200923983 九、發明說明: 【發明所屬之技術領域】 之結^種組合式線架之換流器結構,係—種利用電磁感應而產生電力轉換 【先前技術】200923983 IX. Description of the Invention: [Technical Field of the Invention] The inverter structure of the combined wire frame is a type of electric power conversion using electromagnetic induction. [Prior Art]
鹿立==電子設備普及’而部份雜密電子設備紐定之電力來源供 因此市内電力需要㈣換流料電力轉絲置將電力轉換 直流歧流電力,而由法鄉定律可知,該換流器必須具 ,兩獨立之線圈組以及—導磁树形成—磁通路,藉由其中一線圈 而使另—線圈組產生—感應電流,該類換流11已有許多先前 創乍’如巾華關專利公料破5咖2號之「用於冷陰極管換流器之變 ,器」’該創作之構成包括-鐵芯組、—第—繞線架、—第二繞線架以及一 斤—繞線其中4第…第二或第三繞線架中之其—繞有—初級圈,而 另外兩繞線架繞有各次級圈,而可從其圖式得知該第―、第二或第三繞線 架大致上係彼此平行併排組成,而該換流雜該鐵芯組自該第一、第 二與第三繞線架之兩端嵌人固定,因此難以縱㈣接另—換流器以擴充其 驅動負載之數量,且橫向連接三個躲麵需之·較多、線架面積又較 大,因而成本難以降低,具有其待改進之處。 【發明内容】 、有鑑於上述先前換流器結構仍可進一步改善,本發明係提供一種組合 式線架之換流胃結構,齡其結構之組合靖充其實祕以及降低成本。 本發明為一種組合式線架之換流器結構,該組合式線架之換流器結構 主要包括-殼體、-第-繞線架、―第二繞線架以及—第三繞線架,該第 一繞線架、第二繞線架以及第三繞線架組設於該殼體内,該殼體兩端各設 一穿設口,該第一、第二與第三繞線架各設有一貫孔與該穿設口形成一通 道供一鐵芯組穿過而串接,其中該第一、第二與第三繞線架各以至少一絕 緣擋板分別區隔出一低壓繞組槽、一第一高壓繞組槽以及一第二高壓繞組 槽,而該第一繞線架、該第二繞線架與該第三繞線架係組設於該殼體中, 且固定於該線架組設槽由該鐵芯組穿入而串接,該組合式線架之換流器結 200923983 構可依不同使用情況而利用該鐵芯組串接成適宜之繞組數量,達到前述擴 充該換流器實用性以及降低成本之目的。 【實施方式】 有關本發明之詳細說明及技;ί标内容,現就配合圖式說明如下: 請參閱圖1、圖2與圖3,本發明為一種組合式線架之換流器結構,該 組合式線架之換流器結構係由一第一繞線架1、一第二繞線架2、一第三繞 線架3以及一殼體4所構成,該殼體4具有一容置空間42、一線架組設槽 43,並於該線架組設槽43之兩端各設一穿設口 41,該第一繞線架1、該第 二繞線架2以及該第三繞線架3之中心各設有一與複數導線5 (示於圖5) 區隔之貫孔14、24、34,該第一繞線架1、該第二繞線架2與該第三繞線 架3設有複數引線接腳15、25、35各別連接複數導線5 (示於圖5 )以輸 入與輸出電力,該第一繞線架1係以兩端之絕緣擋板13區隔出一低壓繞組 槽11,該第二繞線架2係以該絕緣擋板23區隔出一第一高壓繞組槽21, 該第三繞線架3係以該絕緣擋板33區隔出一第二高壓繞組槽31,該低壓繞 組槽11、該第一高壓繞組槽21與該第二高壓繞組槽31中設有至少一繞組 槽擋板111、211、311,且為了該供該導線5 (示於圖5)纏繞後連接該引 線接腳15、25、35而在該第二繞線架2與該第三繞線架3之繞組槽擋板21工、 311上設至少一引線槽212、312引導導線5穿過,而該第一繞線架丨、該 第一繞線架2與該第三繞線架3係串接並組設於該殼體4中,且固定於該 線架組設槽43 ’且該第-、第二與第三繞線架】、2、3之貫孔14、24、% 與該殼體4之兩穿設口 41相通’構成-通道供―鐵芯組7 (示於圖9至圖 ^中)串接該第-、第二與第三繞線架!、2、3形成一磁封閉迴路,藉由 :亥鐵心^7串接該第-、第二與第三繞線架卜2、3使該低壓繞組槽^與 :亥第-回壓繞組槽21、第二高壓繞組槽Μ之間可藉由纖之導線5繞組通 過電抓而產生電磁感應,形成—換流II結構(如圖*所示);請參麵5, 該圖為本發明之剖面圖,該第―、第二與第三繞線架卜2、3並不限定其 W方,其排列之順序可如圖5中’該第二繞線架2、該第一繞線架上以 =該第三繞線架3以該貫孔24、14、34貫通之方向湖並組設於該殼體4 中’該第-繞線架i係位於該第二繞線架2與該第三繞線架3之間成—直 6 200923983 列設置於該殼體4之容置空間π中,哕梦 該第三繞線架3於相接之一端各設中有至1 第一繞線架1、該第二繞線架2與 高組與健繞組,該鐵絕緣播板13、23、33以隔絕該 串接該第一齡、該 路,形成可供電流經過而產生電顧應之換締。,’、’磁封閉迴 上述之實施例中,該鐵芯组<7τ 鐵芯組7可利用該殼體4開放式之穿設口41:::二:合加並且該 器結構,可將複數第-繞線架卜複數第 ?及= 第線ς之換流 串接複數個負载6 (示於圖7),請再參===繞線架3 由該鐵芯組7㈣之―圖,該健繞組槽u ς彳^線架藉 磁感應而使該第-高觀組槽21以及該第二 ^ ^電力後,經過電 力而驅動八個負載6,並且可藉由串接複數^、f、、且槽31感應—輸出電 載6之能力,擴充其應用範圍。 、〜、而進一步擴充其驅動複數負 請參閱圖9至圖13,該等圖式為本 該第一繞線架i與該第二繞線架2之鐵芯例,前段所述穿設 兩E型鐵芯穿設於該第—繞線架丨與該第 ^^其城触合,可由 為兩截面概呈U狀之鐵芯穿設(如圖IG所ζ2 (如圖9所示),或者 型鐵芯之組合(如圖11所示)或者-可為兩Ε型鐵芯與一 ί !2所示),且可藉由延長上述鐵怒之長度而串^接〜1型鐵芯之組合(如圖 構;再者,如圖13所示類似梳子ςυι架形成多輸出架 形成複數齡架並聯之雜,且本發明之鐵獅、7°^時串接複數繞線架, 路,並不限定其之形狀與組合。 〜'、·只要可形成一磁封閉迴 雖然本發θ月已以較佳實施觸露如上,然 不限定該第一繞線架卜該第二繞線架2與該第了站用以限定本發明,亦 第-繞線架卜該第二繞線架2與該第三 介線架3串接之順序’該 -組線架可具有-種以上之排列方式,再者可藉由亦可調動排列之順序,使 列組合’例如圖8所示,兩組線架可將該第一,組線架產生更多種排 體4之中央’並且兩組第二繞線架2與第三 ^ 1兩兩相對置於該殼 、木3可分別設於兩第一繞 200923983 f架1之兩側’使該第—繞線架卜該第二繞線架2與該第三繞線架3可任 意組合串接而調整高低屋繞紐位置並組設於該殼體4中,任何熟習此技藝 本發明之精神和範_ ’而所作之些許更mm,皆應涵 蓋/本發种,因此本發明之保護範圍當視後附之中請專利範園所界 為準。Lu Li == electronic equipment popularization' and some of the heterogeneous electronic equipment New Zealand's power source for the city's power needs (four) commutating power, power conversion, and electricity conversion to DC-distributed power, and the law of the law, the change The flow device must have two independent coil sets and a magnetically conductive tree-forming magnetic path, and one of the coils causes the other coil group to generate an induced current. This type of commutating flow 11 has many prior innovations. Huaguan patents broke the No. 5 coffee No. 2 "Changes for cold cathode tube converters", which consisted of - core group, - first winding frame, - second winding frame and One kilogram - one of the four windings of the second or third winding frame - around the primary ring, and the other two windings around each secondary ring, the pattern can be known from the figure ―, the second or third bobbin is substantially parallel to each other and is arranged side by side, and the commutating miscellaneous iron core group is embedded and fixed from the two ends of the first, second and third bobbins, so that it is difficult to longitudinally (4) Connect another-inverter to expand the number of driving loads, and connect three hidden faces in the horizontal direction. Larger area and thus difficult to reduce the cost, which has to be desired. SUMMARY OF THE INVENTION In view of the above-described previous converter structure, the present invention is still further improved. The present invention provides a commutated stomach structure of a combined wire frame, which is a combination of the structure and the cost reduction. The invention relates to a converter structure of a combined wire frame, and the converter structure of the combined wire frame mainly comprises a shell, a first-winding frame, a second winding frame and a third winding frame. The first bobbin, the second bobbin and the third bobbin are disposed in the housing, and a through opening is arranged at each end of the housing, the first, second and third windings Each of the frames is provided with a continuous hole and a passage for forming a passage for a core group to pass through, wherein the first, second and third winding frames are respectively separated by at least one insulating baffle. a low voltage winding slot, a first high voltage winding slot and a second high voltage winding slot, and the first bobbin, the second bobbin and the third bobbin are assembled in the housing and fixed The wire frame grouping groove is penetrated and connected in series by the iron core group, and the combined wire frame inverter structure 200923983 can be connected into a suitable number of windings by using the iron core group according to different use conditions. The foregoing expands the utility of the converter and reduces the cost. [Embodiment] The detailed description and technology of the present invention are described below with reference to the drawings: Referring to Figures 1, 2 and 3, the present invention is a converter structure of a combined wire frame, The inverter structure of the combined bobbin is composed of a first bobbin 1, a second bobbin 2, a third bobbin 3 and a casing 4. The casing 4 has a capacity. The space 42 and the first wire frame are provided with the groove 43 , and a through hole 41 is disposed at each end of the wire frame assembly groove 43 . The first winding frame 1 , the second winding frame 2 and the third The center of the bobbin 3 is provided with a through hole 14, 24, 34 spaced apart from the plurality of wires 5 (shown in FIG. 5), the first bobbin 1, the second bobbin 2 and the third winding The wire rack 3 is provided with a plurality of lead pins 15, 25, 35 respectively connected to a plurality of wires 5 (shown in FIG. 5) for inputting and outputting electric power, and the first bobbin 1 is separated by insulating baffles 13 at both ends. A low-voltage winding slot 11 is formed. The second bobbin 2 is separated by a first high-voltage winding slot 21 by the insulating baffle 23, and the third bobbin 3 is separated by the insulating baffle 33. a second high voltage winding slot 31, At least one winding slot baffle 111, 211, 311 is disposed in the low voltage winding slot 11, the first high voltage winding slot 21 and the second high voltage winding slot 31, and is wound for the wire 5 (shown in FIG. 5). Connecting the lead pins 15, 25, 35 and providing at least one lead slot 212, 312 on the winding bobbin 21 of the second bobbin 2 and the third bobbin 3 to guide the wire 5 through The first bobbin 丨, the first bobbin 2 and the third bobbin 3 are serially connected and assembled in the housing 4, and are fixed to the bobbin assembly slot 43' The first, second, and third bobbins, the through holes 14, 24, and 2 of the 2, 3 are communicated with the two through openings 41 of the housing 4 to form a channel for the core group 7 (shown in Figure 9 to Figure)) The first, second and third reels are connected in series! , 2, 3 form a magnetic closed loop, by: the iron core ^7 serially connected to the first, second and third bobbins 2, 3 to make the low-voltage winding slot ^: Hai-return winding slot 21. The second high-voltage winding slot can be electromagnetically induced by the electric wire of the wire 5 winding, forming a commutation II structure (as shown in FIG. *); please refer to FIG. 5, which is the present invention. In the cross-sectional view, the first, second, and third bobbins 2, 3 are not limited to the W side, and the order of the arrangement may be as shown in FIG. 5 'the second bobbin 2, the first winding The third winding frame 3 is disposed in the housing 4 in a direction in which the through holes 24, 14, 34 pass through. The first winding frame i is located in the second winding frame 2 Between the third bobbin 3 and the third bobbin 3, the 200923983 column is disposed in the accommodating space π of the casing 4, and the third bobbin 3 is disposed at one of the adjacent ends. a winding frame 1, the second winding frame 2 and the high group and the winding, the iron insulating board 13, 23, 33 is insulated from the first age, the road is formed, and the current is passed through The electricity should be replaced. , ', 'magnetic closure back to the above embodiment, the core group <7τ core group 7 can utilize the housing 4 open-type opening port 41::: two: combined and the structure of the device Converting the complex number of the first-winding frame and the commutating line of the first line to the plurality of loads 6 (shown in Figure 7), please refer to === Winding frame 3 from the core group 7 (4) In the figure, the wire winding frame u ς彳 ^ wire frame is magnetically induced to drive the first-high view group slot 21 and the second power, and the eight loads 6 are driven by electric power, and can be connected by a plurality of ^ , f, and slot 31 sense - the ability to output the electric load 6, expand its application range. And further expand the driving complex negative. Please refer to FIG. 9 to FIG. 13 , which are examples of the iron core of the first bobbin i and the second bobbin 2, and the second section is provided with two The E-shaped core is disposed on the first winding frame and is in contact with the first metal, and can be pierced by a core having a U-shaped cross section (as shown in FIG. 9) (as shown in FIG. 9). , or a combination of cores (as shown in Figure 11) or - can be a two-ring type iron core and a ί ! 2), and can be connected to the type 1 iron by extending the length of the iron anger Combination of cores (Fig. 13; further, as shown in Fig. 13, a comb-like frame is formed to form a multi-output frame to form a plurality of parallel blocks, and the iron lion of the present invention is connected in series with a plurality of winding frames at 7°^. The road does not limit its shape and combination. ~ ', · As long as a magnetic closure can be formed, although the present embodiment has been exposed as described above, the first winding frame is not limited to the second winding. The wire rack 2 and the first station are used to define the present invention, and the first-winding frame is connected to the third wire frame 2 in sequence. The wire-frame can have Arrangement above Alternatively, the column combination can be adjusted by arranging the order of the arrays, for example, as shown in FIG. 8, the two sets of wire racks can produce the first, the set of wire racks to generate more of the central portion of the row body 4 and two groups. The second bobbin 2 and the third ^2 are oppositely disposed on the shell, and the wood 3 can be respectively disposed on the two sides of the first winding around the 200923983 f frame 1 to make the second winding of the first winding frame The frame 2 and the third bobbin 3 can be arbitrarily combined in series to adjust the position of the high and low wraps and are assembled in the casing 4, and any of the techniques and techniques of the present invention are somewhat mm. All of them should be covered/this type of invention, so the scope of protection of the present invention is subject to the patent field.
綜上所述,本發明較習知之創作增進上述功效,應已充分符A 3二3定創新專利要件’歸提出申請,懇請貴局心本件發 明專利申Μ案’以勵創作,至感德便。 赞 【圖式簡單說明】 圖1為本發明第一、第二與第三繞線架之立體圖。 圖2為本發明之分解圖(一)。 圖3為本發明之分解圖(二)。 圖4為本發明之立體圖。 圖5為本發明之剖面圖。 圖6為兩組線架1串聯之剖面圖。 圖7為兩組線架串聯之電路示意圖。 圖8為兩組線架另一串聯方式之剖面圖。 圖9為本發明之實施例圖(一)。 圖10為本發明之實施例圖(二)。 圖11為本發明之實施例圖(三)。 圖12為本發明之實施例圖(四)。 圖13為本發明之實施例圖(五)。 【主要元件符號說明】 1 .......第一繞線架 11.......低壓繞組槽 2 .......第二繞線架 21.......第一高壓繞組槽 3 .......第三繞線架 31.......第二高壓繞組槽 200923983 4 .......殼體 41 .......穿設口 42 .......容置空間 43 .......線架組設槽 5 .......導線 6 .......負載 13、 23、33 ...絕緣擋板 14、 24、34 ...貫孔 15、 25、35 ...引線接腳 111、211、311 ..繞組槽擋板 212、312 ....引線槽 7 .......鐵芯組In summary, the present invention enhances the above-mentioned effects by the conventional creation, and should have fully complied with the A 3 2 3 innovating patent requirements, and submits an application, and invites your heart to invent the patent application case to encourage creation, to the sense of virtue. Will. [Simplified illustration of the drawings] Fig. 1 is a perspective view of the first, second and third bobbins of the present invention. Figure 2 is an exploded view (I) of the present invention. Figure 3 is an exploded view (2) of the present invention. Figure 4 is a perspective view of the present invention. Figure 5 is a cross-sectional view of the present invention. Figure 6 is a cross-sectional view of two sets of wire racks 1 in series. Figure 7 is a schematic diagram of a circuit in which two sets of wire frames are connected in series. Figure 8 is a cross-sectional view showing another series connection of two sets of wire frames. Figure 9 is a diagram (I) of an embodiment of the present invention. Figure 10 is a diagram (2) of an embodiment of the present invention. Figure 11 is a diagram (3) of an embodiment of the present invention. Figure 12 is a diagram (4) of an embodiment of the present invention. Figure 13 is a diagram (5) of an embodiment of the present invention. [Description of main component symbols] 1.......The first bobbin 11..Low-voltage winding slot 2.......The second bobbin 21... The first high voltage winding slot 3 .... the third bobbin 31 .... the second high voltage winding slot 200923983 4 . . . housing 41 ... . 穿口口42 ....... accommodating space 43 .... wire rack set slot 5 .... wire 6 .... load 13, 23, 33 ... insulating baffles 14, 24, 34 ... through holes 15, 25, 35 ... lead pins 111, 211, 311 .. winding slot baffles 212, 312 .... lead slots 7 . ... iron core group