| 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 | 电子出射窗箔 | CN201180056906.X | 2011-11-09 | CN103229269A | 2013-07-31 | 本诺·齐格利戈; 卢卡·波皮; 拉斯-奥克·内斯隆德; 沃纳·哈格; 库尔特·霍尔姆; 安德斯·克里斯蒂安松 |
| 本发明提供了一种和在腐蚀环境中工作的高性能电子束发生器一起使用的电子出射窗箔。该电子出射窗箔包括夹层结构,该夹层结构具有Ti膜(202)、比Ti具有更高热导率的材料的第一层(204)和能够保护所述膜(202)避免被所述腐蚀环境破坏的材料的挠性第二层(206),其中该第二层(206)面向该腐蚀环境。 | ||||||
| 2 | 图象显示装置 | CN95107366.4 | 1995-06-09 | CN1133487A | 1996-10-16 | 佐藤安荣; 河手信一; 东尚史 |
| 一种图象显示装置,该装置包括在外壳内并列设置的载有磷光体的前面板和载有电子发射器件的后面板形成的显示板,所述的磷光体与所述的电子发射器件相撞而显示图象,所述装置还包括一个吹风装置使得空气在所述的显示板和外壳之间流动。 | ||||||
| 3 | 显像管和包含这一显像管的彩色电视投影设备 | CN87105454 | 1987-08-03 | CN1015765B | 1992-03-04 | 阿恩·莱·杜韦尔; 伯纳德斯·雅各布·布鲁格曼 |
| 本发明涉及的一种显像管是通过一液体驱动泵(10)所激励的冷却系统(12)由一半透明冷却液体的流动来冷却的。泵(10)由一驱动系统(11)驱动,该驱动系统在无源泵(10)的区域与冷却系统分开。 | ||||||
| 4 | 显像管和包含这一显像管的彩色电视投影设备 | CN87105454 | 1987-08-03 | CN87105454A | 1988-02-17 | 阿恩·莱·杜韦尔; 伯纳德斯·雅各布·布鲁格曼 |
| 本发明涉及的一种显像管是通过一液体驱动泵(10)所激励的冷却系统(12)由一半透明冷却液体的流动来冷却的。泵(10)由一驱动系统(11)驱动,该驱动系统在无源泵(10)的区域与冷却系统分开。 | ||||||
| 5 | 电子出射窗箔 | CN201610651631.9 | 2011-11-09 | CN106409637A | 2017-02-15 | 本诺·齐格利戈; 卢卡·波皮; 拉斯-奥克·内斯隆德; 沃纳·哈格; 库尔特·霍尔姆; 安德斯·克里斯蒂安松 |
| 本发明提供了一种和在腐蚀环境中工作的高性能电子束发生器一起使用的电子出射窗箔。该电子出射窗箔包括夹层结构,该夹层结构具有Ti膜(202)、比Ti具有更高热导率的材料的第一层(204)和能够保护所述膜(202)避免被所述腐蚀环境破坏的材料的挠性第二层(206),其中该第二层(206)面向该腐蚀环境。 | ||||||
| 6 | 电子出射窗箔 | CN201180056906.X | 2011-11-09 | CN103229269B | 2016-09-07 | 本诺·齐格利戈; 卢卡·波皮; 拉斯-奥克·内斯隆德; 沃纳·哈格; 库尔特·霍尔姆; 安德斯·克里斯蒂安松 |
| 本发明提供了一种和在腐蚀环境中工作的高性能电子束发生器一起使用的电子出射窗箔。该电子出射窗箔包括夹层结构,该夹层结构具有Ti膜(202)、比Ti具有更高热导率的材料的第一层(204)和能够保护所述膜(202)避免被所述腐蚀环境破坏的材料的挠性第二层(206),其中该第二层(206)面向该腐蚀环境。 | ||||||
| 7 | 显象管纯平玻屏的内面冷却系统 | CN03146031.3 | 2003-07-14 | CN1263065C | 2006-07-05 | 杨全谊; 周耿; 王宪玉 |
| 显象管纯平玻屏的内面冷却系统,属于工业生产流水线辅助设备领域,包括冷却风送风管道、冷却风分配箱、运送压制成玻璃的总传送带,冷却风分配箱下面对应玻屏支撑点位置处设置专门向下局部吹风的冷却风管;沿总传送带一旁设置有与其不相联动的剔除传送带,该剔除传送带由所设逻辑控制器控制,该逻辑控制器接受信号并传送给所连接的电磁阀,它启动和关闭冷却风,按设定时间在给定位置处,控制传送冷却风的强弱,对传送带上内面向上的玻屏进行强制冷却,该玻屏内面冷却系统有效地解决了销钉封接工序中,屏内面支撑点与屏侧面对温度要求的矛盾,既防止屏内面发生支点凹陷,又不导致销钉封接处的应力造成玻屏炸裂损伤。 | ||||||
| 8 | 把电视图象投影到屏幕上的装置 | CN87102258 | 1987-03-21 | CN87102258A | 1987-10-07 | 利恩德特·弗里恩斯; 格里特·贝伦德·格里特森 |
| 用装有透镜系统的三个电机显象管组件来投影电视图象的装置,三个电视显象管互相靠近设置,并包括一整体冷却系统。该整体冷却系统有一个液体环路,环路包括在电视显象管下面延伸的第一导管,该导管通过通道与流通空间的下端直接连通;还包括在电视显象管上面延伸的第二导管。第二导管通过通道与流通空间的上端直接连通。而第一和第二导管通过至少一个沿由三个电视显象构成的组件的外侧延伸的连接导管连接起来。 | ||||||
| 9 | 具有温度调节的平板显示装置 | CN200610135579.8 | 2006-10-18 | CN100585672C | 2010-01-27 | 李炳坤 |
| 一种平板显示装置,包括:电子发射基板;图像形成基板,与该电子发射基板分开;间隔物,设置在电子发射基板和图像形成基板之间;探测器,连接到电子发射基板上,用于探测平板显示装置的温度;温度控制件,用于接收该接收的温度值,并且用于控制基于接收到的温度值的电子发射基板的温度;和冷却器,用于冷却该平板显示装置到由该温度控制件控制的温度。 | ||||||
| 10 | 具有温度调节的平板显示装置 | CN200610135579.8 | 2006-10-18 | CN1952998A | 2007-04-25 | 李炳坤 |
| 一种平板显示装置,包括:电子发射基板;图像形成基板,与该电子发射基板分开;间隔物,设置在电子发射基板和图像形成基板之间;探测器,连接到电子发射基板上,用于探测平板显示装置的温度;温度控制件,用于接收该接收的温度值,并且用于控制基于接收到的温度值的电子发射基板的温度;和冷却器,用于冷却该平板显示装置到由该温度控制件控制的温度。 | ||||||
| 11 | 平板显示装置的散热片和包括它的平板显示装置 | CN200610004846.8 | 2006-01-16 | CN1809263A | 2006-07-26 | 孙俊熙; 郭镐哲; 裵胱培 |
| 提供一种平板显示装置的散热片和包括它的平板显示装置。该平板显示装置包括:显示板;形成在显示板背面上的框架;和包括金属混合物和粘合剂的散热片,其形成在显示板和框架之间。 | ||||||
| 12 | 显象管纯平玻屏的内面冷却系统 | CN03146031.3 | 2003-07-14 | CN1476035A | 2004-02-18 | 杨全谊; 周耿; 王宪玉 |
| 显象管纯平玻屏的内面冷却系统,属于工业生产流水线辅助设备领域,包括冷却风送风管道、冷却风分配箱、运送压制成玻璃的总传送带,冷却分配风箱下面对应玻屏支撑点位置处设置向下吹风的冷却风管;沿总传送带一旁设置有与其不相联动的剔除传送带,该剔除传送带由所设逻辑控制器,PLC接受信号并传送给所连接的电磁阀,它启动和关闭冷却风,按设定时间在给定位置处,控制传送冷却风的强弱,对传送带上内面向上的玻屏进行强制冷却,该玻屏内面冷却系统有效地解决了销钉封接工序中,屏内面支撑点与屏侧面对温度要求的矛盾,既防止屏内面发生支点凹陷,又不导致销钉封接处的应力造成玻屏炸裂损伤。 | ||||||
| 13 | 图象显示装置 | CN95107366.4 | 1995-06-09 | CN1102797C | 2003-03-05 | 佐藤安荣; 河手信一; 东尚史 |
| 一种图象显示装置,该装置包括在外壳内并列设置的载有荧光体的前面板和载有电子发射器件的后面板形成的显示板,所述的荧光体与所述的电子发射器件相撞而显示图象,所述装置还包括一个吹风装置使得空气在所述的显示板和外壳之间流动。 | ||||||
| 14 | 把电视图象投影到屏幕上的装置 | CN87102258 | 1987-03-21 | CN1009609B | 1990-09-12 | 利恩德特·弗里恩斯; 格里特·贝伦德·格里特森 |
| 用装有透镜系统的三个电视显象管组件来投影电视图象的装置,三个电视显象管互相靠近设置,并包括一整体冷却系统。该整体冷却系统有一个液体环路,环路包括在电视显象管下面延伸的第一导管,该导管通过通道与流通空间的下端直接连通,还包括在电视显象管上面延伸的第二管道,第二导管通过通道与流通空间的上端直接连通,而第一和第二导管通过至少一个沿由三个电视显象构成的组件的外侧延伸的连接导管连接起来。 | ||||||
| 15 | CATHODE RAY TUBE HAVING A DEFLECTION UNIT PROVIDED WITH A FAN | PCT/IB9901193 | 1999-06-24 | WO0005743A3 | 2000-04-27 | JANSEN MARTINUS H E; VINKENVLEUGEL LUCIUS T; BEIRENS LEOPOLD C M |
| A deflection unit of a cathode ray tube is provided with a fan. Said fan comprises means for reducing the disturbing effect of the electric field generated by the fan on the deflection of the electrons, or the fan is arranged in such a manner that the disturbing effect is small. | ||||||
| 16 | Air cooling for flat panel displays | US820352 | 1997-03-12 | US5869919A | 1999-02-09 | Yasue Sato; Shinichi Kawate; Hisanobu Azuma |
| An image display apparatus includes a display panel formed by arranging in juxtaposition a face plate carrying thereon a phosphor and a rear plate carrying thereon electron-emitting devices within a housing. The phosphor is so arranged as to be irradiated with electrons emitted from the electron-emitting devices to display images. The image display apparatus further includes an air blower for causing air to flow between the display panel and the housing. | ||||||
| 17 | Liquid cooling type projection cathode ray tube | US405117 | 1995-03-16 | US5521459A | 1996-05-28 | Sang-muk Kim |
| A projection cathode ray tube has a liquid coolant coupling apparatus whose structure is improved. The projection cathode ray tube includes a funnel having an electron gun in its neck end and a face plate provided with a screen at the other end, a rectangular radiating plate having a frontal glass corresponding to the face plate having the screen inside thereon, and being firmly attached to the face plate, a liquid coolant layer having a predetermined thickness between the face plate and the frontal glass of the radiating plate, a clamping portion coupled by means of a bolt at each corner of the rectangular radiating plate, and a setting clasp having a contacting surface of a predetermined size in contact with the side of the funnel and a spring both provided over each bolt, whereby the setting clasp settles the funnel while pressing. | ||||||
| 18 | Focus magnet for a projection type cathode-ray tube | US813114 | 1991-12-23 | US5227752A | 1993-07-13 | Sung-U Ham |
| The present invention relates to a focus magnet for a projection type cathode-ray tube where a non-magnetic heat insulating member is disposed between a magnet having a penetrating hole formed therein and a coil wound within the magnet, whereby it can minimize a variation of focusing characteristics of an electron beam due to the heat generated in operation of the projection type cathode-ray tube, and improve a degree of roundness of a coil wound within the magnet. | ||||||
| 19 | Liquid-cooled projection television display tube with expansion vessel | US835406 | 1986-03-03 | US4933593A | 1990-06-12 | Gerrit B. Gerritsen; Bernardus G. J. Weijers |
| A projection television display tube comprising an evacuated envelope (1) having a display window (4) which on its inside has a display screen (5) and in front of which on its outside a transparent second window (6) is provided, a cooling liquid (16) flowing through a space (7) between the display window and the second window from at least one inlet aperture (19) to at least one outlet aperture (17), said space communicating with an expansion vessel. The expansion vessel in the operating condition of the tube is present on the top side of the space and is a gas-filled rigid chamber (20), providing effective compensation for the thermal expansion of the cooling liquid (16) without the flow of cooling liquid being obstructed. | ||||||
| 20 | Projection television display tube with cooling means and display device having such a display tube | US298378 | 1989-01-18 | US4899080A | 1990-02-06 | Leendert Vriens; Gerrit B. Gerritsen; Willem M. Van Alphen |
| Projection television display tubes having an evacuated envelope (1) with a display window (4) which on its inside comprises a display screen (5) and in front of which a light permeable second window (6) is provided on its outside, a cooling liquid (16) flowing through the space (7) between the display window (4) and the second window (6) from at least one inlet aperture to at least one outlet aperture (17) namely by temperature differences in said cooling liquid. When in such a projection television display tube at the area of the windows (4, 6) and around the said space (7) a cooling jacket (8) is provided which comprises at least one duct (9) which transports the cooling liquid (6) from the outlet aperture(s) to the inlet aperture(s) of the said space, an effective cooling is obtained at a power between 12 and 25-30 W without external pipes or a heat exchanger. As a result of the circulation of the cooling liquid around the tube end at the area of the windows there is a good temperature compensation so that fewer stresses occur in the glass of the display tube. | ||||||
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