公开(公告)号：US07969740B2

公开(公告)日：2011-06-28

申请号：US12720739

申请日：2010-03-10

Applicant: Hideyuki Miyahara

Inventor： Hideyuki Miyahara

IPC: H05K7/20 ,  B32B15/00

CPC classification number: H05K3/44 ,  F28F3/048 ,  H05K1/0203 ,  H05K1/056 ,  H05K2201/0382 ,  H05K2203/0195 ,  H05K2203/0323 ,  Y10T428/12493

Abstract: In a metal-based print board formed with radiators, a metal foil is affixed to a front surface of a metal plate having good thermal conductivity, an insulating adhesive layer interposed therebetween. A radiator is integrally provided on a reverse surface of the metal plate, the radiator having a plurality of thin radiating fins formed upright in a tabular shape due to having been dug out by an excavating tool. The radiating fins give the radiator a large area over which heat can be released. The thickness of a first metal plate portion formed between adjacent radiating fins is less than the original thickness of the metal plate. Heat generated by an electronic component or another component provided on a side of the front surface of the metal plate is rapidly transmitted from the reduced-thickness first metal plate portion of the metal plate to each of the radiating fins of the radiator on the reverse surface side, and efficiently released from each of the radiating fins, which have a large area over which heat is radiated.

Abstract translation: 在形成有散热器的金属制打印板中，金属箔固定在具有良好导热性的金属板的前表面，绝缘粘合层插入其间。 散热器一体地设置在金属板的背面上，散热器具有由挖掘工具挖出的直立形成为平板状的多个薄的散热片。 散热片为散热器提供了一个可以释放热量的大面积。 形成在相邻散热片之间的第一金属板部分的厚度小于金属板的原始厚度。 由设置在金属板前表面侧的电子部件或其他部件产生的热量从金属板的厚度小的第一金属板部迅速传递到散热器的背面的散热片 并且从散热片的每一个有效地释放，散热片具有大的辐射面积。

公开(公告)号：US06915676B2

公开(公告)日：2005-07-12

申请号：US10314493

申请日：2002-12-09

Applicant: Hideyuki Miyahara

Inventor： Hideyuki Miyahara

IPC: B21D22/02 ,  B21D22/04 ,  B21D22/26 ,  B21D53/00 ,  B21J5/06 ,  G11B25/04 ,  G11B33/02 ,  B21C37/02

CPC classification number: H05K7/142 ,  B21D22/04 ,  B21K23/00 ,  G11B33/022

Abstract: In a method of forming a protruded shaft on a metal base for an electronic memory device, the metal base is pressed down with a pressing tool from upper face side of the metal base placed on a die. The die is provided with a hole having a predetermined inner diameter and the wall material of the metal base is moved into the hole of the die to form a protruded shaft having a hollow part inside and the tip end closed.

Abstract translation: 在用于电子存储装置的金属底座上形成突出轴的方法中，金属底座用压制工具从位于模具上的金属基底的上表面侧压下。 模具设置有具有预定内径的孔，并且金属基底的壁材料移动到模具的孔中以形成具有中空部分的突出轴，并且尖端封闭。

公开(公告)号：US20050050935A1

公开(公告)日：2005-03-10

申请号：US10964490

申请日：2004-10-13

Applicant: Hideyuki Miyahara

Inventor： Hideyuki Miyahara

IPC: B21D28/16 ,  B21D28/10 ,  B21D28/18

CPC classification number: B21D28/18 ,  Y10T83/06

Abstract: A shearing method for a thin plate including forming a protruded product part having a first sagging part when the thin plate with a thickness of not more than approximately 0.3 mm is performed with a half die cutting by pressing the half die cutting punch slightly larger than the half die cutting hole to form a shallow recessed part, fixing the product part by a fixing member, forming a second sagging part at an edge portion of the thin plate by pressurizing a scrap part by moving a pressure punch which is provided with a gap between the fixing member and the pressure punch and by being bent between the scrap part and the product part, and then separating the scrap part from the product part.

Abstract translation: 薄板的剪切方法包括在厚度不大于约0.3mm的薄板上形成具有第一下垂部分的突出部分的半导体模切件通过按压半模切割冲头而略微大于 半模切割孔形成浅凹部，通过固定部件固定产品部分，通过移动设置有间隙的压力冲压器来加压废料部分，在薄板的边缘部分形成第二下垂部分 固定构件和压力冲头，并且通过在废料部分和产品部件之间弯曲，然后将废料部分与产品部件分离。

公开(公告)号：US20080295561A1

公开(公告)日：2008-12-04

申请号：US12154848

申请日：2008-05-27

Applicant: Hideyuki Miyahara

Inventor： Hideyuki Miyahara

IPC: B21D28/00

CPC classification number: B23D5/00 ,  B23D79/00 ,  B26D3/08 ,  B26D3/28 ,  Y10T83/0304 ,  Y10T409/50082 ,  Y10T409/501148 ,  Y10T409/502624 ,  Y10T409/506396

Abstract: In a method of forming a recess in a work, a work (1) in which the recess is to be formed is a material that can be cut. A cutting tool (10) for forming the recess is held by a moving apparatus at a prescribed angle relative to the work (1). In a fin-forming step, the cutting tool (10) is moved in a carving direction for carving the work (1) at the prescribed angle, and a thin cutting fin (3) is vertically formed. In a cutting step, the cutting tool (10) is moved in the horizontal direction, and the cutting fin 3 is cut and separated from the work 1. The fin-forming step and the cutting step are repeatedly performed in sequence, whereby a recess (2) having a prescribed depth d and area is formed in the work (1). A recess having the prescribed depth can be readily formed in the surface of the work while applying little stress, even when the area is large.

Abstract translation: 在工件中形成凹部的方法中，要形成凹部的工件（1）是能够被切割的材料。 用于形成凹部的切割工具（10）由相对于工件（1）以规定角度的移动装置保持。 在翅片形成步骤中，切割工具（10）沿雕刻方向移动，以规定的角度雕刻工件（1），并且垂直形成薄的切割翅片（3）。 在切割步骤中，切割工具（10）沿水平方向移动，并且切割翅片3被切割并与工件1分离。翅片形成步骤和切割步骤依次重复进行，由此， （2）具有规定的深度d和区域形成在工件（1）中。 即使面积较大，也能够在施加很小的应力的同时，在工件的表面容易地形成具有规定深度的凹部。

公开(公告)号：US20070012431A1

公开(公告)日：2007-01-18

申请号：US11472500

申请日：2006-06-21

Applicant: Hideyuki Miyahara

Inventor： Hideyuki Miyahara

IPC: F28F3/14

CPC classification number: F28D15/0233 ,  F28D15/046

Abstract: A method for manufacturing a plate-type heat exchanger in which a heat medium is sealed in a hollow part of an airtight structure formed in the interior of a plate-like container, and the heat medium is moved by capillary force from a condensing part to an evaporating part in the hollow part along heat-medium-guiding grooves formed in the container's inside surface portions that face the hollow part; wherein a plastic workable metal plate of specific thermal conductivity is prepared; a carving tool is used to repeatedly carve out a surface portion of the metal plate at specific intervals along the surface portion, forming a plurality of plate-like fins; and a plurality of grooves formed between these fins is used as heat-medium-guiding grooves. A plate-type heat exchanger is obtained which comprises extremely small heat-medium-guiding grooves that have the necessary capillary force to move the heat medium from the condensing part to the evaporating part without affecting the set alignment or other such characteristics.

Abstract translation: 一种用于制造板式热交换器的方法，其中热介质密封在形成在板状容器内部的气密结构的中空部分中，并且热介质通过毛细管力从冷凝部件移动到 沿着形成在容器的面向中空部的内表面部的热介质导向槽的中空部的蒸发部; 其中制备具有特定导热性的塑性可加工金属板; 雕刻工具用于沿着表面部分以特定间隔重复地雕刻金属板的表面部分，形成多个板状翅片; 并且在这些翅片之间形成的多个槽被用作热介质导槽。 获得了一种板式热交换器，其包括具有必要的毛细力的极小的热介质导槽，以将热介质从冷凝部件移动到蒸发部件，而不会影响设定的对准或其它这些特性。

公开(公告)号：US20050193559A1

公开(公告)日：2005-09-08

申请号：US11041512

申请日：2005-01-24

Applicant: Hideyuki Miyahara

Inventor： Hideyuki Miyahara

IPC: H05K7/20 ,  B21D53/02 ,  B23D3/00 ,  B23D13/00 ,  B23P15/26 ,  F28F3/04 ,  H01L23/36

CPC classification number: F28F3/04 ,  B21J5/12 ,  B23P2700/10 ,  H01L21/4878 ,  H01L23/3672 ,  H01L2924/0002 ,  Y10T29/4935 ,  H01L2924/00

Abstract: In a method of manufacturing a radiator, the blade of a carving tool is applied at a specific angle to the surface of a metal plate with a high coefficient of thermal conductivity, the carving tool is advanced while the angle is maintained, and the surface of the metal plate is carved out to form plate-shaped heat-radiating fins vertically upward. A radiator is manufactured in which a plurality of heat-radiating fins are integrally formed vertically upward at a specific pitch from a single metal plate by repeating a step in which the carving tool is retracted at a specific pitch, the metal plate is carved out, and a heat-radiating fin is formed. A radiator that has high radiation efficiency and is highly safe during handling can be manufactured at low cost.

Abstract translation: 在制造散热器的方法中，以具有高导热系数的金属板的表面以特定的角度施加雕刻工具的刀片，在保持角度的同时使雕刻工具前进， 金属板被雕刻成垂直向上形成板状散热片。 制造散热器，其中通过重复以特定间距缩回雕刻工具的步骤，从单个金属板垂直向上以多个散热片一体地形成散热片，金属板被雕刻出来， 并形成散热片。 辐射效率高，处理时安全性高的散热器可以低成本制造。

公开(公告)号：US06571595B2

公开(公告)日：2003-06-03

申请号：US09907604

申请日：2001-07-18

Applicant: Hideyuki Miyahara

Inventor： Hideyuki Miyahara

IPC: B21D2802

CPC classification number: B21K23/00 ,  B23P15/00 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A package for receiving electronic parts is formed with decreased stress and stress concentration to obtain a desired warp and flatness. In particular, according to a cutting protruding part process, a package is accommodated to have a recessed part formed on one face of a metal plate by pressing the face of the metal plate so that a corresponding protruding part is formed bulging from an opposing face of the metal plate. The protruding part is cut by a cutting tool and a bottom which has a cavity shape and is thinner in size than the metal plate is formed at the recessed part. The protruding part is again formed bulging from the metal plate and cut by the cutting tool. The cutting direction is differed in alternately facing directions so that the stress from cutting is almost cancelled.

Abstract translation: 用于接收电子部件的包装形成为具有降低的应力和应力集中以获得期望的经向和平坦度。 特别地，根据切割突出部分处理，通过按压金属板的表面，容纳包装件以形成在金属板的一个表面上的凹部，使得相应的突出部分形成为从相对的表面 金属板。 突出部分被切割工具切割，并且在凹部处形成具有空腔形状并且尺寸小于金属板的底部。 突出部分再次从金属板形成并由切割工具切割。 切割方向在交替面对的方向上是不同的，使得来自切割的应力几乎被取消。

公开(公告)号：US07770633B2

公开(公告)日：2010-08-10

申请号：US11472500

申请日：2006-06-21

Applicant: Hideyuki Miyahara

Inventor： Hideyuki Miyahara

IPC: F28F3/14 ,  F28F17/00 ,  F24H9/02 ,  F24H3/00 ,  F28F1/20

CPC classification number: F28D15/0233 ,  F28D15/046

Abstract: A method for manufacturing a plate-type heat exchanger in which a heat medium is sealed in a hollow part of an airtight structure formed in the interior of a plate-like container, and the heat medium is moved by capillary force from a condensing part to an evaporating part in the hollow part along heat-medium-guiding grooves formed in the container's inside surface portions that face the hollow part; wherein a plastic workable metal plate of specific thermal conductivity is prepared; a carving tool is used to repeatedly carve out a surface portion of the metal plate at specific intervals along the surface portion, forming a plurality of plate-like fins; and a plurality of grooves formed between these fins is used as heat-medium-guiding grooves. A plate-type heat exchanger is obtained which comprises extremely small heat-medium-guiding grooves that have the necessary capillary force to move the heat medium from the condensing part to the evaporating part without affecting the set alignment or other such characteristics.

Abstract translation: 一种板状热交换器的制造方法，其中将热介质密封在形成在板状容器内部的气密结构的中空部分中，并且热介质通过毛细管力从冷凝部件移动到 沿着形成在容器的面向中空部的内表面部的热介质导向槽的中空部的蒸发部; 其中制备具有特定导热性的塑性可加工金属板; 雕刻工具用于沿着表面部分以特定间隔重复地雕刻金属板的表面部分，形成多个板状翅片; 并且在这些翅片之间形成的多个槽被用作热介质导槽。 获得了一种板式热交换器，其包括具有必要的毛细力的极小的热介质导槽，以将热介质从冷凝部件移动到蒸发部件，而不会影响设定的对准或其它这些特性。

公开(公告)号：US20080179972A1

公开(公告)日：2008-07-31

申请号：US12010168

申请日：2008-01-22

Applicant: Kazuo Aoki ,  Junji Tsuruoka ,  Seiji Yasui ,  Yasushi Kabata ,  Hideyuki Miyahara ,  Masaharu Kumagai

Inventor： Kazuo Aoki ,  Junji Tsuruoka ,  Seiji Yasui ,  Yasushi Kabata ,  Hideyuki Miyahara ,  Masaharu Kumagai

IPC: H02K9/00 ,  F28D15/00

CPC classification number: H05K7/20927 ,  H01L21/4878 ,  H01L23/473 ,  H01L2924/0002 ,  H02K5/20 ,  H02K9/19 ,  H02K11/33 ,  H01L2924/00

Abstract: A heat generating member cooling structure in which a coolant space is formed between a heat releasing surface that is thermally connected to a heat generating member and an opposing surface that is positioned opposite the heat releasing surface, includes a plurality of heat releasing fins that are provided within the coolant space so as to be parallel to one another and stand from the heat releasing surface toward the opposing surface, and an inter-fin passage, through which a coolant flows, formed between every two of the plurality of heat releasing fins that are positioned adjacent to each other.

Abstract translation: 一种发热元件冷却结构，其中在与热发生元件热连接的散热表面和与放热表面相对的相对表面之间形成冷却剂空间，包括多个散热片， 在冷却剂空间内彼此平行并且从散热表面朝向相对表面，并且在多个散热片中的每两个之间形成冷却剂流过的翅片间通道， 彼此相邻定位。

公开(公告)号：US07320177B2

公开(公告)日：2008-01-22

申请号：US11041512

申请日：2005-01-24

Applicant: Hideyuki Miyahara

Inventor： Hideyuki Miyahara

IPC: B21D53/02

CPC classification number: F28F3/04 ,  B21J5/12 ,  B23P2700/10 ,  H01L21/4878 ,  H01L23/3672 ,  H01L2924/0002 ,  Y10T29/4935 ,  H01L2924/00

Abstract: In a method of manufacturing a radiator, the blade of a carving tool is applied at a specific angle to the surface of a metal plate with a high coefficient of thermal conductivity, the carving tool is advanced while the angle is maintained, and the surface of the metal plate is carved out to form plate-shaped heat-radiating fins vertically upward. A radiator is manufactured in which a plurality of heat-radiating fins are integrally formed vertically upward at a specific pitch from a single metal plate by repeating a step in which the carving tool is retracted at a specific pitch, the metal plate is carved out, and a heat-radiating fin is formed. A radiator that has high radiation efficiency and is highly safe during handling can be manufactured at low cost.

Abstract translation: 在制造散热器的方法中，以具有高导热系数的金属板的表面以特定的角度施加雕刻工具的刀片，在保持角度的同时使雕刻工具前进， 金属板被雕刻成垂直向上形成板状散热片。 制造散热器，其中通过重复以特定间距缩回雕刻工具的步骤，从单个金属板垂直向上以多个散热片一体地形成散热片，金属板被雕刻出来， 并形成散热片。 辐射效率高，处理时安全性高的散热器可以低成本制造。