4 6 81 94 經濟部智慧財產局員工消費合作社印製 A7 B7 五、發明說明(1) 發明背景 發明領域 本發明係關於一種偏向轭,其適合使用於一薄頸陰極 射線管,該陰極射線管具有大或寬偏向角之特性,和使用 該偏向軛之陰極射線管裝置和顯示裝置,特別的,係關於 抵抗因由偏向軛發出之不必要磁場輻射之磁場漏之對策。 現今亟需將產生在陰極射線管裝置周綠之不必要磁場 輻射降低至一固定値。特別的,以在小於4 Ο Ο Κ Η Z之 低頻帶中之不必要輻射而言,已存在一引導基準,稱爲 TCO(The Swedish Confederation Employees )。此一引導基 準決定當由顯示裝置之周邊5 0 cm之點量測和在由陰極 射線管裝置之管表面3 0 cm之距離量測時,由5H z至 2KHz之ELMF (極低頻磁場)必須等於或低於 2〇〇nT 和由 2KHz 至 400KHz 之 VLMF (非 常低頻磁場)必須等於或低於2 5 η T。 由於產生E LMF和VLMF之主要源爲偏向軛,已 提出各種對策以產生在相反極性之磁場以抵銷不必要之磁 場輻射,藉以達成降低不必要之磁場輻射,以使其等於或 低於標準値。其中一代表例爲日本專利第平3 _ 289029 (1991)號案,其中揭示不必要磁場輻 射之降低裝置。在此裝置中,抵消線圈分別連接至水平偏 向線圈和垂直偏向線圈,其中新產生一磁場以抵消分別由 水平和垂直偏向線圏所產生之不必要磁場輻射,藉以降低 不必要之磁場輻射。 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) ~7~_ -----------〈,裝--------訂---------線Ίϋ- (請先閲讀背面之注意事項再填寫本頁) 4 819 4 A? _____B7______ 五、發明說明(2 ) (請先閱讀背面之注意事項再填寫本頁) 再者,日本專利第平3—165427(1991) 號案揭示藉由設計或管理偏向軛之線圈之尺寸而未使用抵 銷線圈以降低不必要磁場輻射。 發明槪要 但是,依照日本專利第平3—289029 ( 1 9 9 1 )號案,當降低不必要磁場輻射時,偏向轭之重 要特性受到極顯著的破壞,如水平偏向靈敏度和垂直偏向 靈敏度。再者,關於抵銷線圏方面,偏向軛在外部形狀之 尺寸和重量會增加,因此,不只會使偏向軛之製造成本上 升,且亦會破壞和造成陰極射線管之製造難以超過在陰極 射線管之頸部份之機械強度之限制。 同時,依照如日本專利第平3 — 1 6 5 4 2 7 ( 1 9 9 1 )號案揭示之習知技藝,已揭示一成形的計劃, 即,一磁性蕊心形成在軸向上,且其長度爲介於構成水平 偏向線圈之橋接部份之前和後端間之距離之4 0 %至 6 0 %,藉以抑制在偏向軛之特性中之破壞。 經濟部智慧財產局員工消費合作社印製 但是,對於現今需要一陰極射線管和/或陰極射線管 裝置呈現有寬顯示螢幕且薄厚度以及低電能耗損而言,上 述之習知技藝卻未考量陰極射線管之頸部直徑,亦未考量 磁性蕊心之形狀,其需用以達成降低不必要磁場輻射之目 的,同時滿足陰極射線管之基本偏向特性。亦即,由電子 槍所發出之陰極射線到達磷螢幕,而後由以偏向軛形成之 磁場偏向。在此例中,由偏向軛偏向之磁場必須強化以擴 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -5- 4 6 81 9 4 A7 B7 經濟部智慧財產局員工消費合作社印製 五、發明說明(3 ) 大偏向角,但是,此種結果不但會導致由偏向軛之能量耗 損之增加,且亦會增加偏向軛之形狀和尺寸以及其製造成 本。 爲了解決上述習知技藝之問題,藉由使偏向軛所接附 之陰極射線管之頸部變薄,可以寬角度小磁場密度偏向陰 極射線,另一方面,頸部愈薄,機械強度愈降低,如此亦 會形成一嚴重之問題。因此,必須減輕磁性蕊心之重量, 其占據約接附至頸部之偏向軛之重量之5 0 %,以設計偏 向軛之尺寸,以改善其特性並防止該特性受到破壞。 爲了解決上述之問題,依照本發明之一目的乃在提供 一種偏向軛,其可應用至顯示有寬偏向角特性之薄頸部陰 極射線管,和使用該偏向軛之陰極射線管,以及一顯示裝 置。 爲了達成上述之目的,依照本發明,於此提供一種偏 向軛,其接附於一陰極射線管以於其中使用,包含: 一水平線圏; —垂直線圏;和 一磁性蕊心,其中該磁性蕊心在水平方向相對於垂直 方向之厚度比例約等於1或更小,或較佳的該磁性蕊心之 厚度比例約等於1且等於或大於0 . 7,和該偏向軛進一 步包含= 一接附部份,用以接附至陰極射線管之頸部,其直徑 等於或大於0 1 8 mm且等於或小於必2 6mm,較佳的 ,陰極射線管之頸部直徑等於或大於0 2 2 mm且等於或 (請先閱讀背面之注意事項再填寫本頁) '裝 n I I I I till — 緣、 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -6- A7 46 81 94 ___B7____ 五、發明說明(4 ) 小於0 2 6 m m,最佳的,陰極射線管之頸部直徑等於或 大於0 2 4mm且等於或小於0 2 5mm。 (請先閱讀背面之注意事項再填寫本頁} 再者,依照本發明,於此提供如上述所界定之偏向軛 ’其中陰極射線管之偏向角超過9 0 °且等於或小於 115° ,較佳的,偏向角等於或大於9 5 °且等於或小 於110° ,且最佳的,偏向角等於或大於97°且等於 或小於1 0 5 ° 。 再者,依照本發明,於此提供如上述所界定之偏向軛 ,其中該偏向軛在軸向中之水平偏向線圈之尺寸等於或大 於8 0mm且等於或小於1 0 0mm,垂直偏向線圈之尺 寸等於或大於5 0 m m且等於或小於7 0 m m,和該磁性 蕊心之尺寸等於或大於3 0 mm且等於或小於5 〇mm。 再者,較佳的,該偏向軛在軸向中之水平偏向線圏之 尺寸等於或大於9 〇mm且等於或小於9 5 mm,垂直偏 向線圏之尺寸等於或大於6 0mm且等於或小於6 5 mm ,和該磁性蕊心之尺寸等於或大於4 0 m m且等於或小於 4 5 m m 〇 經濟部智慧財產局員工消費合作社印製 再者,依照本發明,於此提供如上述所界定之偏向軛 ,其中該磁性蕊心乃設置以使介於水平偏向線圈和磁性蕊 心之開口側端間之距離大於介於水平偏向線圏之頸側端和 磁性蕊心之頸側端間之距離,且特別的,此距離等於或大 於 1 5 m m。 再者,依照本發明,於此提供如上述所界定之偏向軛 ,其中該磁性蕊心乃設置以使介於垂直偏向線圏和磁性蕊 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐〉 4 6 81 94 A7 B7 五、發明說明(5 ) . & &開口側端間之距離大於介於垂直偏向線圈之頸側端和 磁性蕊心之頸側端間之距離,且特別的,此距離等於或大 於 5 m m。 再者,依照本發明,於此提供一種陰極射線管,包含 一陰極射線管; 一偏向軛; 一電子槍,其中陰極射線管之頸部直徑等於或大於 0 18 m m 且 等 於 或 小 於 0 2 6 r η m > 或 較 佳 的 1 等 於 或 大 於0 2 2 m m 且 等 於 或 小 於 0 ί Z 6 m m > 或 最 佳 的 等 於 或大 於 0 2 4 m m 且 等 於 或 小於0 2 5 m m ϊ 且 偏 向 角 超 過9 0 ύ 且 等 於 或 小 於 1 1 5 ° , 或 較 佳 的 , 等 於 或 大 於 9 5 〇 且 等 於 或 小 於 1 1 0 〇 ,且 最 佳 的 9 等 於 或 大 於 97°且等於或小於1〇5° ,且其中該偏向軛包含: —水平線圈, 一垂直線圈;和 一磁性蕊心,其中該磁性蕊心在水平方向相對於垂直 方向之厚度比例約等於1或更小,或較佳的,該磁性蕊心 之厚度比例約等於1且等於或大於0 . 7 = 再者,依照本發明,於此提供一種顯示裝置,其具有 一陰極射線管裝置,其中一偏向軛和一電子槍接附在陰極 射線管上,其中: 陰極射線管之頸部直徑等於或大於0 1 8 m m且等於 或小於0 2 6mm,且偏向角超過9 0°且等於或小於 本紙張尺度適用中國國家標準(CNS)A4規格(210x 297公釐) _8_ (請先閱讀背面之注意事項再填寫本頁) ,裝--------訂---------線、 Μ 經濟部智慧財產局員工消費合作社印製 經濟部智慧財產局員工消費合作社印製 46 81 94 ΚΙ ___Β7__ 五、發明說明(6 ) 115°: 該偏向軛包含: 一水平線圈; 一垂直線圈;和 一磁性蕊心,其中該磁性蕊心在水平方向相對於垂直 方向之厚度比例約等於1或更小,和該顯示裝置進一步包 含: 一偏向電路和一高壓電路以驅動該陰極射線管;和 一視頻電路用以訊號處理一外部訊號。 圖式簡軍說明 由下述之說明伴隨附圖之解說可更加明瞭本發明之上 述和其它特性,目的和優點,其中: 圖1爲依照本發明之磁性蕊心之橫截面之說明圖; 圖2爲依照本發明之受接附以偏_向軛之陰極射線管之 說明圖; 圖3爲依照本發明之實施例之偏向軛中|介於陰極射 線管之頸部直徑和解析度特性,以及電能耗損間之關係圖 7 圖4爲依照本發明之實施例之偏向軛之外部形狀和尺 寸之說明圖,特別的,在管軸方向; 圖5爲依照本發明之實施.例之介於水平偏向線圏之尺 - ......... . . .〜 寸和水平偏向靈敏度間之關係圖; 圖6爲在依照本發明之實施例之水平偏向線圈中,介 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -9- —-----------.X裝-!—訂--------- - · - ·- ··. , ...V (請先閱讀背面之注意事項再填寫本頁) 經濟部智慧財產局員工消費合作社印製 46 81 9 4 A7 __B7___ 五、發明說明(7 ) 於在尺寸和在電子束衝擊頸部遮蔽中之改變量間之關係圖 » 圖7爲在依照本發明之實施例中,介於水平偏向線圏 之外部尺寸和到達磷螢幕之電子束之直徑間之關係圖; 圖8爲在依照本發明之實施例中,介於水平偏向線圈 之外部尺寸和容許溫度間之關係圖; 圖9爲在依照本發明之另一實施例中,介於界定在水 平偏向線圏之開口端側和磁性蕊心之開口端側間之距離和 非常低頻磁場之強度間之關係圖; 圖1 0爲在管軸方向,依照本發明之另一實施例之偏 向軛之尺寸和外部形狀之說明圖; 圖1 1爲在依照本發明之另一實施例中,介於界定在 垂直偏向線圏之開口端側和磁性蕊心之開口端側間之距離 和非常低頻磁場之強度間之關係圖; 圖1 2爲在管軸方向,依照本發明之另一實施例之偏 向軛之尺寸和外部形狀之說明圖; 圖1 3爲安裝有依照本發明之偏向軛之陰極射線管裝 置之側視圖;和 圖1 4爲安裝有具有依照本發明之偏向軛之陰極射線 管之顯示裝置之構造圖。 主要元件對照表 4 :磁性蕊心 1 ‘·偏向軛 !! 裝! —訂 — > ....I (請先閱讀背面之注意事項再填寫本頁) ---- 本紙張尺度適用中國國家標準(CNS)A4規格(210« 297公釐) -10- 16 81 94 A7 B7 五、發明説明( 8 7 : 8 : 9 ' 10 11 12 14 17 2 0 2 1 2 2 水平偏向線圈 垂直偏向線圈 分離器 磁性體 輔助垂直線圈 終端蓋 電子槍 :靜收斂磁鐵 :陰極射線管 :磷螢幕 ,1 5,1 6 :視頻電路 :水平偏向電路 :垂直偏向電路 :高壓電路 :接附部份 :固緊帶 輸入端 經濟部智慧財產局員工消費合作社印製 較佳實施例之詳細說明 以下參考附圖詳細說明本發明之實施例。 參考圖1,其中顯示依照本發明之磁性蕊心4之橫截 面圖,以水平偏向線圈2和垂直偏向線圈3構成之偏向軛 1接附至一陰極射線管,該陰極射線管之頸部直徑由 0l8mm至026mm ,且偏向角由90。至1 1 5。 本紙張尺度逋用中國國家標準(C^IS ) A4規格(210X297公釐} 11 - (請先間讀背面之注意事項再填寫本頁)4 6 81 94 Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 B7 V. Description of the invention (1) Background of the invention The present invention relates to a deflection yoke, which is suitable for use in a thin-neck cathode ray tube. The cathode ray tube It has characteristics of large or wide deflection angle, and a cathode ray tube device and a display device using the deflection yoke, and in particular, it is a countermeasure against magnetic field leakage caused by unnecessary magnetic field radiation from the deflection yoke. There is an urgent need to reduce the unnecessary magnetic field radiation generated around the cathode ray tube device to a fixed chirp. In particular, in terms of unnecessary radiation in a low frequency band of less than 4 〇 Κ Η Z, there is already a guidance benchmark called TCO (The Swedish Confederation Employees). This guideline determines that when measuring from a point of 50 cm around the display device and from a distance of 30 cm from the tube surface of the cathode ray tube device, ELMF (ultra-low frequency magnetic field) from 5 Hz to 2 KHz must be VLMF (very low frequency magnetic field) equal to or lower than 2000nT and from 2KHz to 400KHz must be equal to or lower than 2 5 η T. Since the main source of E LMF and VLMF is biased yoke, various countermeasures have been proposed to generate a magnetic field of opposite polarity to offset unnecessary magnetic field radiation, thereby reducing unnecessary magnetic field radiation to make it equal to or lower than the standard value. One representative example is Japanese Patent No. 3_289029 (1991), which discloses a reducing device for unnecessary magnetic field radiation. In this device, the cancellation coil is connected to the horizontal deflection coil and the vertical deflection coil, respectively. A magnetic field is newly generated to cancel the unnecessary magnetic field radiation generated by the horizontal and vertical deflection lines respectively, thereby reducing unnecessary magnetic field radiation. This paper size applies to China National Standard (CNS) A4 specification (210 X 297 mm) ~ 7 ~ _ ----------- <, installed -------- order ---- ----- Line Ίϋ- (Please read the notes on the back before filling this page) 4 819 4 A? _____B7______ V. Description of the invention (2) (Please read the notes on the back before filling this page) Japanese Patent No. Hei 3-165427 (1991) discloses that the size of the coil biased to the yoke is designed or managed without using an offset coil to reduce unnecessary magnetic field radiation. Summary of the Invention However, according to Japanese Patent No. Hei 3-289029 (199.1), when the unnecessary magnetic field radiation is reduced, important characteristics of the bias yoke are significantly damaged, such as horizontal bias sensitivity and vertical bias sensitivity. In addition, as for the offset line, the size and weight of the bias yoke in the external shape will increase. Therefore, it will not only increase the manufacturing cost of the bias yoke, but also damage and cause the manufacture of the cathode ray tube to be difficult to exceed that in the cathode ray. Limitation of the mechanical strength of the neck of the tube. At the same time, according to a conventional technique such as disclosed in Japanese Patent No. Hei. 3-16 5 4 2 7 (19 9 1), a plan for forming has been disclosed, that is, a magnetic core is formed in the axial direction, and its core The length is 40% to 60% of the distance between the front end and the rear end of the bridge part constituting the horizontal deflection coil, so as to suppress the damage in the characteristics of the deflection yoke. Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs. However, for the current need for a cathode ray tube and / or cathode ray tube device with a wide display screen, a thin thickness, and low power consumption losses, the above-mentioned conventional technology does not consider the cathode The neck diameter of the ray tube does not take into account the shape of the magnetic core, which needs to be used to achieve the purpose of reducing unnecessary magnetic field radiation, while satisfying the basic deflection characteristics of the cathode ray tube. That is, the cathode ray emitted by the electron gun reaches the phosphor screen, and is then deflected by a magnetic field formed by a deflection yoke. In this example, the magnetic field deflected by the deflection yoke must be strengthened to expand the paper size to apply the Chinese National Standard (CNS) A4 (210 X 297 mm) -5- 4 6 81 9 4 A7 B7 employees of the Intellectual Property Bureau of the Ministry of Economic Affairs Printed by the Consumer Cooperative V. Invention Description (3) Large deflection angle, but this result will not only increase the energy loss from the deflection yoke, but also increase the shape and size of the deflection yoke and its manufacturing cost. In order to solve the problems of the above-mentioned conventional techniques, by thinning the neck of the cathode ray tube attached to the yoke, the wide-angle and small magnetic field density can be biased toward the cathode ray. On the other hand, the thinner the neck, the lower the mechanical strength. This will also cause a serious problem. Therefore, it is necessary to reduce the weight of the magnetic core, which occupies about 50% of the weight of the biased yoke attached to the neck, in order to design the size of the biased yoke to improve its characteristics and prevent the characteristics from being damaged. In order to solve the above problems, it is an object of the present invention to provide a deflection yoke which can be applied to a thin neck cathode ray tube showing a wide deflection angle characteristic, a cathode ray tube using the deflection yoke, and a display. Device. In order to achieve the above object, according to the present invention, there is provided a biasing yoke attached to a cathode ray tube for use therein, including: a horizontal line 圏;-a vertical line 圏; and a magnetic core, wherein the magnetic The thickness ratio of the core core in the horizontal direction to the vertical direction is about 1 or less, or preferably the magnetic core core thickness ratio is about 1 and equal to or greater than 0.7, and the deflection yoke further includes = one connection Attachment for attaching to the neck of the cathode ray tube, the diameter of which is equal to or greater than 0 1 8 mm and equal to or less than 26 mm, preferably, the diameter of the neck of the cathode ray tube is equal to or greater than 0 2 2 mm and equal to or (please read the notes on the back before filling this page) 'Installation n IIII till — margin, this paper size applies Chinese National Standard (CNS) A4 specification (210 X 297 mm) -6- A7 46 81 94 ___B7____ 5. Description of the invention (4) Less than 0 2 6 mm, and most preferably, the neck diameter of the cathode ray tube is equal to or greater than 0 2 4 mm and equal to or less than 0 2 5 mm. (Please read the notes on the back before filling this page} Furthermore, according to the present invention, here is provided a deflection yoke as defined above, wherein the deflection angle of the cathode ray tube exceeds 90 ° and is equal to or less than 115 °, more than Preferably, the deflection angle is equal to or greater than 9 5 ° and equal to or less than 110 °, and most preferably, the deflection angle is equal to or greater than 97 ° and equal to or less than 105 °. Furthermore, according to the present invention, here are provided as The deflection yoke defined above, wherein the horizontal deflection coil in the axial direction of the deflection yoke has a size equal to or greater than 80 mm and equal to or less than 100 mm, and the size of the vertical deflection coil is equal to or greater than 50 mm and equal to or less than 7 0 mm, and the size of the magnetic core is equal to or greater than 30 mm and equal to or less than 50 mm. Furthermore, preferably, the dimension of the horizontal deflection line 圏 of the deflection yoke in the axial direction is equal to or greater than 9 mm. mm and equal to or less than 9 5 mm, the size of the vertical deflection line 等于 is equal to or greater than 60 mm and equal to or less than 65 mm, and the size of the magnetic core is equal to or greater than 40 mm and equal to or less than 4 5 mm. Of Intellectual Property Bureau Furthermore, according to the present invention, a bias yoke as defined above is provided, wherein the magnetic core is arranged so that the distance between the horizontal bias coil and the open side end of the magnetic core is greater than between The distance between the neck-side end of the horizontal deflection line 和 and the neck-side end of the magnetic core, and in particular, this distance is equal to or greater than 15 mm. Furthermore, according to the present invention, a deflection yoke as defined above is provided herein. , Where the magnetic core is set so that the paper size between the vertical deflection line and the magnetic core applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm> 4 6 81 94 A7 B7 V. Description of the invention (5 ). & & The distance between the open side ends is greater than the distance between the neck side end of the vertical deflection coil and the neck side end of the magnetic core, and in particular, this distance is equal to or greater than 5 mm. Furthermore, according to According to the present invention, there is provided a cathode ray tube including a cathode ray tube; a deflection yoke; and an electron gun, wherein the neck diameter of the cathode ray tube is equal to or greater than 0 18 mm and equal to or less than 0 2 6 r η m > Or better 1 equal to or greater than 0 2 2 mm and equal to or less than 0 ί Z 6 mm > or best equal to or greater than 0 2 4 mm and equal to or less than 0 2 5 mm ϊ and the deflection angle exceeds 9 0 ύ and equal to or less than 1 1 5 °, or better, equal to or greater than 9 5 0 and equal to or less than 1 1 0 0, and the best 9 is equal to or greater than 97 ° and equal to or less than 105 °, and wherein the biased yoke contains :-A horizontal coil, a vertical coil; and a magnetic core, wherein the thickness ratio of the magnetic core in the horizontal direction to the vertical direction is equal to about 1 or less, or preferably, the thickness ratio of the magnetic core is about Equal to 1 and equal to or greater than 0.7 = Furthermore, according to the present invention, there is provided a display device having a cathode ray tube device, wherein a deflection yoke and an electron gun are attached to the cathode ray tube, wherein: the cathode The diameter of the neck of the tube is equal to or greater than 0 1 8 mm and equal to or less than 0 2 6 mm, and the deflection angle is greater than 90 ° and equal to or less than the size of this paper. Chinese National Standard (CNS) A4 regulations apply. (210x 297 mm) _8_ (Please read the precautions on the back before filling out this page), install -------- order --------- line, Μ staff of Intellectual Property Bureau of the Ministry of Economy Cooperative printed by the Intellectual Property Bureau of the Ministry of Economic Affairs, printed by the Consumer Cooperative, 46 81 94 ΚΙ ___ Β7__ 5. Description of the invention (6) 115 °: The bias yoke includes: a horizontal coil; a vertical coil; and a magnetic core, where the magnetic core The thickness ratio of the core in the horizontal direction to the vertical direction is equal to about 1 or less, and the display device further includes: a bias circuit and a high voltage circuit to drive the cathode ray tube; and a video circuit for signal processing an external Signal. BRIEF DESCRIPTION OF THE DRAWINGS The above and other features, objects, and advantages of the present invention can be more clearly understood by the following description accompanying the explanation of the drawings, in which: FIG. 1 is an explanatory diagram of a cross section of a magnetic core according to the present invention; 2 is an explanatory diagram of a cathode ray tube with a deflection yoke attached according to the present invention; FIG. 3 is a deflection yoke according to an embodiment of the present invention | between the neck diameter and resolution characteristics of the cathode ray tube, And the relationship between electrical energy consumption losses Figure 7 Figure 4 is an explanatory diagram of the external shape and size of the bias yoke according to the embodiment of the present invention, in particular, in the direction of the tube axis; Figure 5 is an implementation according to the present invention. Rule of horizontal deflection line-............ ~ Inch and horizontal deflection sensitivity; Figure 6 shows the paper size in the horizontal deflection coil according to the embodiment of the present invention. Applicable to China National Standard (CNS) A4 specification (210 X 297 mm) -9- —-----------. X installed-! —Order ----------·-·-··., ... V (Please read the notes on the back before filling out this page) Printed by the Employees' Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 46 81 9 4 A7 __B7___ V. Description of the invention (7) The relationship between the size and the amount of change in the shielding of the neck by the electron beam impact »Figure 7 is outside the horizontal deflection line 在 in the embodiment according to the present invention The relationship between the size and the diameter of the electron beam reaching the phosphor screen; Figure 8 is the relationship between the external size of the horizontal deflection coil and the allowable temperature in the embodiment according to the present invention; In another embodiment, the relationship between the distance defined between the open end side of the horizontal deflection line 和 and the open end side of the magnetic core and the strength of the very low frequency magnetic field; FIG. 10 is in the direction of the tube axis, An illustration of the dimensions and external shape of a deflection yoke according to another embodiment of the present invention; FIG. 11 is a diagram illustrating an interval between an open end side of a vertical deflection line and a magnetic core in another embodiment according to the present invention; The distance between the open end of the heart and the strength of the very low frequency magnetic field Figure 12 shows the dimensions and external shape of the deflection yoke according to another embodiment of the present invention in the direction of the tube axis. Fig. 13 is a cathode ray tube equipped with the deflection yoke according to the present invention. A side view of the device; and FIG. 14 is a structural view of a display device equipped with a cathode ray tube having a deflection yoke according to the present invention. Main component comparison table 4: Magnetic core 1 ‘· biased to the yoke !! —Order— > .... I (Please read the notes on the back before filling out this page) ---- This paper size is applicable to China National Standard (CNS) A4 (210 «297 mm) -10- 16 81 94 A7 B7 V. Description of the invention (8 7: 8: 9 '10 11 12 14 17 2 0 2 1 2 2 Horizontal deflection coil Vertical deflection coil separator Magnetic auxiliary vertical coil terminal cover Electron gun: Static convergence magnet: Cathode ray Tube: Phosphor screen, 15.6, 6: Video circuit: Horizontal deflection circuit: Vertical deflection circuit: High-voltage circuit: Attachment part: Fastened band input end Intellectual Property Bureau of the Ministry of Economic Affairs Employee Consumer Cooperative Co. Printed a preferred embodiment DETAILED DESCRIPTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. Referring to FIG. 1, there is shown a cross-sectional view of a magnetic core 4 according to the present invention, which is attached with a deflection yoke 1 composed of a horizontal deflection coil 2 and a vertical deflection coil 3. To a cathode ray tube, the neck diameter of the cathode ray tube is from 0.018mm to 026mm, and the deflection angle is from 90. to 1 1. 5. This paper uses the Chinese National Standard (C ^ IS) A4 specification (210X297 mm) 11-(Please read the note on the back first (Fill in this page again)
經濟部智慧財產局員工消費合作社印製 d6 81 94 A7 _B7__ 五、發明說明(9 ) 。此處,頸部直徑乃在接附有電子槍(收集性)之陰極射 線管之部份量測,且當以已知之量測裝置,如游標卡尺, 測微計等量測時,其中顯示幾乎相等之直徑。再者,一般 而言,當由一偏向中央,亦即,陰極射線管之漸尖部藉由 外推法而集中在一點之點,觀看入磷螢幕時,偏向角乃界 定當成形成在磷螢幕上之對角有效顯示表面間之角。 上述之磁性蕊心4具有圓形內表面,且其形成之厚度 比例爲至少約等於1或小於相對於紅(R ),綠(G ), 藍(B )三電子槍所設置在一直線上之水平方向之垂直方 向之厚度。當具有此橫截面之磁性蕊心應用至偏向軛時, 偏向磁場由在來自電子槍之陰極射線通過之陰極射線管之 頸部中之水平偏向線圈2和垂直偏向線圈3所形成,其在 垂直方向相當弱,而在水平方向相當強。但是,由於蕊心 厚度在水平方向相當大,所產生之磁場不會相對於線圈電 流發生飽和,因此,可保持具有充分強度之磁場。再者, 藉此,不只幾何扭曲和不收歛,且因在磁性蕊心4中之溫 度上升而來之特性之破壞亦可自動的補償。 再者,在磁性蕊心4之蕊心厚度均勻之例中,在構成 偏向軛1之零件間,由於其占攄在偏向軛約5 0%之重量 ,陰極射線管極易在頸部斷裂。但是,依照本發明,藉由 使磁性蕊心4之蕊心厚度在垂直方向比在水平方商薄,可 減輕重量約2 0%,因此,不只可達成偏向輛本身之重量 減輕,且亦可防止陰極射線管在頸部之破裂。 於此,在垂直方向相對於水平方向之磁性蕊心4之蕊 $紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐〉_ i2 - (請先閱讀背面之注$項再填寫本頁) 震----!|訂---------線 A7 46 81 94 B7___ 五、發明說明(1〇) 心厚度比例至少約爲1 ,且最好小於1,且等於或大於 0 . 7。其理由爲:如果蕊心比例等於或大於〇 · 7時, 磁性蕊心4本身可在製造處理時獲得充分的機械強度,因 此其可以現今廣泛使用之鑄造方法製造,而不會降低生產 率。 再者,如圖2所示,安裝有上述磁性蕊心4之偏向軛 1以接附部份2 1固定在陰極射線管之壁表面1 1。以此 方式,偏向軛1本身之重量由陰極射線管之壁表面1 1儘 可能的支持,如此可防止在頸部上之破裂之情形。再者, 偏向軛1亦使用固緊帶2 2以固定在陰極射線管之頸部上 ,其亦用以防止偏向軛1之移動。 但是,偏向軛1所欲接附使用之陰極射線管之頸部直 徑和偏向角不應只限制在上述所述之區域。亦即,偏向角 最好由95°至110° ,且更好爲在97°至105° 之範圍內。其理由爲:當使用偏向軛時,其和接附至具有 上述如9 0 °至1 1 5 °偏向角特性之陰極射線管相同, 需用以偏向在所需角度之磁場可受到縮小,並保持上述之 相同偏向特性。亦即,可獲得由偏向軛1本身之電能耗損 之降低,或進一步藉由和上述例比較相當簡單之電路構造 可達成驅動偏向軛1之電路,或可以例如小電容之電晶體 之零件構成,藉以顯著的降低整體包括偏向軛1之控制系 統之成本。 再者,偏向軛1所接附之陰極射線管之頸部直徑不應 只限於上述値,例如,等於或大於0 1 8 m m且等於或小 (請先闓讀背面之注意事項再填寫本頁) 裝------ --訂---------· 經濟部智慧財產局員工消費合作社印製 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -13- A7 46 81 9 4 B7 五、發明說明(11 ) 於分2 6mm。較佳的,所需的是,頸部直徑等於或大於 必2 2mm且等於或小於0 2 6mm,且更佳的等於或大 於必2 4mm且等於或小於〆2 5mm。當相同偏向軛1 接附至欲使用之陰極射線管之頸部時,其理由可由介於頸 部直徑和當成陰極射線管之效能之一之解析度間之關係, 和介於包括偏向軛之偏向電路之電能耗損間之關係而做說 明,如圖3所示=在圖3中,垂直軸以相關値表示解析度 和電能耗損,其中頸部直徑愈大,電子束可更輕易的聚焦 在陰極射線管之磷螢幕上,因此可達成高解析度顯示。相 反的,偏向軛1本身之電能耗損上升,因此,可能不只無 法達成由偏向軛之低能量耗損之需求,且其亦可能使偏向 轭之效能降低,而最糟的是,當隨著能量耗損增加而產生 之熱會使構成偏向軛1之零件,如塑膠樹脂製之框軟化。 特別的,當頸部直徑超過0 2 6 m m時,電能耗損顯示增 加關係陡峭的上升。同時,如果頸部等於或小於 分1 8mm時會使此關係急遽的下降。 頸部直徑等於或大於018mm且等於或小於 〆2 6mm爲需用以滿足至少兩特性之範圍,亦即,在陰 極射線管之各種效能中之偏向軛之能量耗損和解析度,更 特別而言,其必須等於或大於0 2 2 m m且等於或小於 0 2 6 m m,且最特別而言,其必須等於或大於 办2 4mm且等於或小於0 2 5mm,藉以符合在包括解 析度和能量耗損之任何特性之需求。 其次,說明構成偏向軛1之各種零件之尺寸。藉由採 (請先閱讀背面之注意事項再填寫本頁) /哀i I!--訂--------線、 經濟部智慧財產局員工消費合作社印製 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -14- 4 6 81 9 4- A7 B7 五、發明說明(12) (請先間讀背面之注意寧項再填寫本頁) 用一代表例說明偏向軛,其接附至陰極射線管,該陰極射 線管之頸部直徑等於或大於0 2 4mm且等於或小於 必2 5mm,且偏向角等於或大於9 7°且等於或小於 10 5° ° 經濟部智慧財產局員Η消費合作社印製 圖4爲偏向軛1在管軸方向中之尺寸,其使用於頸部 直徑等於或大於·0 2 4mm且等於或小於必2 5mm,且 偏向角等於或大於97°且等於或小於105°之陰極射 線管。此實施例之偏向軛1包括水平偏向線圈2,垂直偏 向線圏3,以及上述如圖1所示之磁性蕊心4,其中水平 偏向線圈2在管軸方向之長度爲a,垂直偏向線圈3在管 軸方向之長度爲b,磁性蕊心4在管軸方向之長度爲c, 介於水平偏向線圈2之開口側端和蕊心4之開口側端間之 距離爲d,和介於垂直偏向線圈3之開口側端和蕊心4之 開口側端間之距離爲e。但是,水平偏向線圏2,垂直偏 向線圈3,和磁性蕊心4之尺寸爲當以已知之量測裝置, 如游標卡尺,測微計等量測時,分別介於線圈和蕊心之頸 部側端和開口端間所量測之長度。再者,水平偏向線圏2 和垂直偏向線圈3爲線圈,其纏繞成馬鞍形。 圖5爲相對於在水平偏向線圏2之管軸方向之長度a 之水平偏向靈敏度之改變率之圖。如圖所示,當水平偏向 線圈2之尺寸爲9 0mm時,於此顯示偏向軛1之長度分 別改變或移位在開口側和頸部側方向上。在水平偏向線圈 2之尺寸a只延伸在開口側時,水平偏向靈敏度增加,而 偏向特性顯不受到破壞之趨勢。另一方面,在水平偏向線 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -15- Α7 ___ Β7__ 五、發明說明(13 ) 圈2之尺寸a只延伸在頸部側時,則水平偏向靈敏度降低 ,而偏向特性受到改善。亦即,以接附至具有寬偏向角之 陰極射線管之偏向軛1之此種尺寸,對於改善水平偏向靈 敏度之目的而言,水平偏向線圈之長度由現在位置延伸在 頸部側而在開口端側收縮是有效的。 其次,圖6爲相對於水平偏向線圈2在管軸方向中之 長度a之電子束之電子束衝擊頸部(以下稱B S N)之改 變量之圖。在同一圖中,B S N改變率表示在當水平偏向 線圈2之尺寸分別改變或移位在偏向軛1之開口側和頸部 側方向上時之例,根據之尺寸爲9 ◦ m m,且其意即此値 愈大,呈現在陰極射線管之磷螢幕上之缺少顯示螢幕之比 例愈少。在水平偏向線圈2之尺寸a擴大至開口側之例中 ,:B S N値增加,亦即,陰極射線管之效能獲得改善。另 一方面,在水平偏向線圈2之尺寸a擴大至頸部側之例中 ,B S N値下降,因此,缺少顯示螢幕會輕易的呈現在陰 極射線管之磷螢幕上。因此,爲了改善B S 1^値,最好由 標準位置延伸在水平偏向線圈2之尺寸a至開口側之方向 而非在頸部側之方向。 但是,由圖5和6之結果可知,介於指示偏向軛1之 效能之水平靈敏度和B S N間之關係反比於在水平偏向線 圏2之尺寸。爲了滿足兩偏向特性,當改變水平偏向線圈 2之尺寸時,無可避免的會同時將其改變至偏向軛1之開 口側和頸部側兩方向上。但是’爲了決定水平偏向線圏2 之尺寸且同時滿足偏向軛1之各種特性,於此存在有水平 {請先閱讀背面之注意事項再填寫本頁) 裝·! —訂·1!ί· . 0. 0 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) •16- ^6 81 9 A a? _____B7_ 五、發明說明(14 ) 偏向線圈2之尺寸之適當範圍’其將說明於下。 首先說明在管軸方向之水平偏向線圏2之尺寸之上限 。圖7爲介於水平偏向線圈2之尺寸a和在陰極射線管之 磷螢幕上之電子束之直徑間之關係圖。在相同圖中’電子 束直徑尺寸以1 0 0%表示’其中不會發生如影像之不聚 焦在顯示螢幕上之聚焦破壞。結果,如果水平偏向線圈2 改變至偏向軛1之開口側,其尺寸a難以對電子束直徑產 生影響。但是,特別當尺寸a增加在頸部側方向時,電子 束直徑顯著的上升,因此產生之問題如影像之聚焦破壞。 亦即,水平偏向線圈2之尺寸a之最大値由在頸部側上之 可容許聚焦特性和在開口側上之水平偏向特性所決定。因 此,由圖所示之結果可知,水平偏向線圈2之尺寸之最大 可容許値爲1 0 0 m m,以滿足陰極射線管之效能之一, 如,影像淸析度或解析度,和進一步偏向靈敏度之特性。 其次說明在管軸方向之水平偏向線圈2之尺寸a之下 限。決定水平偏向線圏2之尺寸a同時保持偏向靈敏度之 另一方法爲同時縮短在偏向軛1之頸部側和闊口側之尺寸 a。在此例中,水平偏向線圏2之形狀無可避免的變小, 因此偏向線圈本身之表面亦變小或窄,且因此,在偏向線 圏本身上之溫度增加顯得相當顯著。圖8爲介於尺寸a和 在偏向軛中之溫度增加間之關係圖。在圖中,溫度根據偏 向軛1之最大可容許溫度指示,且其以下述之理由決定。 亦即,一般而言,塑膠模材料使用以形成偏向軛1之框, 但是’當溫度超過其熱軟化溫度時,其機械應力會顯著的 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閲讀背面之注意事項再填寫本頁) 裝 ----^---------線'/""V · .. 經濟部智慧財產局員工消費合作社印製 -17- Α7 _Β7___ 五、發明說明(15 ) (諳先閱讀背面之注意事項再填寫本頁) 降低,因此,難以保持框本身之形狀。再者,偏向線圏之 導體本身覆蓋以塑膠樹脂(例如,瓷釉),以將它們固定 形成在一起,但是,當溫度超過熱阻形變溫度時,不只線 圈本身之導體難以保持其形狀,且覆蓋在導體上之瓷釉層 之電絕緣性亦會降低,藉以產生局部電暈放電。在落入此 狀況之例中,偏向軛喪失其功能且產生不收歛之情形。 因此,無可避免的,構成偏向軛1之水平偏向線圈之 尺寸a需選擇在一範圍以使其不會超過使用於此之零件材 料之可容許溫度。由圖8之結果顯示,水平偏向線圈2之 尺寸a必須等於或大於8 0 m m以滿足相對於在偏向軛1 中之溫度增加之可容許値。 由上述之結果可知,當水平偏向線圈2之尺寸a設定 成等於或大於8 Omm且等於或小於1 0 〇mm時,相對 於具有寬偏向角特性之薄頸部型陰極射線管而言,其可顯 示良好的偏向特性,而不會發生聚焦影像之破壞,且其可 防止隨著溫度上升而發生不收歛。 經濟部智慧財產局員4消費合作社印製 其次說明構成偏向軛1之一部份之在垂直偏向線圈3 之管軸方向中之尺寸b。 如圖4所示,垂直偏向線圈3在管軸方向之尺寸b等 於藉由從水平偏向線圈2減去在水平偏向線圈2之開口側 和頸部側上之緣厚度和用以絕緣水平偏向線圈2和垂直偏 ,向線圈3之分離器(圖中未顯示)之厚度而獲得之尺寸。 例如,在水平偏向線圈2之開口側和頸部側上之緣厚度分 別爲5mm和2 0mm之例中,且用以絕緣之分離器之開 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -18- A7 _ B7__ 五、發明說明(1β ) 口側和頸部側上之厚度約爲2 m m時,垂直偏向線圈3之 尺寸b之長度短於水平偏向線圈2之尺寸a約3 Omm。 因此,當水平偏向線圈2之尺寸a受決定爲等於或大於 8 0mm且等於或小於1 0 0mm時,最好使垂直偏向線 圈之尺寸b在等於或大於5 Omm且等於或小於7 Omm 之範圍內。 以相同的方式,磁性蕊心4在管軸方向之尺寸c等於 藉由從垂直偏向線圈3之尺寸b減去在垂直偏向線圈3之 開口側和頸部側上之緣厚度和用以絕緣之空間之厚度而獲 得之尺寸。例如,當在垂直偏向線圈3之開口側和頸部側 上之緣厚度約爲5 mm至8 mm時,且一般而言,藉由使 介於垂直偏向線圏3和磁性蕊心4間之用以絕緣之空間爲 4mm時,最好使在磁性蕊心4之管軸中之尺寸c比垂直 偏向線圈3之尺寸b短2 Omm,亦即,在等於或大於約 3 ◦ m m且等於或小於約5 0 m m之範圍內。 如上所述,水平偏向線圏2,垂直偏向線圏3,和磁 性蕊心4之尺寸受選擇以分別等於或大於約8 Omm且等 於或小於約1 0 Omm,等於或大於約5 Omm且等於或 小於約7 0 m m,和等於或大於約3 0 m m且等於或小於 約5 Omm,且它們使用於具有寬偏向特性之薄頸型陰極 射線管之偏向軛中,藉以使由電子槍發出之電子束之偏向 可抑制垂直方向之幾何扭曲之發生和不收歛1亦即,不會 發生水平偏向靈敏度和垂直偏向靈敏度之破壞。 但是,水平偏向線圈2,垂直偏向線圈3,和磁性蕊 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注*事項再填寫本頁) "哀---- 訂·!--1線- 經濟部智慧財產局員工消費合作社印製 -19- A7 46 81 9 4 ____B7 五、發明說明(17 ) (請先閱讀背面之注意事項再填寫本頁) 心4之相關尺寸不應只限於上述之說明,且它們最好受選 擇以分別等於或大於約9 Omm且等於或小於約9 5mm ,等於或大於約6 0 mm且等於或小於約6 5 mm,和等 於或大於約4 0mm且等於或小於約4 5mm。其理由乃 是,由於每個尺寸之上限乃由解析度和靈敏度特性(其爲 陰極射線管之效能)所限制,因此可藉由決定這些尺寸短 於上述之尺寸以相對於陰極射線管之特性增加邊界。如此 不只有助於偏向轭1本身,且有助於接附此偏向轭1之陰 極射線管之良率和生產率之增加,且更進一步降低製造成 本。另一方面,每個値之下限決定於相對於偏向軛1之溫 度增加之可容許値,因此,藉由選擇這些尺寸較上述尺寸 長時,可抑制偏向軛1之溫度增加,亦即,獲得電能耗損 之降低。藉此,和上述尺寸之偏向軛1比較,可形成更簡 單驅動偏向軛1之電路,或使於此使用之零件,如電晶體 之電容等,更小,以助於成本之降低。 經濟部智慧財產局員工消費合作社印製 其次,如圖4所示,當組裝構成偏向軛1之水平偏向 線圏2,垂直偏向線圈3,和磁性蕊心4時,後續之裝置 必須以相關於每個零件之相關位置之關係形成。亦即 > 每 —距離,如,介於磁性蕊心4之開口側端和水平偏向線圈 2之開口側端間之距離cl和介於磁性蕊心4之開口側端和 垂直偏向線圏3之開口側端間之距離d受決定爲至少大於 在頸部側之距離,且儘可能的大。且對於水平偏向線圈2 ,垂直偏向線圏3 ,和磁性蕊心4而言,必須接附在陰極 射線管之頸部且保持此種位置關係。 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -20- 46 81 94 A7 -----B7__ 五、發明說明(18 ) 圖9爲依照本發明之偏向軛1之另一實施例之說明圖 °在圖中,顯示介於磁性蕊心4之開口側端和水平偏向線 _ 2之開口側端間所界定之距離d和由偏向軛1產生之 v L M F之改變率間之關係。由此結果可知,距離d愈長 ’ V L M F之値愈低,亦即,換言之,藉由設置磁性蕊心 4儘可能遠離陰極射線管之磷螢幕,可降低VLMF。因 此’雖然圖1 0中顯示構成偏向軛1之零件之位置關係, 爲了滿足用於VLMF之標準値(等於或小於2 5 ηΤ) ’必須決定介於磁性蕊心4之開口側端和水平偏向線圈2 之開口側端間之距離d等於或小於1 5 m m » 如前所述,使用在陰極射線管中之偏向軛1之配置和 尺寸’其頸部直徑等於或大於0 2 4 m m且等於或小於 0 2 5mm,且偏向角等於或大於9 7°且等於或小於 10 5° ,亦即,水平偏向線圏之尺寸a ,垂直偏向線圏 之尺寸b,和磁性蕊心之尺寸c分別等於或大於約 8 Omm且等於或小於約1 〇 〇mm,等於或大於約5 0 m m且等於或小於約7 〇 m m,和等於或大於約3 0 m m 且等於或小於約5 0mm,進一步較佳的分別等於或大於 約9 0 m m且等於或小於約9 5 m,等於或大於約6 ◦ mm且等於或小於約6 5mm,和等於或大於約4 Omm 且等於或小於約4 5 m m,其中磁性蕊心4之開口側端和 水平偏向線圈2之開口側端以一等於或大於1 5 m m之距 離分離’藉以獲得偏向軛1之本質特性,而未使用廣泛使 用於習知技藝之抵銷線圏,且用以降低由偏向軛1所引起 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) 一裝!---—訂----- 經濟部智慧財產局員工消費合作社印製 -21 - 4.6 81 94 第88 U1874號專利申請案 中文說明書修正頁 A7 B7 iij 修正 補 國90年6月呈 五、發明説明(19) 之V LMF,並抑制幾何扭曲之產生和不收歛。 以下說明本發明之又一實施例。圖1 1爲介於磁性蕊 心4之開口側端和垂直偏向線圏3之開口側端間所界定之 距離e和由偏向軛1產生之E L M F之改變率間之關係。 由此結果可知,距離e愈長,ELMF之値愈低,亦即, 換言之,藉由設置磁性蕊心4儘可能遠離垂直偏向線圈之 開口側端,可降低ELMF之値。因此,雖然圖1 2中顯 示構成偏向軛1之零件之位置關係,但是,爲了滿足用於 E LMF之標準値(等於或小於200nT),必須決定 介於磁性蕊心4之開口側端和垂直偏向線圈3之開口側端 間之距離e等於或大於5 mm。 如前所述,使用在陰極射線管中之偏向軛1之配置和 尺寸,其頸部直徑等於或大於0 2 4mm且等於或小於 0 2 5mm,且偏向角等於或大於9 7°且等於或小於 105° ,亦即,水平偏向線圈之尺寸a,垂直偏向線圈 之尺寸b ’和磁性蕊心之尺寸c分別等於或大於約8〇 mm且等於或小於約1 〇 〇mm,等於或大於約5 0mm 且等於或小於約7 Omm,和等於或大於約3 Omm且等 於或小於約5 0 m m,進一步較佳的分別等於或大於約 9 0 m m且等於或小於約9 5 m m,等於或大於約6 0 m m且等於或小於約6 5 m m,和等於或大於約4 0 m m 且等於或小於約4 5 m m,其中磁性蕊心4之開口側端和 垂直偏向線圏3之開口側端以一等於或大於5 m m之距離 分離’藉以獲得偏向軛1之本質特性,而未使用廣泛使用 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) (請先鬩讀背面之注意事項再填寫本夏〕 -裝. - 經濟部智慧財產局工消t合作社印製 -22- 46 81 94 A7 B7 五、發明說明(2〇 ) 於習知技藝之抵銷線圈,且用以降低由偏向軛1所引起之 E L M F,並抑制幾何扭曲之產生和不收歛。 如前所述,藉由接附偏向軛在陰極射線管之頸部並將 其設置以使相對於磁性蕊心4之開口側端之水平偏向線圈 2之開口側端之距離d和相對於垂直偏向線圈3之開口側 之距離e儘可能的大,可不只降低由偏向軛1所產生不必 要磁場輻射(亦即,VLMF和ELM. F),而未使用廣 泛使用於習知技藝之抵銷線圏,且亦可抑制水平偏向靈敏 度和垂直偏向靈敏度之破壞之發生’幾何扭曲之產生和不 收歛。再者,亦有助於縮小偏向軛之形狀和減輕其重量, 以及降低製造成本。 如前所述,雖然前述說明了使用在陰極射線管中之偏 向軛1之配置和尺寸’例如’其頸部直徑等於或大於 办2 4mm且等於或小於0 2 5mm ’且偏向角等於或大 於97°且等於或小於1〇5° ,當成一代表例,但是, 無庸贅言的是,如果頸部直徑等於或大於0 1 8 mm且等 於或小於^ 2 6mm ’或更特別等於或大於0 2 2mm且 等於或小於0 2 6mm ’且偏向角等於或大於9 0°且等 於或小於1 1 5 ° ’或更特別等於或大於9 5 °且等於或 小於1 1 0°時,亦可輕易的獲得上述之效果。 其次說明依照本發明之進一步實施例。此實施例爲安 裝有上述偏向軛之陰極射線管’且其側視圖如圖1 3所示 ,其中一部份以切除顯示。再者’本實施例之陰極射線管 裝置包含偏向軛1 ’水平偏向線圈2 ’垂直偏向線圏3 ’ (請先閲讀背面之注意事項再填窝本頁) ,衷— !訂!1 -線、 經濟部智慧財產局員工消費合作社印製 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -23- 4681 94 A7 B7 五、發明說明(21 ) 磁性蕊心4,用以絕緣之分離器5 ,用於輔助垂直線圏之 磁性體6,一輔助垂直線圏7,一端蓋8,電子槍9 ’一 靜收歛磁鐵1 0,和磷螢幕1 2。 在圖中,在前面具有磷螢幕1 2之陰極射線管1 1之 頸部份上接附有偏向軛1,且在陰極射線管1 1之頸部份 中亦接附有電子槍。此偏向軛1具有之構造爲其中水平偏 向線圈2,垂直偏向線圏3,和磁性蕊心4以磁性體製成 且設置在外周緣上。再者,電子槍9之側邊上提供有用於 輔助垂直線圈之磁性體6,其上纏繞有輔助垂直線圈7。 使用於此陰極射線管裝置之陰極射線管11具有大或 寬的偏向角,因此,當習知偏向軛接附其上時,若未大幅 改變全部零件時,包括偏向軛之驅動電路,則難以達成上 述之目的。但是,藉由使用本發明之上述偏向軛1 ,不只 可抑制幾何扭曲和不收斂之發生,且亦可獲得具有滿足不 必要磁場輻射(VLMF和ELMF)之標準値之寬偏向 角特性之陰極射線管裝置,而除了偏向軛1外,無須改變 全部零件,且不會對陰極射線管相當重要特性之水平和垂 直偏向靈敏度造成破壞。 以下說明依照本發明之進一步實施例。此實施例爲安 裝有具有上述偏向軛1之陰極射線管之顯示裝置,且其構 造圖如圖1 4所示。在圖中,有視頻訊號之輸入端1 4, 水平同步訊號之輸入端1 5,垂直同步訊號之輸入端1 6 ,視頻電路1 7 ’水平偏向電路1 8,垂直偏向電路1 9 ’和高壓電路2 0 ,其中相關於圖1 3所示之部份以相同 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) ./^--------訂---------線' 經濟部智慧財產局員工消費合作社印製 -24- A7 4 6 81 _____B7_______ 五、發明說明(22 ) 的參考數字表示以省略對其之說明。 在視頻電路1 7中經訊號處理處理後’由視頻輸入端 (請先閱讀背面之泛意事項再填寫本頁) 1 4輸入之視頻訊號供應至陰極射線管1 1。再者’由輸 入端1 5輸入之水平同步訊號供應至水平偏向電路1 8 ’ 其中水平偏向電流i h根據水平同步訊號形成。此水平偏 向電流I h供應至偏向軛1之水平偏向線圈2。另一方面 ,上述之水平同步訊號之一部份亦同時供應至高壓電路 經濟部智慧財產局員工消費合作社印製 2 0。再者,輸入至輸入端1 6之垂直同步訊號供應至垂 直偏向電路1 9 ,其中形成垂直偏向電流I v。再者,此 垂直偏向電流I v供應至偏向軛1之垂直偏向線圈3。以 此方式,根據在視頻電路1 7中處理之訊號而由電子槍發 出之電子束由以水平偏向電流Ih和垂直偏向電流Iv所 形成之磁場所偏向,並激勵位於磷螢幕1 2上之預定位置 上之照明材料。藉由應用安裝有上述偏向軛1之陰極射線 管至此顯示裝置中,可達成顯示有寬偏向角特性之顯示裝 置,以滿足不必要磁場輻射(如V L M F和E L M F )之 標準値,而除了偏向軛外,無需改變全部的構成零件,如 水平偏向電路1 8,垂直偏向電路1 9,和視頻電路1 7 等,其可使用如習知之零件,且不會破壞水平和垂直偏向 靈敏度,亦可抑制幾何扭曲和不收歛之產生。 如上述之充分說明,依照本發明,在未使用抵銷線圏 下,亦可獲得降低不必要磁場輻射之效果,且水平偏向線 圏和垂直偏向線圈之靈敏度亦變高,藉此有助於抑制幾何 扭曲和不收歛之產生。再者,本發明不只可使偏向軛本身 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -25-Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs d6 81 94 A7 _B7__ V. Description of Invention (9). Here, the neck diameter is measured on the part of the cathode ray tube with an electron gun (collective) attached, and when measured with a known measuring device such as a vernier caliper, micrometer, etc., the display is almost equal Of its diameter. Furthermore, in general, when the angle from a bias to the center, that is, the tapered portion of the cathode ray tube is concentrated at a point by extrapolation, when viewed into a phosphor screen, the deflection angle is defined as being formed on the phosphor screen The upper diagonal effectively shows the corners between the surfaces. The magnetic core 4 described above has a circular inner surface, and the thickness ratio formed is at least approximately equal to 1 or less than the level at which the three electron guns of red (R), green (G), and blue (B) are arranged on a straight line. The thickness in the vertical direction. When a magnetic core having this cross section is applied to a deflection yoke, the deflection magnetic field is formed by a horizontal deflection coil 2 and a vertical deflection coil 3 in a neck of a cathode ray tube through which a cathode ray from an electron gun passes, which is in a vertical direction. Quite weak and quite strong in the horizontal direction. However, since the core thickness is relatively large in the horizontal direction, the generated magnetic field does not saturate with respect to the coil current, so a magnetic field with sufficient strength can be maintained. Furthermore, by this, not only the geometric distortion and non-convergence, but also the damage caused by the temperature rise in the magnetic core 4 can be automatically compensated. Furthermore, in the case where the core core 4 has a uniform core thickness, among the parts constituting the bias yoke 1, the cathode ray tube is easily broken at the neck because it accounts for about 50% of the weight of the bias yoke. However, according to the present invention, by making the core thickness of the magnetic core 4 thinner in the vertical direction than in the horizontal quotient, the weight can be reduced by about 20%. Therefore, not only the weight reduction biased to the vehicle itself can be achieved, but also Prevent the cathode ray tube from rupturing in the neck. Here, the paper size of the magnetic core 4 of the magnetic core 4 in the vertical direction and the horizontal direction applies to the Chinese National Standard (CNS) A4 specification (210 X 297 mm> _ i2-(Please read the note on the back before filling out (This page) Earthquake ----! | Order --------- line A7 46 81 94 B7___ V. Description of the invention (10) The ratio of the thickness of the core is at least about 1, and preferably less than 1, and equal to Or greater than 0.7. The reason is that if the core ratio is equal to or greater than 0.7, the magnetic core 4 itself can obtain sufficient mechanical strength during the manufacturing process, so it can be manufactured by the casting method widely used today, and The productivity will not be reduced. Furthermore, as shown in FIG. 2, the biasing yoke 1 on which the above-mentioned magnetic core 4 is mounted is attached to the wall surface 1 of the cathode ray tube 1. In this way, the biasing yoke 1 is biased The weight itself is supported by the wall surface of the cathode ray tube as much as possible, so as to prevent the neck from rupturing. Furthermore, the biasing yoke 1 also uses the fastening tape 22 to fix the neck of the cathode ray tube. In addition, it is also used to prevent the movement to the yoke 1. However, the yoke 1 is intended to be attached and used. The neck diameter and deflection angle of the polar tube should not be limited to the above-mentioned areas. That is, the deflection angle is preferably from 95 ° to 110 °, and more preferably from 97 ° to 105 °. The reason is that when a deflection yoke is used, it is the same as a cathode ray tube attached to a cathode ray tube having the above-mentioned deflection angle characteristics such as 90 ° to 115 °, and the magnetic field required to deflect at a desired angle can be reduced and maintained. The same biasing characteristics as described above, that is, a reduction in electric energy loss from the biasing yoke 1 itself can be obtained, or a circuit that drives the biasing yoke 1 can be further achieved by a relatively simple circuit configuration compared to the above example, or a small capacitor such as The transistor component structure significantly reduces the overall cost of the control system including the yoke 1. Furthermore, the neck diameter of the cathode ray tube to which the yoke 1 is attached should not be limited to the above-mentioned 値, for example, equal to or larger than 0 1 8 mm and equal to or smaller (please read the precautions on the back before filling out this page) ------------ Order --------- · Consumer Consumption Cooperative of Intellectual Property Bureau, Ministry of Economic Affairs Printed paper standards are applicable to Chinese national standards ( CNS) A4 specification (210 X 297 mm) -13- A7 46 81 9 4 B7 V. Description of the invention (11) is divided into 2 6mm. Preferably, it is required that the neck diameter is equal to or greater than 2 2mm And equal to or less than 0 2 6 mm, and more preferably equal to or greater than 2 4 mm and equal to or less than 〆 2 5 mm. When the same bias yoke 1 is attached to the neck of the cathode ray tube to be used, the reason may be between The relationship between the diameter of the neck and the resolution, which is one of the performances of the cathode ray tube, and the power loss between the deflection circuits including the deflection yoke will be explained, as shown in Figure 3 = In Figure 3, vertical The axis represents the resolution and electrical energy loss with a relative chirp. The larger the diameter of the neck, the easier the electron beam can focus on the phosphor screen of the cathode-ray tube, thus achieving high-resolution display. On the contrary, the energy consumption loss of the bias yoke 1 increases. Therefore, it may not only be unable to meet the demand for the low energy loss of the bias yoke, but it may also reduce the efficiency of the bias yoke. At worst, when the energy loss The increased heat will soften the parts that make up the yoke 1, such as a plastic resin frame. In particular, when the diameter of the neck exceeds 0 2 6 mm, the power consumption loss shows a steep increase. At the same time, if the neck is equal to or smaller than 18 mm, this relationship will be sharply reduced. The diameter of the neck is equal to or greater than 018 mm and equal to or less than 〆2 6 mm is a range required to satisfy at least two characteristics, that is, the energy loss and resolution of the yoke in various performances of the cathode ray tube, and more particularly , It must be equal to or greater than 0 2 2 mm and equal to or less than 0 2 6 mm, and most specifically, it must be equal to or greater than 2 4 mm and equal to or less than 0 2 5 mm in order to comply with the resolution and energy consumption. Of any characteristics. Next, the dimensions of various parts constituting the deflection yoke 1 will be described. By adopting (please read the precautions on the back before filling this page) / wai i I!-Order -------- line, printed by the Intellectual Property Bureau of the Ministry of Economic Affairs, Consumer Cooperatives, this paper is applicable to China Standard (CNS) A4 specification (210 X 297 mm) -14- 4 6 81 9 4- A7 B7 V. Description of the invention (12) (Please read the note on the back before filling this page) Use a representative example Describe a deflection yoke attached to a cathode ray tube, the neck diameter of which is equal to or greater than 0 2 4 mm and equal to or less than 2 5 mm, and the deflection angle is equal to or greater than 97 ° and equal to or less than 105 ° ° Printed by a member of the Intellectual Property Bureau of the Ministry of Economic Affairs and the Consumer Cooperative, Figure 4 shows the dimensions of the yoke 1 in the tube axis direction, which is used when the neck diameter is equal to or greater than · 0 2 4mm and equal to or less than 2 5mm, and the deflection angle is A cathode ray tube of 97 ° or more and 105 ° or less. The deflection yoke 1 of this embodiment includes a horizontal deflection coil 2, a vertical deflection line 圏 3, and the magnetic core 4 shown in FIG. 1. The length of the horizontal deflection coil 2 in the tube axis direction is a, and the vertical deflection coil 3. The length in the tube axis direction is b, the length of the magnetic core 4 in the tube axis direction is c, the distance between the horizontal side of the open side end of the coil 2 and the open side end of the core 4 is d, and the vertical The distance between the opening-side end of the bias coil 3 and the opening-side end of the core 4 is e. However, the dimensions of the horizontal deflection line 圏 2, the vertical deflection coil 3, and the magnetic core 4 are between the coil and the core of the core when measured with a known measuring device, such as a vernier caliper, a micrometer, etc. The measured length between the side and the open end. Furthermore, the horizontal deflection line 圏 2 and the vertical deflection coil 3 are coils, which are wound into a saddle shape. FIG. 5 is a graph showing the change rate of the horizontal deflection sensitivity with respect to the length a in the tube axis direction of the horizontal deflection line 圏 2. As shown in the figure, when the size of the horizontal deflection coil 2 is 90 mm, the length of the deflection yoke 1 shown here is changed or shifted in the direction of the opening side and the neck side, respectively. When the dimension a of the horizontal deflection coil 2 extends only on the opening side, the horizontal deflection sensitivity increases, and the deflection characteristics tend not to be damaged. On the other hand, in the horizontal deflection line, the paper size applies the Chinese National Standard (CNS) A4 (210 X 297 mm) -15- Α7 ___ Β7__ 5. Description of the invention (13) The size a of the circle 2 extends only on the neck On the side, the horizontal deflection sensitivity is reduced, and the deflection characteristics are improved. That is, with the size of the deflection yoke 1 attached to a cathode ray tube having a wide deflection angle, for the purpose of improving the horizontal deflection sensitivity, the length of the horizontal deflection coil extends from the current position on the neck side and opens in the opening. End-to-side contraction is effective. Next, FIG. 6 is a graph showing the variation of the electron beam impingement on the neck (hereinafter referred to as B S N) with respect to the electron beam of a length a in the tube axis direction of the horizontal deflection coil 2. In the same figure, the BSN change rate indicates an example when the size of the horizontal deflection coil 2 is changed or shifted in the direction of the open side and the neck side of the yoke 1, respectively, according to the size of 9 ◦ mm, and its meaning That is, the larger this threshold is, the less the lack of display screen appears on the phosphor screen of the cathode ray tube. In the example where the dimension a of the horizontal deflection coil 2 is enlarged to the opening side, B S N 値 is increased, that is, the performance of the cathode ray tube is improved. On the other hand, in the case where the size a of the horizontal deflection coil 2 is enlarged to the neck side, B S N 値 is decreased, and therefore, the lack of a display screen can easily appear on the phosphor screen of the cathode ray tube. Therefore, in order to improve B S 1 ^ 値, it is preferable to extend from the standard position in the direction of the horizontal deviation from the dimension a of the coil 2 to the opening side, rather than in the direction of the neck side. However, from the results of Figs. 5 and 6, it can be seen that the relationship between the horizontal sensitivity indicating the effectiveness of the bias yoke 1 and B S N is inversely proportional to the size at the horizontal bias line 线 2. In order to satisfy the two deflection characteristics, when the size of the horizontal deflection coil 2 is changed, it will inevitably be changed to both the opening side and the neck side direction of the yoke 1 at the same time. However, there is a level in order to determine the size of the horizontal deflection line 且 2 and simultaneously satisfy the various characteristics of the deflection yoke 1. (Please read the precautions on the back before filling this page) —Order · 1! Ί ·. 0. 0 This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) • 16- ^ 6 81 9 A a? _____B7_ 5. Description of the invention (14) Biased coil The appropriate range of the size 2 is described below. First, the upper limit of the size of the horizontal deflection line 圏 2 in the direction of the tube axis will be described. Fig. 7 is a graph showing the relationship between the size a of the horizontal deflection coil 2 and the diameter of the electron beam on the phosphor screen of the cathode ray tube. In the same figure, "the diameter of the electron beam is expressed as 100%", and the focus failure on the display screen such as the non-focusing of the image does not occur. As a result, if the horizontal deflection coil 2 is changed to the opening side of the yoke 1, the size a thereof hardly affects the electron beam diameter. However, especially when the size a is increased in the direction of the neck side, the diameter of the electron beam rises remarkably, and thus problems such as focus destruction of the image are generated. That is, the maximum value 尺寸 of the dimension a of the horizontal deflection coil 2 is determined by the allowable focusing characteristic on the neck side and the horizontal deflection characteristic on the opening side. Therefore, from the results shown in the figure, the maximum allowable 値 of the size of the horizontal deflection coil 2 is 100 mm to meet one of the performances of the cathode ray tube, such as image resolution or resolution, and further deflection. Characteristics of sensitivity. Next, the lower limit of the dimension a of the horizontal deflection coil 2 in the tube axis direction will be described. Another method for determining the size a of the horizontal deflection line 圏 2 while maintaining the deflection sensitivity is to shorten the size a on the neck side and the wide mouth side of the deflection yoke 1 at the same time. In this example, the shape of the horizontal deflection line 圏 2 inevitably becomes smaller, so the surface of the deflection coil itself becomes smaller or narrower, and therefore, the temperature increase on the deflection line 圏 itself appears to be quite significant. Fig. 8 is a graph showing the relationship between the dimension a and the temperature increase in the deflection yoke. In the figure, the temperature is indicated according to the maximum allowable temperature of the deflection yoke 1, and it is determined for the following reasons. That is, in general, plastic mold materials are used to form the frame deviating to the yoke 1, but 'when the temperature exceeds its thermal softening temperature, its mechanical stress will be significant. This paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm) (Please read the precautions on the back before filling out this page) Install ---- ^ --------- line '/ " " V · .. employee of Intellectual Property Bureau of the Ministry of Economic Affairs Printed by the Consumer Cooperative -17- Α7 _Β7 ___ 5. The description of the invention (15) (谙 Please read the precautions on the back before filling in this page), so it is difficult to maintain the shape of the frame itself. Furthermore, the conductors that are biased toward the wire are covered with plastic resin (eg, enamel) to fix them together. However, when the temperature exceeds the thermal resistance deformation temperature, it is not only difficult for the conductor of the coil itself to maintain its shape, but also covered The electrical insulation of the enamel layer on the conductor will also be reduced, thereby causing local corona discharge. In the case of falling into this situation, the biased yoke loses its function and causes non-convergence. Therefore, it is inevitable that the size a of the horizontal deflection coil constituting the deflection yoke 1 should be selected in a range so that it does not exceed the allowable temperature of the material of the parts used here. The results of Fig. 8 show that the dimension a of the horizontal deflection coil 2 must be equal to or greater than 80 mm in order to satisfy the allowable temperature increase relative to the temperature in the deflection yoke 1. From the above results, it can be seen that when the dimension a of the horizontal deflection coil 2 is set to be equal to or greater than 80 mm and equal to or less than 100 mm, compared to a thin neck type cathode ray tube having a wide deflection angle characteristic, its It can display good deflection characteristics without the destruction of the focused image, and it can prevent non-convergence from occurring as the temperature rises. Printed by the Intellectual Property Bureau of the Ministry of Economic Affairs 4 Consumption cooperatives Next, the dimension b in the direction of the tube axis of the vertical deflection coil 3 constituting a part of the deflection yoke 1 will be described. As shown in FIG. 4, the dimension b of the vertical deflection coil 3 in the tube axis direction is equal to the thickness of the edge on the opening side and the neck side of the horizontal deflection coil 2 by subtracting the horizontal deflection coil 2 from the horizontal deflection coil 2 and for insulating the horizontal deflection coil. 2 and vertical deviation, the size obtained by the thickness of the separator (not shown) of the coil 3. For example, in the case where the thicknesses of the edges on the open side and the neck side of the horizontal deflection coil 2 are 5 mm and 20 mm, respectively, and the paper size of the separator used for insulation is applicable to the Chinese National Standard (CNS) A4 specification ( 210 X 297 mm) -18- A7 _ B7__ V. Description of the invention (1β) When the thickness on the mouth and neck side is about 2 mm, the length of the dimension b of the vertical deflection coil 3 is shorter than that of the horizontal deflection coil 2 The size a is about 3 Omm. Therefore, when the size a of the horizontal deflection coil 2 is determined to be equal to or greater than 80 mm and equal to or less than 100 mm, it is preferable to make the size b of the vertical deflection coil 2 to be equal to or greater than 50 mm and equal to or less than 7 mm. Inside. In the same way, the size c of the magnetic core 4 in the tube axis direction is equal to the thickness b on the opening side and the neck side of the vertical deflection coil 3 by subtracting from the size b of the vertical deflection coil 3 and the insulation for insulation. The thickness obtained from the space. For example, when the thickness of the edges on the open side and the neck side of the vertical deflection coil 3 is about 5 mm to 8 mm, and generally, by making the distance between the vertical deflection line 圏 3 and the magnetic core 4 When the space for insulation is 4mm, it is better to make the size c in the tube axis of the magnetic core 4 shorter than the size b of the vertical deflection coil 3 by 2 Omm, that is, equal to or greater than about 3 ◦ mm and equal to or Less than about 50 mm. As described above, the dimensions of the horizontal deflection line 圏 2, the vertical deflection line 圏 3, and the magnetic core 4 are selected to be equal to or greater than about 8 Omm and equal to or less than about 10 Omm, equal to or greater than about 5 Omm, and equal to Or less than about 70 mm, and equal to or more than about 30 mm and equal to or less than about 50 mm, and they are used in the deflection yoke of a thin-necked cathode ray tube having a wide deflection characteristic, so that electrons emitted by an electron gun The deflection of the beam can suppress the occurrence and non-convergence of geometric distortion in the vertical direction1, that is, the destruction of the horizontal deflection sensitivity and the vertical deflection sensitivity will not occur. However, the horizontal deflection coil 2, vertical deflection coil 3, and magnetic core paper size are applicable to the Chinese National Standard (CNS) A4 (210 X 297 mm) (please read the notes on the back before filling out this page) " Laugh ---- Order! --1 line-Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs-19- A7 46 81 9 4 ____B7 V. Description of the invention (17) (Please read the precautions on the back before filling this page) The relevant dimensions of the heart 4 are not Should be limited to the above descriptions, and they are preferably selected to be equal to or greater than about 9 mm and equal to or less than about 95 mm, equal to or greater than about 60 mm and equal to or less than about 65 mm, and equal to or greater than about 40 mm and equal to or less than about 4 5 mm. The reason is that, because the upper limit of each size is limited by the resolution and sensitivity characteristics (which is the performance of the cathode ray tube), it is possible to determine the dimensions relative to the characteristics of the cathode ray tube by determining the dimensions shorter than the above. Increase the border. This not only helps to bias the yoke 1 itself, but also increases the yield and productivity of the cathode ray tube to which the bias yoke 1 is attached, and further reduces the manufacturing cost. On the other hand, the lower limit of each 値 is determined by the allowable 値 with respect to the increase in temperature with respect to the yoke 1. Therefore, by selecting these sizes to be longer than the above sizes, the increase in temperature to the yoke 1 can be suppressed, that is, obtained Reduced power consumption losses. Therefore, compared with the above-mentioned deflection yoke 1 of the above-mentioned size, it is possible to form a simpler circuit for driving the deflection yoke 1, or to make the parts used here, such as the capacitance of a transistor, smaller, to help reduce the cost. Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs. As shown in Figure 4, when the horizontal deflection line 圏 2, the vertical deflection coil 3, and the magnetic core 4 which constitute the deflection yoke 1 are assembled, the subsequent devices must be related to The relationship of the relevant positions of each part is formed. That is, every distance, such as the distance between the open side end of the magnetic core 4 and the open side end of the horizontal deflection coil 2 and the open side end of the magnetic core 4 and the vertical deflection line 圏 3 The distance d between the open side ends is determined to be at least greater than the distance on the neck side and as large as possible. And for the horizontal deflection coil 2, the vertical deflection line 圏 3, and the magnetic core 4, it must be attached to the neck of the cathode ray tube and maintain this positional relationship. This paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm) -20- 46 81 94 A7 ----- B7__ V. Description of the invention (18) Figure 9 shows the bias yoke 1 according to the present invention. An illustration of another embodiment. In the figure, the distance d defined between the open side end of the magnetic core 4 and the open side end of the horizontal deflection line _ 2 and the change in v LMF generated by the deflection yoke 1 are shown. The relationship between rates. From this result, it can be known that the longer the distance d, the lower the V L M F is, that is, in other words, by setting the magnetic core 4 as far away as possible from the phosphor screen of the cathode ray tube, VLMF can be reduced. Therefore, 'Although the positional relationship of the components constituting the deflection yoke 1 is shown in FIG. 10, in order to satisfy the standard for VLMF (equal to or less than 2 5 ηT)', it is necessary to determine the opening side end and the horizontal deflection between the magnetic core 4 The distance d between the open side ends of the coil 2 is equal to or less than 15 mm »As mentioned earlier, the configuration and size of the deflection yoke 1 used in the cathode ray tube 'its neck diameter is equal to or greater than 0 2 4 mm and equal to Or less than 0 2 5mm, and the deflection angle is equal to or greater than 97 ° and equal to or less than 105 °, that is, the size a of the horizontal deflection line ,, the size b of the vertical deflection line 圏, and the size c of the magnetic core Equal to or greater than about 80 mm and equal to or less than about 100 mm, equal to or greater than about 50 mm and equal to or less than about 70 mm, and equal to or greater than about 30 mm and equal to or less than about 50 mm, further compared The best are equal to or greater than about 90 mm and equal to or less than about 9 5 m, equal to or greater than about 6 ◦ mm and equal to or less than about 6 5 mm, and equal to or greater than about 4 mm and equal to or less than about 4 5 mm, Among them, the open side end of the magnetic core 4 and the horizontal bias to the coil 2 The side ends of the opening are separated by a distance equal to or greater than 15 mm to obtain the essential characteristics of the bias yoke 1, without using the offset line widely used in conventional techniques, and to reduce the cost caused by the bias yoke 1. Paper size applies to China National Standard (CNS) A4 (210 X 297 mm) (Please read the precautions on the back before filling this page) One pack! ----- Order ----- Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs-21-4.6 81 94 No. 88 U1874 Patent Application Chinese Manual Amendment Page A7 B7 iij The invention explains (19) the V LMF and suppresses the generation and non-convergence of geometric distortion. Hereinafter, another embodiment of the present invention will be described. Figure 11 shows the relationship between the distance e defined between the open side end of the magnetic core 4 and the open side end of the vertical deflection line 圏 3 and the change rate of E L M F generated by the deflection yoke 1. From this result, it can be seen that the longer the distance e, the lower the ELMF 値, that is, in other words, by setting the magnetic core 4 as far away as possible from the open side end of the vertical deflection coil, the ELMF 降低 can be reduced. Therefore, although the positional relationship of the parts constituting the deflection yoke 1 is shown in FIG. 12, in order to meet the standard 値 (equal to or less than 200 nT) for E LMF, it is necessary to decide between the open side end of the magnetic core 4 and the vertical The distance e between the open side ends of the deflection coils 3 is equal to or greater than 5 mm. As mentioned above, the configuration and size of the deflection yoke 1 used in the cathode ray tube has a neck diameter equal to or greater than 0 2 4 mm and equal to or less than 0 2 5 mm, and the deflection angle is equal to or greater than 97 ° and equal to or greater than Less than 105 °, that is, the size a of the horizontal deflection coil, the size b 'of the vertical deflection coil, and the size c of the magnetic core are respectively equal to or greater than about 80 mm and equal to or less than about 100 mm, equal to or greater than about 50 mm and equal to or less than about 7 Omm, and equal to or greater than about 3 Omm and equal to or less than about 50 mm, further preferably equal to or greater than about 90 mm and equal to or less than about 9 5 mm, equal to or greater than About 60 mm and equal to or less than about 6 5 mm, and equal to or greater than about 40 mm and equal to or less than about 4 5 mm, wherein the open side end of the magnetic core 4 and the open side end of the vertical deflection line 以 3 are A distance separation equal to or greater than 5 mm is used to obtain the essential characteristics of the yoke 1, but not widely used. This paper is applicable to the Chinese National Standard (CNS) A4 specification (210X297 mm). (Please read the precautions on the back first. (Fill in this summer again)-Outfit.-Economy Printed by the Ministry of Intellectual Property Bureau, Industrial Cooperative Cooperatives-22- 46 81 94 A7 B7 V. Description of the Invention (2) The offset coil of the conventional technique is used to reduce the ELMF caused by the bias to the yoke 1 and suppress it The generation and non-convergence of geometric distortion. As mentioned above, by attaching a bias yoke to the neck of the cathode ray tube and setting it so that the level relative to the open side end of the magnetic core 4 is biased toward the open side of the coil 2 The distance d at the end and the distance e with respect to the opening side of the vertical deflection coil 3 are as large as possible, which not only reduces unnecessary magnetic field radiation (ie, VLMF and ELM. F) generated by the deflection yoke 1, but is not widely used. It is used in the offset line of the conventional technique, and it can also suppress the occurrence of the destruction of the horizontal and vertical deflection sensitivity, and the generation and non-convergence of geometric distortion. Furthermore, it can help to reduce the shape of the deflection yoke and reduce it. Weight, as well as reducing manufacturing costs. As mentioned previously, although the foregoing describes the configuration and dimensions of the deflection yoke 1 used in a cathode ray tube, for example, its neck diameter is equal to or greater than 2 4 mm and equal to or less than 0 2 5 mm 'And The angle is equal to or greater than 97 ° and equal to or less than 105 ° as a representative example, but it goes without saying that if the diameter of the neck is equal to or greater than 0 1 8 mm and equal to or less than ^ 2 6 mm 'or more specifically When equal to or greater than 0 2 2 mm and equal to or less than 0 2 6 mm 'and the deflection angle is equal to or greater than 9 0 ° and equal to or less than 1 1 5 °' or more specifically equal to or greater than 9 5 ° and equal to or less than 1 1 0 ° The above effects can also be easily obtained. Next, a further embodiment according to the present invention will be described. This embodiment is a cathode ray tube 'equipped with the above-mentioned deflection yoke, and its side view is shown in Fig. 13, and a part of it is shown by cutting. Moreover, the cathode ray tube device of this embodiment includes a deflection yoke 1 ′ a horizontal deflection coil 2 ′ a vertical deflection line 圏 3 ′ (please read the precautions on the back before filling in this page), sincerely order! 1-line, printed by the Intellectual Property Bureau of the Ministry of Economic Affairs, Consumer Cooperatives. This paper is printed in accordance with Chinese National Standard (CNS) A4 (210 X 297 mm) -23- 4681 94 A7 B7 V. Description of the invention (21) Magnetic core 4. Separator 5 for insulation, magnetic body 6 for auxiliary vertical line ,, an auxiliary vertical line 圏 7, one end cover 8, electron gun 9 ′, static convergence magnet 10, and phosphor screen 12. In the figure, a deflection yoke 1 is attached to a neck portion of a cathode ray tube 11 having a phosphor screen 12 in front, and an electron gun is also attached to a neck portion of the cathode ray tube 11. This deflection yoke 1 has a structure in which a horizontal deflection coil 2, a vertical deflection line 圏 3, and a magnetic core 4 are made of a magnetic body and provided on an outer periphery. Furthermore, a magnetic body 6 for an auxiliary vertical coil is provided on the side of the electron gun 9, and an auxiliary vertical coil 7 is wound thereon. The cathode ray tube 11 used in this cathode ray tube device has a large or wide deflection angle. Therefore, when the conventional deflection yoke is attached to it, it is difficult to include the drive circuit of the deflection yoke without substantially changing all parts. To achieve the above purpose. However, by using the above-mentioned deflection yoke 1 of the present invention, not only the occurrence of geometric distortion and non-convergence can be suppressed, but also a cathode ray having a wide deflection angle characteristic satisfying the standard chirp of unnecessary magnetic field radiation (VLMF and ELMF) can be obtained. Tube device, except for the deflection yoke 1, it is not necessary to change all parts, and it will not cause damage to the horizontal and vertical deflection sensitivity of the important characteristics of the cathode ray tube. The following describes further embodiments according to the present invention. This embodiment is a display device in which a cathode ray tube having the above-mentioned deflection yoke 1 is installed, and its structure is shown in Fig. 14. In the figure, there are input terminals 1 4 for video signals, input terminals 15 for horizontal synchronization signals, input terminals 16 for vertical synchronization signals, video circuits 17 'horizontal deflection circuit 18, vertical deflection circuits 1 9', and high voltage. Circuit 20, of which the parts shown in Figure 13 are applicable to the Chinese National Standard (CNS) A4 specification (210 X 297 mm) at the same paper size (please read the precautions on the back before filling this page). / ^ -------- Order --------- line 'Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economics -24- A7 4 6 81 _____B7_______ V. Reference Number of Invention Description (22) Represented to omit its description. After being processed by the signal in the video circuit 17, it is supplied from the video input terminal (please read the general matter on the back before filling this page) 1 4 The input video signal is supplied to the cathode ray tube 1 1. Furthermore, the horizontal synchronization signal input from the input terminal 15 is supplied to the horizontal deflection circuit 18 ', where the horizontal deflection current ih is formed according to the horizontal synchronization signal. This horizontal bias current I h is supplied to the horizontal bias coil 2 biased to the yoke 1. On the other hand, part of the above-mentioned horizontal synchronization signal is also supplied to the high-voltage circuit and printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs. Moreover, the vertical synchronization signal input to the input terminal 16 is supplied to the vertical bias circuit 19, where a vertical bias current Iv is formed. Furthermore, this vertical bias current I v is supplied to the vertical bias coil 3 of the bias yoke 1. In this way, the electron beam emitted by the electron gun according to the signal processed in the video circuit 17 is deflected by the magnetic field formed by the horizontal deflection current Ih and the vertical deflection current Iv, and is excited at a predetermined position on the phosphor screen 12 Lighting materials. By applying the cathode ray tube equipped with the above-mentioned deflection yoke 1 to this display device, a display device with a wide deflection angle characteristic can be achieved to meet the standard 値 of unnecessary magnetic field radiation (such as VLMF and ELMF), except for the deflection yoke In addition, there is no need to change all the components, such as the horizontal deflection circuit 18, the vertical deflection circuit 19, and the video circuit 17, etc., which can use conventional components without destroying the horizontal and vertical deflection sensitivity, and can also suppress Geometric distortion and non-convergence. As fully explained above, according to the present invention, the effect of reducing unnecessary magnetic field radiation can be obtained without using the offset line 圏, and the sensitivity of the horizontal deflection line 垂直 and the vertical deflection coil becomes high, thereby helping Suppresses geometric distortion and non-convergence. Furthermore, the present invention can not only bias the yoke itself. The paper size is applicable to China National Standard (CNS) A4 (210 X 297 mm) -25-
Q A A7 B7 五、發明說明(23 ) 之尺寸小和重量輕,且可非常有效的降低偏向軛之製造成 本。 本發明並不限於上述之實施例,且於此仍可達成各種 改變和修飾,但其仍屬本發明之精神和範疇。因此,本發 明之精神和範疇應由下述申請專利範圍界定之。 (諝先閲婧背面之注意事項再填寫本頁) 經濟部智慧財產局員工消費合作社印製 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -26-Q A A7 B7 5. The invention description (23) is small in size and light in weight, and can very effectively reduce the manufacturing cost of the bias yoke. The present invention is not limited to the above-mentioned embodiments, and various changes and modifications can be achieved here, but it still belongs to the spirit and scope of the present invention. Therefore, the spirit and scope of the present invention should be defined by the following patent application scope. (谞 Please read the precautions on the back of Jing before filling out this page) Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs This paper applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm) -26-