51/30 ,  F16D65/0006 ,  Y10T24/44769

Abstract: A drum brake comprising a backplate. A pair of wheel cylinders and a pair of brake shoes are arranged on the front face of the backplate. The wheel cylinders are interconnected to each other via the brake oil tube. The brake oil tube extends from one of the wheel cylinders towards the other cylinder along the rear face of the backplate and is arranged to be spaced from the rear face of the backplate. A tube supporting member made of elastic non-metallic material is inserted between the central portion of the brake oil tube and the rear face of the backplate.

Abstract translation: 包括背板的鼓式制动器。 一对轮缸和一对制动蹄布置在背板的前表面上。 轮缸通过制动油管相互连接。 制动油管沿背板的后表面从其中一个轮缸朝向另一个缸体延伸，并且被布置成与背板的后表面间隔开。 由弹性非金属材料制成的管支撑件插入在制动油管的中心部分和后板的后表面之间。

公开(公告)号：US4061098A

公开(公告)日：1977-12-06

申请号：US769429

申请日：1977-02-17

Applicant: Koji Horie ,  Takashi Mune

Inventor： Koji Horie ,  Takashi Mune

IPC: B21D5/01 ,  B21D5/00 ,  B21D11/10 ,  B21D11/20 ,  B21D53/34 ,  B21C37/02

CPC classification number: B21D53/34 ,  B21D11/10 ,  B21D11/20 ,  B21D5/00

Abstract: A process for bending on a press a metal sheet through a desired angle and an inner bend radius less than the thickness of the sheet, without causing damages such as cracking in a bend. According to this process, a metal sheet is first bent through an angle approximating a desired angle, with an inner bend radius being greater than the thickness of the metal sheet, and then the metal sheet thus bent is further bent through a desired angle, with the inner bend radius being less than the thickness of the metal sheet, and with the stretching of a material of the metal sheet on the outer side of the bend being suppressed.

Abstract translation: 用于在金属板上按压所需角度和小于片材厚度的内弯曲半径进行弯曲的方法，而不会造成诸如弯曲部的破裂等损伤。 根据该处理，金属片首先弯曲成接近期望角度的角度，其内弯曲半径大于金属片的厚度，然后将如此弯曲的金属片进一步弯曲所需的角度， 内弯曲半径小于金属片的厚度，并且在弯曲的外侧上的金属片的材料的拉伸被抑制。

公开(公告)号：US08427227B2

公开(公告)日：2013-04-23

申请号：US13403121

申请日：2012-02-23

Applicant: Koji Horie ,  Minoru Nagata

Inventor： Koji Horie ,  Minoru Nagata

IPC: G05F3/02 ,  H03K17/14

CPC classification number: H03F1/302 ,  H03F3/195 ,  H03F3/245 ,  H03F2200/447 ,  H03F2200/451

Abstract: In one embodiment, a temperature compensation circuit includes a bias circuit configured to output a bias current having a current value increasing in proportion to an absolute temperature in a low-temperature region, and having a greater current value than the current value proportional to the absolute temperature in a high-temperature region, and a transistor which is supplied with the bias current. The bias circuit includes first to third transistors, a fourth transistor through which a first current flows, a fifth transistor, a sixth transistor through which a second current flows, and a control circuit having a connection terminal capable of being connected with an external resistor for adjusting a magnitude of the second current. The bias circuit generates a third current by adding the first current to the second current, and outputs the bias current that is the third current or a fourth current depending on the third current.

Abstract translation: 在一个实施例中，温度补偿电路包括偏置电路，该偏置电路被配置为输出具有与低温区域中的绝对温度成比例增加的电流值的偏置电流，并且具有比与绝对值成比例的电流值更大的电流值 高温区域的温度，以及被提供偏置电流的晶体管。 偏置电路包括第一至第三晶体管，第一电流流经的第四晶体管，第五晶体管，第二电流流经的第六晶体管，以及具有能够与外部电阻器连接的连接端子的控制电路， 调整第二电流的大小。 偏置电路通过将第一电流加到第二电流来产生第三电流，并根据第三电流输出作为第三电流或第四电流的偏置电流。

公开(公告)号：US07888987B2

公开(公告)日：2011-02-15

申请号：US12323873

申请日：2008-11-26

Applicant: Koji Horie

Inventor： Koji Horie

IPC: G05F3/26 ,  H03K17/14

CPC classification number: H03F1/302 ,  H03F1/301 ,  H03F2200/18 ,  H03F2200/447 ,  Y10S323/907

Abstract: A temperature compensation circuit according to an embodiment includes a bias circuit configured to output a bias current, the bias current having a current value increasing in proportion to absolute temperature, in a low temperature region in which a temperature is lower than a predetermined temperature, and having another current value increasing at a faster rate than the current value increasing in proportion to absolute temperature, in a high temperature region in which the temperature is equal to or greater than the predetermined temperature, and a transistor having a collector connected to a power supply terminal, an emitter which is grounded, and a base supplied with the bias current.

Abstract translation: 根据实施例的温度补偿电路包括偏置电路，其被配置为在温度低于预定温度的低温区域中输出偏置电流，所述偏置电流具有与绝对温度成比例的电流值增加的偏置电流，以及 在温度等于或大于预定温度的高温区域中，具有以比绝对温度成比例增加的电流值更快的速率增加的电流值，以及具有集电极连接到电源的晶体管 端子，接地的发射极和提供有偏置电流的基极。

公开(公告)号：US20090140792A1

公开(公告)日：2009-06-04

申请号：US12323873

申请日：2008-11-26

Applicant: Koji Horie

Inventor： Koji Horie

IPC: H01L35/00

CPC classification number: H03F1/302 ,  H03F1/301 ,  H03F2200/18 ,  H03F2200/447 ,  Y10S323/907

Abstract: A temperature compensation circuit according to an embodiment of the present invention includes a bias circuit configured to output a bias current, the bias current having a current value increasing in proportion to absolute temperature, in a low temperature region in which a temperature is lower than a predetermined temperature, and having a greater current value than the current value increasing in proportion to absolute temperature, in a high temperature region in which the temperature is equal to or greater than the predetermined temperature, and a transistor having a collector connected to a power supply terminal, an emitter which is grounded, and a base supplied with the bias current.

Abstract translation: 根据本发明实施例的温度补偿电路包括偏置电路，该偏置电路被配置为在温度低于绝对温度的低温区域中输出具有与绝对温度成比例的电流值的偏置电流 预定温度，并且在温度等于或大于预定温度的高温区域中，具有比绝对温度成比例增加的电流值大的电流值，以及具有集电极连接到电源的晶体管 端子，接地的发射极和提供有偏置电流的基极。

公开(公告)号：US20120212284A1

公开(公告)日：2012-08-23

申请号：US13403121

申请日：2012-02-23

Applicant: Koji Horie ,  Minoru Nagata

Inventor： Koji Horie ,  Minoru Nagata

IPC: H03K5/00

CPC classification number: H03F1/302 ,  H03F3/195 ,  H03F3/245 ,  H03F2200/447 ,  H03F2200/451

Abstract: In one embodiment, a temperature compensation circuit includes a bias circuit configured to output a bias current having a current value increasing in proportion to an absolute temperature in a low-temperature region, and having a greater current value than the current value proportional to the absolute temperature in a high-temperature region, and a transistor which is supplied with the bias current. The bias circuit includes first to third transistors, a fourth transistor through which a first current flows, a fifth transistor, a sixth transistor through which a second current flows, and a control circuit having a connection terminal capable of being connected with an external resistor for adjusting a magnitude of the second current. The bias circuit generates a third current by adding the first current to the second current, and outputs the bias current that is the third current or a fourth current depending on the third current.

Abstract translation: 在一个实施例中，温度补偿电路包括偏置电路，该偏置电路被配置为输出具有与低温区域中的绝对温度成比例增加的电流值的偏置电流，并且具有比与绝对值成比例的电流值更大的电流值 高温区域的温度，以及被提供偏置电流的晶体管。 偏置电路包括第一至第三晶体管，第一电流流经的第四晶体管，第五晶体管，第二电流流经的第六晶体管，以及具有能够与外部电阻器连接的连接端子的控制电路， 调整第二电流的大小。 偏置电路通过将第一电流加到第二电流来产生第三电流，并根据第三电流输出作为第三电流或第四电流的偏置电流。

公开(公告)号：US08212605B2

公开(公告)日：2012-07-03

申请号：US12686613

申请日：2010-01-13

Applicant: Koji Horie ,  Minoru Nagata

Inventor： Koji Horie ,  Minoru Nagata

IPC: H03F3/20 ,  G05F3/16 ,  H03K17/14

CPC classification number: H03F1/302 ,  H03F3/195 ,  H03F3/245 ,  H03F2200/447 ,  H03F2200/451

Abstract: A temperature compensation circuit includes a bias circuit configured to output a bias current having a current value increasing in proportion to an absolute temperature in a low-temperature region in which a temperature is lower than a predetermined temperature, and having a greater current value than the current value proportional to the absolute temperature in a high-temperature region in which the temperature is equal to or greater than the predetermined temperature, and a transistor having a control terminal supplied with the bias current. The bias circuit includes a first current generating circuit configured to generate a first current increasing in proportion to the absolute temperature, a second current generating circuit configured to generate a second current that does not flow in the low-temperature region and flows in the high-temperature region, and a control circuit configured to control the second current and having a connection terminal capable of being connected with an external resistor for adjusting a magnitude of the second current, and is configured to generate a third current by adding the first current to the second current, and output the bias current depending on or equal to the third current.

Abstract translation: 温度补偿电路包括偏置电路，该偏置电路被配置为输出具有与温度低于预定温度的低温区域中的绝对温度成比例增加的电流值的偏置电流，并且具有比 电流值与温度等于或大于预定温度的高温区域中的绝对温度成比例，以及具有提供偏置电流的控制端子的晶体管。 偏置电路包括：第一电流产生电路，被配置为产生与绝对温度成比例的第一电流;第二电流产生电路，被配置为产生不在低温区域中流动并在高温区域中流动的第二电流; 温度区域和控制电路，被配置为控制第二电流并具有能够与外部电阻器连接的连接端子，用于调整第二电流的大小，并且被配置为通过将第一电流加到第一电流中来产生第三电流 并且根据或等于第三电流输出偏置电流。

公开(公告)号：US4119180A

公开(公告)日：1978-10-10

申请号：US821629

申请日：1977-08-04

Applicant: Koji Horie

Inventor： Koji Horie

IPC: F16D55/00 ,  F16D55/227 ,  F16D65/097 ,  F16D65/02

CPC classification number: F16D55/227 ,  F16D65/0976 ,  F16D2055/0041

Abstract: A disc brake including a torque bearing member which slidably supports an inner pad and an outer pad which are positioned on the opposite sides of a brake disc, respectively. The torque bearing member has outer pad guide portions, each of which establishes surface-to-surface contact with the outer pad. As a result, wear of the outer pad guide portions is improved despite the frequent sliding movement of the outer pad along the outer pad guide portions, thus extending the service life of a disc brake.

Abstract translation: 一种盘式制动器，包括分别可滑动地支撑位于制动盘的相对侧上的内垫和外垫的扭矩承载构件。 扭矩承载部件具有外部衬垫引导部分，每个都与外部衬垫形成表面 - 表面接触。 结果，尽管外垫片沿着外垫片引导部分的频繁滑动移动，外垫片引导部分的磨损得以改善，从而延长了盘式制动器的使用寿命。