公开(公告)号：US07414356B2

公开(公告)日：2008-08-19

申请号：US10755528

申请日：2004-01-12

Applicant: Yoji Yamamoto ,  Mika Yamagishi ,  Satoru Nakagawa

Inventor： Yoji Yamamoto ,  Mika Yamagishi ,  Satoru Nakagawa

IPC: H01J1/24 ,  H01J19/18 ,  H01J19/10 ,  H01J19/48

CPC classification number: H01J1/22 ,  H01J1/24 ,  H01J29/04

Abstract: A cathode structure comprises a heater including a columnar ceramic body and a heating wire that is partially buried in the ceramic body, and a cathode unit disposed at a first end surface of the ceramic body. The heating wire leads out from a second end surface of the ceramic body.

Abstract translation: 阴极结构包括：加热器，其包括柱状陶瓷体和部分地埋在陶瓷体中的加热线，以及阴极单元，设置在陶瓷体的第一端面。 加热线从陶瓷体的第二端面引出。

公开(公告)号：US06992427B2

公开(公告)日：2006-01-31

申请号：US10321890

申请日：2002-12-17

Applicant: Mika Yamagishi ,  Satoru Nakagawa ,  Yoji Yamamoto

Inventor： Mika Yamagishi ,  Satoru Nakagawa ,  Yoji Yamamoto

IPC: H01J1/20

CPC classification number: H01J1/20 ,  H01J9/04

Abstract: A cathode sleeve structure for housing a heater. The cathode sleeve structure includes: a case member that is cylindrical and an end thereof is open; a plurality of supporting members that extend radially from vicinities of the end of the case member; and a linkage member that connects the plurality of supporting members. The case member, the plurality of supporting members, and the linkage member are formed as one piece.

Abstract translation: 一种用于容纳加热器的阴极套管结构。 阴极套筒结构包括：壳体，其是圆柱形的并且其端部是开放的; 多个支撑构件，其从所述壳体构件的端部的附近径向延伸; 以及连接所述多个支撑构件的连杆构件。 壳体构件，多个支撑构件和连杆构件形成为一体。

公开(公告)号：US06828717B2

公开(公告)日：2004-12-07

申请号：US10277433

申请日：2002-10-22

Applicant: Yoji Yamamoto ,  Satoru Nakagawa ,  Mika Yamagishi

Inventor： Yoji Yamamoto ,  Satoru Nakagawa ,  Mika Yamagishi

IPC: H01J2948

CPC classification number: H01J1/20 ,  H01J29/04

Abstract: The present invention provides an electron gun which includes an electrically non-conductive substrate through which a perforation is provided. The electron gun is characterized in that a cathode-structure supporting member is welded to power-feeding members that are bonded to a stem side of the electrically non-conductive substrate, the cathode-structure supporting member supplying power to a heater included in a cathode structure. Structured as such, it becomes possible to reduce the size of the electron gun in the tube-axis direction, since an additional member for supporting the heater becomes unnecessary. In addition, the cathode-structure supporting member makes the electrically non-conductive substrate to work as a wiring board for supplying voltage to the cathode, thereby realizing a slim cathode-ray tube. Further, the above structure improves accuracy in the assembly process of the electron gun, thereby improving the yield factor.

Abstract translation: 本发明提供一种电子枪，其包括非导电基底，通过该基底提供穿孔。 电子枪的特征在于，将阴极结构支撑构件焊接到与非导电基板的杆侧接合的供电构件，阴极结构支撑构件向包括在阴极中的加热器供电 结构体。 因此，由于不需要用于支撑加热器的附加构件，因此可以减小电子枪在管轴方向上的尺寸。 此外，阴极结构支撑构件使得非导电基板作为用于向阴极供电的布线板工作，从而实现了细长的阴极射线管。 此外，上述结构提高了电子枪的组装过程的精度，从而提高了屈服系数。

公开(公告)号：US06882093B2

公开(公告)日：2005-04-19

申请号：US10208320

申请日：2002-07-30

Applicant: Mika Yamagishi

Inventor： Mika Yamagishi

IPC: H01J1/14 ,  H01J1/20 ,  H01J9/04

CPC classification number: H01J9/04 ,  H01J1/20

Abstract: An electron tube cathode includes an emitter layer 30 whose main component is barium oxide and that includes a metal and/or a metal oxide as a dopant is formed on a base metal 20 whose main component is nickel and that includes a reducing agent such as magnesium. A mole ratio of the magnesium, barium, and the dopant is expressed as Y:1000:X. When the X and Y values in are expressed as XY coordinates, the value of X and the value of Y are within a range defined by straight lines connecting points (0.7, (0.8, 15), (3, 130), (3, 30), (2.5, 10), (2, 0.1), and 0.1).

Abstract translation: 电子管阴极包括其主要成分是氧化钡并且包括金属和/或作为掺杂剂的金属氧化物的发射极层30，其主要成分为镍，并且包括还原剂如镁 。 镁，钡和掺杂剂的摩尔比表示为Y：1000：X。 当X和Y值表示为XY坐标时，X的值和Y的值在由连接点（0.7，（0.8，15），（3,130），（3， 30），（2.5,10），（2,0.1）和0.1）。

公开(公告)号：US20060145586A1

公开(公告)日：2006-07-06

申请号：US10546562

申请日：2004-03-15

Applicant: Mika Yamagishi

Inventor： Mika Yamagishi

IPC: H01J1/20

CPC classification number: H01J29/04 ,  H01J1/14 ,  H01J1/20

Abstract: An indirectly heated cathode includes a cathode sleeve (2) housing a heater (1), a caplike base (3) attached onto the cathode sleeve (2), and an electron emitter layer (4) formed on a surface of the base (3). The cathode sleeve (2) is made of a metal material that contains nickel and chromium as main components and further contains at least silicon, aluminum, cerium, and lanthanum. According to this construction, the cathode sleeve (2) is kept from heat deformation. Hence a reliable indirectly heated cathode which suppresses variations in cutoff voltage can be realized.

Abstract translation: 间接加热的阴极包括容纳加热器（1）的阴极套管（2），附接到阴极套筒（2）上的帽状基部（3）和形成在基底（3）的表面上的电子发射体层 ）。 阴极套筒（2）由含有镍和铬作为主要成分的金属材料制成，并且至少包含硅，铝，铈和镧。 根据该结构，阴极套筒（2）不受热变形。 因此，可以实现抑制截止电压变化的可靠的间接加热的阴极。

公开(公告)号：US07382086B2

公开(公告)日：2008-06-03

申请号：US10546562

申请日：2004-03-15

Applicant: Mika Yamagishi

Inventor： Mika Yamagishi

IPC: H01J1/24

CPC classification number: H01J29/04 ,  H01J1/14 ,  H01J1/20

Abstract: An indirectly heated cathode includes a cathode sleeve (2) housing a heater (1), a caplike base (3) attached onto the cathode sleeve (2), and an electron emitter layer (4) formed on a surface of the base (3). The cathode sleeve (2) is made of a metal material that contains nickel and chromium as main components and further contains at least silicon, aluminum, cerium, and lanthanum. According to this construction, the cathode sleeve (2) is kept from heat deformation. Hence a reliable indirectly heated cathode which suppresses variations in cutoff voltage can be realized.

Abstract translation: 间接加热的阴极包括容纳加热器（1）的阴极套管（2），附接到阴极套筒（2）上的帽状基部（3）和形成在基底（3）的表面上的电子发射体层 ）。 阴极套筒（2）由含有镍和铬作为主要成分的金属材料制成，并且至少包含硅，铝，铈和镧。 根据该结构，阴极套筒（2）不受热变形。 因此，可以实现抑制截止电压变化的可靠的间接加热的阴极。

公开(公告)号：US06492765B1

公开(公告)日：2002-12-10

申请号：US09830444

申请日：2001-04-25

Applicant: Mika Yamagishi

Inventor： Mika Yamagishi

IPC: H01J120

CPC classification number: H01J1/20 ,  H01J2201/193

Abstract: In a cathode with an electron-emissive material layer formed on a base containing a reducing element, a relationship of 0.24≦B/A≦0.93 is satisfied, where A denotes a surface for layer formation of the base and B represents an area where the base and the electron-emissive material layer are in contact with each other. In addition, a relationship of 0.4≦D/C≦0.7 is satisfied, where C and D denote thicknesses of the base and the electron-emissive material layer, respectively. Thus, a cathode structure is provided in which sufficient electron emission can be obtained, a decrease in electron emission with the passage of time is not much during the operation, and variations in cut-off voltage are small.

Abstract translation: 在具有形成在含有还原元素的基底上的电子发射材料层的阴极中，满足0.24 <= B / A <= 0.93的关系，其中A表示用于基底的层形成的表面，B表示面积 其中基底和电子发射材料层彼此接触。 此外，满足0.4 <= D / C <= 0.7的关系，其中C和D分别表示基底和电子发射材料层的厚度。 因此，提供了可以获得足够的电子发射的阴极结构，在操作期间电子发射随时间的减少不太多，并且截止电压的变化小。