M322055 八、新型說明: 【新型所屬之技術領域】 • 本創作係有關於一種高®氣體放電燈泡結構 ,尤其是 .指一種應用於提供較高亮度的照明需求(如投影機、交通 玉具、或其它特殊照明器具等)用途,具有促進燈泡的啟 動率並此夠具有隔絕外部氣流之保温效果,以達到減 =散熱時’因冷熱過程產生的應力所造成的爆裂。 _ 【先别技術】 (如源的應用技術中,由於高壓氣體放電燈泡 、-要束广汞燈:能夠達到投影機所要求的光亮度、色 I被具有覆蓋整個可見光全部範®的發㈣譜,因 此被大抑的投影機作為内部發光光源使用。 =3氣體放電燈泡構造,如第4圖示,其燈泡 位…有奋匕3有一石英管(3)’該石英管的管體中間部 位§ 又有一充以可電離氣 間内部設有二個電極(32) ::31)’並於該放電空 英管兩端密封部位(33)的導電=包覆在石 導電體則分別連接有一拖出密封部位的導^支撐,而各 連接點所構成。而上述傳統構造的燈 5)作 係被支撐Μ於-反射罩(36)的内部。貫降建用時, 在而壓氣體放電燈泡的技術裏 時的啟動脈衝電壓速率關係到電壓大小,砲冷 係到燈泡的啟動速率。在—氣體密度條件下,密度則關 ’對、突問 5 M322055 提供足量的υν光,將有助於燈泡的促進啟動,則為業界一 習知的知識。再者,燈泡本身會產生極高的溫度,為^避 免累積熱能造成機體内部組件及燈泡本身的損壞,利用几 扇來進行散熱為常見的手段,然而燈泡散熱時,可能會= 冷熱過程產生的應力造成其石英管體爆裂。 曰 習式應用於高壓氣體放電燈泡的卯促 國内公開第2GG4G7935號專利案所揭露者即為其^ , =在,泡的石英管-密封帶内料有—錢密腔,並於 该小軋谘腔内充以可電離氣體, 、 刀緣放射電子來產生UV光。這㈣^^片狀的導電體 然具有結· _實施效果f _構設計,雖 ^ ^ ^ ^ ^ ^ W “、、而其將小軋密腔形成於石 =官的㈣㈣部时式,料致其 有限’容易造成用以促進啟動的 =擴: 其亦仍存在著燈泡的石英管體可能在散熱:二= 過程產生的應力所造成的爆裂問題。 7… 鑑於上述,如何提供—種兼具有最佳化燈泡促進啟動 及有效減少燈泡散熱時,因冷熱過程產生的應力所 k成之爆錄況的焉壓氣體放電燈泡結構,即為本案設計 之動機及技術重點所在。 【新型内容】 構=二目的在提供—種高壓氣體放電燈泡結 構’其躲燈泡早①❸卜部結合有—適 使啟動燈泡時,能_時產生 u v m 足夠的UV光源來促進該燈 6 M322055 果並能T用該UV光源結構產生-隔絕外部氣流 包含===電高壓氣體放電燈泡結構,係 外部的㈣結構所構成,=與6;=:=泡= 管的管體中間部位設有一 主要係在一石央 於該放電空間内部設有二二:電::體的放電空間’並 二在石英管兩端密封部位的導電體連:== = 則分別連接有一;屮念^ A 。文保,而各V電體 成。上述uv光㈣構係| =位的導線作為電連接點所構 形成有一充以可電離_:=元1封部位外圍處, :其尖=小氣室並朝向燈泡單元之放ί 置’ -金屬線圈捲繞在小 間方向的汉 -端連接於金屬針的末端, ’該金屬線圈其線體 一密封部她㈣導線作紐連mr錢泡單元另 高壓氣體放電燈泡結構, 斤構成。由上述本創作 電場作用,小氣室⑽ ϋ時’配合金屬線圈的 電子發射(即尖端放電原理)而大端即能同步進行有效的 光有效進入燈泡單元的放電空生υν光,並使產生的UV 效果。 而達到促進燈泡啟動的 上述本創作高壓氣體放 氣室係形成於燈泡單元的㈣,= t_uv光源結構的小 具有隔絕料氣流之ml b’聽触燈泡單元 皿效果’以達到減少燈泡散熱時, 7 M322055 因冷熱過程產生的應力所造成的爆裂。 【實施方式】 關於本創作的主要技術内容及實施功效,藉由以下配 合有圖示的較佳實施例說明,當能更詳細的揭露: 首先請配合第卜2圖所示,為本創作的一實施例,本 創作高壓氣體放電燈泡結構,係含由燈泡單元〇)及結合 於燈泡單元外部之UV光源結構(2)所構成,其中: 該燈泡單元(1),係在一石英管的管體中間部位設有 一充以可電離氣體的放電空間(11),並於該放電空間(11) 内部設有二個電極(12、13),該二個電極(12、13)係分 別由包覆在石英管兩端密封部位(14)的導電體(15)連 結支撐,而各導電體(15)則分別連接有一樞出密封部位 (14)的導線(16)作為電連接點所構成; 另該UV光源結構(2),係含由在燈泡單元(1)的一 欲封部位(14)外圍處,形成有一充以可電離氣體的小氣 至(21) ’ 一支具尖端的金屬針(22)以其尖端穿入小氣室 (21)並朝向燈泡單元之放電空間(η)方向的設置,一 金屬線圈(23)捲繞在小氣室(21)的外圍,該金屬線圈 (23)其線體一端係連接於金屬針(22)的末端,其線體 另一端則與燈泡單元另一密封部位(14)樞出的導線(16) 作電性連接所構成; 由上述本創作高壓氣體放電燈泡結構,啟動燈泡時, 配合金屬線圈(23)的電場作用,金屬針(22)的尖端即 能夠在小氣室(21)内進行電子發射而產生UV光,當產生 8 M322055 的uv光進入燈泡單元的放電空間(11)内部時,即能達到 促進該燈泡啟動之效果;並藉由小氣室(21)所形成的隔 絕外部氣叙健效果,纽減少燈泡散熱時,因冷熱過 程產生的應力所造成之爆裂狀況。 在上述本創作的實施例中,由於本創作的小氣室(21) 是形成於燈泡單元⑴的外部,因此,本_的uv光源 結構’能夠輕易改變其小氣室(21)的空間大小及内部的 填充氣體,進而達到提供放電空間(11)足夠的叭光源之 可控制性的實施效益。而本創作的小氣室(21)可以是'利 用中空的石英管件燒結加玉而成,這樣的結構方式為^今 ㈣與設備可㈣完成,並符合本創作上揭方便輕易改變 小氣室(21)的空間大小及内部填充氣體的實施效果。 請再配合第3圖示,上述本創作的υν光源結構(2), 其實際運用形態更包含有:小氣室(21)的内部或外部表 面進一步形成有反射層(24),該反射層(24)係形成則、 氣室(21)與放電空間(11)相接面以外的部位,而該反 射層(24)更可以採用鍍覆、或刷塗、或印刷等方式固著 設置,藉此,能夠將產生於小氣室(21)之UV光更直接有 效的導向燈泡單元(1)的放電空間(11)。 請再配合第2圖示,在一個更詳細的實施態樣中本 虐:作所指的金屬針(22)以鉬導線材料為其中一種運用形 :再者本創作小氟室(21)内部係充以可電離的惰性 乱體,該惰性氣體較佳是以Ar (氬)/Hg (汞)的混合氣, 對於促進燈泡啟動的目的而言,上述混合氣為一適當有效 9 M322055 的實批例=〜氣僅係方便說明之例子,並不以 其為實:=-限制,舉凡可達到上述紅(氮(采) 混合 =其它替代性單―舰氣體(如氣、氖、 氬均為本創作之應用範圍。 紅上所述,传知本創作古 別作回壓氣體放電燈泡結構,其利 祕UV光_構的特職計,相較於習式 傳統的南壓氣體放電燈泡,顯然能達到更增促進燈泡啟動 效果;相^已知具有促進啟動結構㈣紐計,本創作 亦具有兼備提供充份的UV光,芬士 ^ 70及有效減少燈泡散熱時,因 冷熱過程產生_力所造成之爆㈣況的雙重效果丨誠屬 同類產品之另-兼備新穎性與進步性M322055 VIII. New Description: [New Technology Area] • This creation is about a high-Gas Discharge Bulb structure, especially one that is used to provide higher brightness (such as projectors, traffic jade, Or other special lighting fixtures, etc., have the effect of promoting the starting rate of the bulb and the insulation effect of the isolated external airflow to achieve the bursting caused by the stress generated by the cold and hot process during the heat dissipation. _ [First technology] (In the application technology of the source, due to the high-pressure gas discharge bulb, the beam of the mercury lamp: the brightness required by the projector, the color I is covered with the entire visible light of the visible light (4) Spectrum, so the projector is used as the internal light source. =3 gas discharge bulb construction, as shown in Figure 4, its bulb position... there is a quartz tube (3) 'the middle of the tube of the quartz tube The part § is further provided with two electrodes (32)::31)' in the interior of the ionizable gas chamber, and the conductive portion of the sealing portion (33) at both ends of the discharge air tube is coated with the stone conductor and respectively connected. There is a guide support that pulls out the sealing portion, and each connection point is formed. The conventionally constructed lamp 5) is supported by the inside of the reflector (36). In the case of continuous downtime construction, the starting pulse voltage rate in the technology of the gas discharge bulb is related to the voltage level, and the gun cooling is the rate at which the bulb is started. Under the condition of gas density, the density is close. </ STRONG </ STRONG> 5 M322055 Provides a sufficient amount of υν light, which will help the bulb to promote the start, which is a well-known knowledge in the industry. In addition, the bulb itself will generate extremely high temperatures. In order to avoid the accumulation of thermal energy, the internal components of the body and the bulb itself are damaged. It is a common method to use several fans to dissipate heat. However, when the bulb is dissipated, it may be caused by the hot and cold process. The stress caused the quartz tube to burst. The application of the application to the high-pressure gas discharge bulb is disclosed in the domestic patent No. 2GG4G7935, which is disclosed in the patent, ^, =, in the quartz tube-sealing tape of the bubble, there is a money cavity, and in this small The rolling consultation chamber is filled with an ionizable gas, and the edge of the blade emits electrons to generate UV light. This (four) ^^ sheet-like conductor has a knot _ implementation effect f _ structure design, although ^ ^ ^ ^ ^ ^ W ", and it will form a small rolling cavity formed in the stone = official (four) (four) part of the time, The material is limited to 'prone to promote the start-up = expansion: it still exists in the bulb of the quartz tube body may be in the heat: two = process caused by the stress caused by the burst problem. 7... In view of the above, how to provide - The structure of the pressurized gas discharge bulb with the optimized stress bulb to promote the startup and effectively reduce the heat dissipation of the bulb, due to the stress generated by the hot and cold process, is the motivation and technical focus of the design of the case. Contents] The second purpose is to provide a high-pressure gas discharge bulb structure. Using the UV light source structure to generate - isolated external air flow comprising === electric high-pressure gas discharge bulb structure, is composed of external (four) structure, = and 6; =: = bubble = tube in the middle of the pipe body is provided with a main line in a stone Centralize the discharge There are two internal two: electricity:: the discharge space of the body' and the second conductor in the sealed part of the quartz tube is connected: == = then one is connected; mourning ^ A. Wenbao, and each V electric body The above-mentioned uv light (four) structure | = position of the wire is formed as an electrical connection point with a chargeable ionization _: = element 1 at the periphery of the seal, its tip = small air chamber and facing the bulb unit - The metal coil is wound in the direction of the small space and the end is connected to the end of the metal needle. 'The metal coil has a wire body and a sealing portion. The fourth wire is used as a new high-pressure gas discharge bulb structure. The creation of the electric field, the small air chamber (10) ϋ when 'cooperating with the metal coil's electron emission (ie, the principle of tip discharge) and the big end can simultaneously perform effective light effective into the bulb unit's discharge air υ ν light, and the resulting UV effect The above-mentioned high-pressure gas venting chamber of the present invention which is used to promote the activation of the light bulb is formed in the bulb unit (4), and the small t-uv light source structure has a flow of the insulating material flow b' to hear the light bulb unit's effect to reduce the heat dissipation of the bulb. , 7 M322055 Burst caused by the stress caused by the hot and cold process. [Embodiment] The main technical contents and implementation effects of this creation are explained in the following with the preferred embodiment shown in the figure. According to an embodiment of the present invention, the high-pressure gas discharge bulb structure of the present invention comprises a bulb unit (〇) and a UV light source structure (2) coupled to the outside of the bulb unit, wherein: The bulb unit (1) is provided with a discharge space (11) filled with an ionizable gas in a middle portion of a tube of a quartz tube, and two electrodes (12, 13) are disposed inside the discharge space (11). The two electrodes (12, 13) are respectively supported by a conductor (15) coated on the sealing portion (14) at both ends of the quartz tube, and each of the conductors (15) is respectively connected with a pivoting sealing portion (14). The wire (16) is formed as an electrical connection point; the UV light source structure (2) is formed by an ionizable gas formed at a periphery of a desired portion (14) of the bulb unit (1). Small gas to (21) 'one with a tip The metal needle (22) is inserted into the small air chamber (21) with its tip end and oriented toward the discharge space (η) of the bulb unit, and a metal coil (23) is wound around the periphery of the small air chamber (21), the metal coil ( 23) one end of the wire body is connected to the end of the metal needle (22), and the other end of the wire body is electrically connected with the wire (16) pivoted from the other sealing portion (14) of the bulb unit; The structure of the high-pressure gas discharge bulb is created. When the bulb is activated, the tip of the metal needle (22) can emit electrons in the small air chamber (21) to generate UV light when the light source of the metal coil (23) is activated, when 8 M322055 is generated. When the uv light enters the discharge space (11) of the bulb unit, the effect of promoting the activation of the bulb can be achieved; and the external air nucleus effect formed by the small air chamber (21) reduces the heat dissipation of the bulb due to hot and cold heat. The bursting condition caused by the stress generated by the process. In the above-described embodiment of the present invention, since the small air chamber (21) of the present invention is formed outside the bulb unit (1), the uv light source structure of the present _ can easily change the size and interior of the small air chamber (21). The filling gas, in turn, achieves the controllability of providing controllability of the source of light sufficient for the discharge space (11). The small air chamber (21) of this creation can be made of 'sintered quartz tube fittings and jade. This structure is completed by the current (4) and equipment (4), and it is easy to change the small air chamber according to the convenience of this creation. The size of the space and the effect of the internal filling gas. Please cooperate with the third figure, the above-mentioned υν light source structure (2), the practical application form further includes: the inner or outer surface of the small air chamber (21) is further formed with a reflective layer (24), the reflective layer ( 24) forming a portion other than the interface between the gas chamber (21) and the discharge space (11), and the reflective layer (24) may be fixed by plating, brushing, or printing. Thereby, the UV light generated in the small air chamber (21) can be directed to the discharge space (11) of the bulb unit (1) more directly and efficiently. Please cooperate with the second figure, in a more detailed implementation, the abuse: the metal needle (22) referred to as the molybdenum wire material is one of the applications: the creation of the small fluorine chamber (21) inside It is filled with an ionizable inert body. The inert gas is preferably a mixture of Ar (argon) / Hg (mercury). For the purpose of promoting the start of the bulb, the mixture is a suitable and effective 9 M322055. The batch example = ~ gas is only an example of convenient explanation, and it is not true: =- limit, where the above red (nitrogen) is mixed = other alternative single-ship gas (such as gas, helium, argon) For the scope of application of this creation. Red said, the knowledge of this creation of the ancient back pressure gas discharge bulb structure, its secret UV light _ structure of the special job, compared to the traditional traditional South pressure gas discharge bulb Obviously, it can achieve a more effective promotion of the light bulb start-up effect; the phase is known to have a boosting start-up structure (four), and the creation also has sufficient UV light, and the Fenshi ^ 70 and effectively reduce the heat dissipation of the bulb due to the hot and cold process. _ force caused by the explosion (four) conditions of the dual effect of 丨 is a similar product The other - both novelty and progressiveness
申請,祈請肖局惠予詳核,並早曰 U 以上所述,僅為本創作提出 4 巧 '、、齊 杈出之較佳實施例範疇,當不 應以之作為本創作實施時之唯—彳 侷限,故舉凡任何熟習該 項技術或知識者在本創作技術領域肉,、 3 Μ ’所為可輕易思及之 單純等效的變化或修飾者,皆為本創 張之實施範圍,併予陳明。 β Μ範圍所主 【圖式簡單說明】 第1圖:係本創作實施例的外觀平視圖。 第2圖··係本創作實施例的剖面結構平视圖。 第3圖··係本創作實施例的小氣室具 回。 第4圖:係-習式高壓氣放電燈“ 意圖。 J〜稱不意圖。 【主要元件符號說明】 M322055To apply, I would like to ask Xiao Xiaohui to give a detailed check, and I have already mentioned the above. It is only for the purpose of this creation, and the scope of the preferred embodiment is not to be used as the implementation of this creation. Only the limit of 彳 , 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故And to Chen Ming. The main range of β Μ [Simplified description of the drawing] Fig. 1 is a plan view of the appearance of the present embodiment. Fig. 2 is a plan view showing the cross-sectional structure of the present embodiment. Fig. 3 is a small gas chamber of the present embodiment. Figure 4: Department-custom high-pressure gas discharge lamp "Intent. J~ not intended. [Main component symbol description] M322055
《先前技術》 (3)…·. ……石英管 (31)… ……放電空間 (32)… ……電極 (33)… ......密封帶部位 (34)… ……導電體 (35)… ……導線 (36)… ……反射罩 《本創作》 (1)…·· •…燈泡單元 (11)… ……放電空間 (12)… ......電極 (13)… ......電極 (14)… ……密封部位 (15)… ……導電體 (16)… ......導線 (2)…·· .......UV光源結構 (21)… ……小氣室 (22)… ......金屬針 (23)… ......金屬線圈 (24)…, ......反射層 11"Prior Art" (3)...·.......Quartz tube (31).........Discharge space (32).........Electrode (33).........Sealing band part (34).........Electrical conductor (35)... ...... wire (36)... ...... reflector hood "this creation" (1)...·· •...light bulb unit (11).........discharge space (12).........electrode (13 )... ......electrode (14)... ...... sealing part (15)... ......conductor (16)... ...... wire (2)...·· .......UV Light source structure (21)... ...... small air chamber (22)... ...... metal needle (23)... ...... metal coil (24)..., ... reflective layer 11