M377788 五、新型說明: 【新型所屬之技術領域】 本創作係一種在基座上設有一組以上呈盤狀且相對併 . 列的定子組及轉子組組裝的盤式發電機。 【先前技術】 • 發電機主要係在於將動能轉換為電能,其中動能的來 源有多種’例如有風力、水力或火力,亦有由汽車的傳動 • 軸的動力等’當各種動能的動力經由動力軸輸入至發電機 Φ 内部’即可利用轉子組各轉子上的永久磁鐵與相對設置之 定子組的線圈相互作用後,即可產生電能並經由導線輸出。 以目前所看到使用的發電機,其構造係將轉子組與定 子組安裝設在相對的徑向位置,即在基座的内環側安裝有 • 定子組,由動力軸所連接驅動的轉子組位在定子組的中心 位置’如此動力軸在經由動力源的驅動而轉動時,轉動中 的轉子與定子將因產生磁力切割作用而產生電能,此一設 鲁計雖可產生電能但因受限於構造設計關係,使得整體體積 -所佔空間較大,又由於轉子的外徑為配合定子空間而必須 設計有較大外徑,如此將造成該構件重量增加,損耗了所 輸入的動能進而降低了可產生電能的效率等問題存在。 【新型内容】 本創作者有鑑於前述現有技術的問題,而重新設計一 。產生電能的效率,且可節省所需的空間並可將轉 子組及定子組依需要予以擴充,以提高由動能轉為電能的 效率為其創作目的。 3 為了可達到前述的創作目的,本創作所運用的技術手 段在於提供一種盤式發電機,其包括-基座、一定子組、 —轉子組及一動力輪; 〇亥基座,其為—φ 框體,於其内部形成有一容室; 該定子組,其包括右 L祜有—疋子,該定子具有一盤體並設 有貫穿的轴孔,於礙辦认 ,, 7、盤體的一側面上且位於軸向位置切割 有數個剖槽,於相鄰的-九丨搞 的一。j槽間形成有一磁極,於各磁極 的剖槽處繞設有線圈及連接設有可輸出電能的導線; 該轉子、,且#包括有二轉子且位在二定子t間,該轉 子具有盤體’其相對於定子設有磁極的—側面上形成有若 干以徑向間隔排列並環繞位在周緣處的磁鐵’其數量與定 子所設之磁極的數量㈣,該磁鐵可與$ +的磁極相互作 用,又位在相鄰位置的二磁鐵的磁性為相反,· 該軸桿,其為—桿體可貫穿各轉子並相互結合固定, 該軸桿二端分別貫穿各定子的軸孔呈相互樞設。 所述之盤式發電機,其進一步於基座内設有至少一中 定子組及至少一轉子組,該中定子組具有一盤體並設有一 具貫穿的軸孔,該盤體固定於基座内部,於該盤體的二側 面分別設有一定子,又中定子組的二側面的定子與位在基 座一端的疋子間分別形成有一空間’該空間内設有一轉子 組,該轉子組二側的轉子上所設的磁鐵與定子及中定子組 所設的定子為相對設置。 所述之盤式發電機,其中該定子的盤體上所設的各磁 極與該轉子上相對於各磁極所設的各磁鐵呈環狀排列。 所述之盤式發電機,其中基座與定子組的定子間,於 M377788 其周緣分別形成有突出的結合環與固定環並相互結合固 定。 所述之盤式發電機’其中該轉子組於二相鄰定子的盤 體周緣形成有突出的固定環,於二者之間設有間隔权,以 固定件貫穿固定環與間隔柱予以相互結合固定。 • 所述之盤式發電機’其中該轉子組於二相鄰定子的盤 體周缘形成有突出的固定環,於二者之間設有間隔杈,以 -固定件貫穿固定環與間隔柱予以相互結合固定。 •所述之盤式發電機,其中該定子的軸孔形成為一軸座, 該軸座内設有軸承’軸桿穿設在軸承内。 藉由本創作前述技術手段的運用,其中該可相互作用 的轉子與定子係設計為盤狀,並於其側面上可設有多組相 對應的磁極與磁鐵,可在一定體積之下產生有較大的電 能,因而所設計的發電機可予以小型化並減少空間的使 用’另可依據電能使用的需求,以多組相同構造的轉子組、 疋子”且或中疋子且等併列組合安裝在基座内,具有構造簡 • 單及在組裝上具有較大彈性的功效。 【實施方式】 參看第一及二圖所干,lAl , n^ 本創作所設計的盤式發電機, 其包括一基座(10)、一定j h 子組(20)、一轉子組(30)、一動力 軸(40); 該基座(10),其為—中* r二框體,於該框體的二端形成有 結合環(11 ),且在内部中介虛 τ工處形成一容室(12); 該定子組(20),复白紅_ 匕括二定子(21)(22)且分別安裝在基 座(10)二端的結合環虛 ;處’由於該二定子(21)(22)的構造 5 M377788 為相同’以下僅以其中一定子(21)的構造予以敘述,定子(21) 具有一盤體(23),於其周緣形成有一固定環(231)且在中心 形成有一貫穿的軸孔(232),於定子(21)的盤體(23)的一側 面上且位於軸向位置切割有數個剖槽,相鄰的二剖槽間形 成有一磁極(24),而圖中的具體實施例所示,該盤體上所設 的各磁極(24)呈環狀排列,又各剖槽的延伸線可通過軸孔 (232)的中心處’於各磁極(24>處且位在剖槽處繞設有線圈 -(25)及將所產生的電能予以輸出的導線,再者定子(21)的轴 .孔(232)的一側形成有一相互連通的軸座(26),於該軸座(26) 内設有軸承(27); 配合參看第三圖所示’該轉子組(30)由二轉子(31)(32) 組成’其分別具有一盤體並在週緣形成有固定環(31 1 ),二 轉子(3 1)(32)的固定環(311)之間設有一間隔柱(312),以使. 一轉子(31)(3 2)間間隔有一定距離並相互結合固定,其具體 的固定方式可於盤體週緣設有固定孔,以固定件(例如:螺 釘與螺帽的組合)貫穿各固定孔及間隔柱(312)予以結合固 • 定’又轉子(31 )(32)的構造為相同並可設置在基座(1〇)的容 至(12)内’以下僅以其中一轉子(31)的構造予以敘述,於轉 子(31)之盤體的一側面上形成有若干以徑向間隔排列並環 繞位在周緣處的磁鐵(33),該磁鐵(33)的數量與磁極(24)的 數量相同’又位在相鄰位置的二磁鐵(33)的磁性為相反,該 轉子(31)上所設的各磁鐵(33)係相對於各磁極(24)呈環狀排 列; 該動力軸(40),其為一長桿體,係貫穿二轉子(31)(32) 的中心位置並相互結合固定,且動力軸(4〇)的二端分別貫穿 6 M377788 定子(21)(22)上所設的轴承(27)並突伸至外部,以提供外部 動能可經由動力軸(40)輸入並驅動轉子組(30)轉動。 本創作的盤式發電機於實際使用時,外部的動力源可 為由風力、水力或火力,或有由汽車的傳動轴所產生的動 力’各動力傳送至動力轴(40)處並使其產生轉動,轉動中的 動力軸(40)可驅動轉子組(30)相對於固定在基座(1〇)上的定 - 子組(20)轉動,此時轉子(31)(32)側面所設的磁鐵(33)將與 ' 定子(21 )(22)上繞設有線圈(25)的磁極(24)相互產生磁力作 .用’進而產生電能並由導線輸出,再者由於本創作的定子 組(20)與轉子組(30)係以盤式的構造設計,其整體體積可有 效的減小即可產生一定的發電效能。 配合參看第四圖所示,本創作的另一實施例構造,可 依據發電量的需求而併列二組以上的定子組及轉子組,如 圖中所示為設有至少一中定子組及至少一轉子組的實施 例,其具有一基座(10A)’於基座(10A)的内部中空處的中央 位置設有一中定子組(50) ’該中定子組(50)具有一盤體 • (5〇1),且於盤體(501)上設有一呈穿孔狀的軸孔,該軸孔可 形成為軸座(502)並在軸座(502)内安裝有一軸承(503),於 盤體(501)的二側面上分別位於軸向位置切割有數個剖槽, 於一側面上相鄰的二剖槽間形成有一磁極(51 ),於另一側面 上的相鄰的二剖槽間形成有一磁極(52); 於基座(10A)二端設有一定子組(20),即於基座(1〇A) 之中空殼體的二端分別設有定子(21A)及定子(22A),二定子 (21A)(22A)與基座(1〇A)内所設的中定子組(50)之間分別形 成有一空間,於該二空間内分別設有一轉子組(30A),以一 7 軸梓(40A)貝穿定子組(2〇)、中定子組(5〇)及各轉子組 (30A) ’其中軸桿(4〇A)與定子组(2〇)及中定子组(5〇)藉由轴 承(27)(5〇3)設置而呈相互柩設,另與二轉子組(30A)為相互 結合固定,如此動力源經由軸桿(40A)輸入而驅動二轉子組 (30A)旋轉後,各轉子組(3〇A)上的磁鐵(33)可與定子 (21A)(22A)及中定子組(5〇)上的磁極相互作用而產生電 月b,因此可依據輸出電能的需求而設計可併列不同數量的 定子組或轉子組’以因應不同的使用需求且確實具有較大 的運用彈性。 【圖式簡單說明】 第一圖係本創作的立體外觀圖。 第二圖係本創作的分解圖。 第三圖係本創作的剖面示意圖。 弟四圖係本創作的另 【主要元件符號說明】 一實施例剖面圖。 (1〇)(1〇A)基座 (11)結合環 (12)容室 (20)定子組 (21)(21A)定子 (22)(22A)定子 (23)盤體 (231)固定環 (232)轴孔 (24)磁極 (25)線圈 (26)轴座 (27)軸承 (30)(30A)轉子組 (31)(32)轉子 (311)固定環 (312)間隔柱 (33)磁鐵 8 M377788 (40)(40A)動力軸 (50)中定子組 (501)盤體 (502)軸座 (503)軸承 (51)(52)磁極M377788 V. New description: [New technical field] This creation is a type of disc generator with a set of disc-shaped and opposite stator and rotor groups assembled on the pedestal. [Prior Art] • Generators are mainly used to convert kinetic energy into electrical energy. The sources of kinetic energy are various, such as wind, water or firepower, as well as the drive of the car, the power of the shaft, etc. The input of the shaft to the generator Φ internal 'can be used to generate electrical energy and output via the wire by interacting with the permanent magnets on the rotors of the rotor set and the coils of the oppositely arranged stator set. The generators used so far are constructed in such a way that the rotor set and the stator set are mounted in opposite radial positions, that is, a stator set is mounted on the inner ring side of the base, and the rotor driven by the power shaft is connected. The group position is in the center position of the stator group. When the power shaft is rotated by the driving of the power source, the rotating rotor and the stator will generate electric energy due to the magnetic cutting action, and this device can generate electric energy but suffers from Limited to the structural design relationship, so that the overall volume - occupying a large space, and because the outer diameter of the rotor is to fit the stator space must be designed with a larger outer diameter, which will increase the weight of the component, loss of the input kinetic energy Problems such as the efficiency of generating electrical energy are reduced. [New Content] The creator has redesigned one in view of the aforementioned problems of the prior art. The efficiency of generating electrical energy can save space and expand the rotor group and stator group as needed to improve the efficiency of converting kinetic energy into electrical energy. 3 In order to achieve the aforementioned creative purposes, the technical means used in the present invention is to provide a disk generator comprising a base, a certain subgroup, a rotor set and a power wheel; The φ frame has a chamber formed therein; the stator assembly includes a right L祜-疋, the stator has a disk body and is provided with a through-hole hole for obstruction, 7. The disk body On one side of the surface and at the axial position, there are several slots, and one adjacent to the nine-inch. A magnetic pole is formed between the slots, a coil is arranged around the slot of each magnetic pole, and a wire for outputting electric energy is connected; the rotor, and # includes two rotors and is located between the two stators t, the rotor has a disk The body 'having a magnetic pole with respect to the stator is formed on the side with a plurality of magnets arranged at a radial interval and surrounding the circumference, and the number of magnets provided by the stator is the number of magnetic poles (four), the magnet can be connected with the magnetic pole of $+ The magnets of the two magnets that are in the opposite position are opposite to each other. The shaft is a rod that can penetrate through the rotors and is fixed to each other. The two ends of the shaft are respectively penetrated through the shaft holes of the stators. Pivot. The disc generator further includes at least one middle stator set and at least one rotor set in the base, the middle stator set has a disc body and is provided with a through shaft hole, and the disc body is fixed on the base Inside the seat, a stator is respectively disposed on two sides of the disc body, and a stator is formed between the stator on the two sides of the middle stator group and the dice on one end of the base. A rotor group is disposed in the space. The magnets provided on the rotors on the two sides of the group are arranged opposite to the stators and the stators provided in the middle stator set. In the above disc type generator, each of the magnetic poles provided on the disc body of the stator and the magnets provided on the rotor with respect to the respective magnetic poles are arranged in a ring shape. The disc type generator, wherein the base and the stator of the stator group are respectively formed with a protruding coupling ring and a fixing ring at the periphery of the M377788 and are fixed to each other. The disc generator of the present invention is characterized in that the rotor group is formed with a protruding fixing ring on the periphery of the disc body of two adjacent stators, and a spacing right is arranged between the two, and the fixing member is combined with the spacer through the fixing ring and the spacer. fixed. The disc generator of the present invention, wherein the rotor group is formed with a protruding fixing ring at a periphery of a disk body of two adjacent stators, and a spacing 杈 is provided between the two rotors, and the fixing member is inserted through the fixing ring and the spacer column Fixed together. The disc generator according to the invention, wherein the shaft hole of the stator is formed as a shaft seat, and a bearing rod is disposed in the shaft seat to be bored in the bearing. By the use of the foregoing technical means, the interactive rotor and the stator system are designed in the shape of a disk, and a plurality of corresponding magnetic poles and magnets can be arranged on the side thereof, which can be produced under a certain volume. Large electrical energy, so the designed generator can be miniaturized and reduce the use of space. 'Alternatively, according to the needs of electrical energy use, multiple sets of identically constructed rotor sets, tweezers and or middle scorpions and so on. In the pedestal, it has the advantages of simple structure and large elasticity in assembly. [Embodiment] Referring to the first and second figures, the disc generator designed by the creation of lAl, n^ includes a pedestal (10), a certain jh subgroup (20), a rotor group (30), a power shaft (40); the pedestal (10), which is a medium-r 2 frame, in the frame The two ends are formed with a coupling ring (11), and a cavity (12) is formed at the internal intervening virtual tau site; the stator group (20), the reddish red _ 匕 two stators (21) (22) and respectively The joint ring installed at the two ends of the base (10) is imaginary; at the location of the two stators (21) (22) M377788 is the same 'the following is only described by the structure of the stator (21). The stator (21) has a disk body (23), a fixing ring (231) is formed on the periphery thereof, and a through hole is formed in the center ( 232), a plurality of slots are cut on one side of the disk body (23) of the stator (21) and located at an axial position, and a magnetic pole (24) is formed between the adjacent two slots, and the specific embodiment in the figure As shown, the magnetic poles (24) provided on the disk body are arranged in a ring shape, and the extension lines of the respective groove grooves can pass through the center of the shaft hole (232) at the respective magnetic poles (24> and in the slot A coil-(25) and a wire for outputting the generated electric energy are disposed, and one side of the shaft (232) of the stator (21) is formed with a shaft seat (26) communicating with each other. The bearing (27) is provided in the seat (26); as shown in the third figure, the rotor group (30) is composed of two rotors (31) (32) which respectively have a disk body and a retaining ring formed at the periphery. (31 1 ), a spacer (312) is disposed between the fixed rings (311) of the two rotors (3 1) (32) so that a rotor (31) (32) is spaced apart from each other. The distance is fixed and fixed to each other, and the specific fixing manner is to provide a fixing hole at the periphery of the disk body, and a fixing member (for example, a combination of a screw and a nut) is inserted through each fixing hole and the spacer column (312) to be fixed. Further, the rotors (31) and (32) are identical in configuration and can be disposed in the susceptor (12) of the susceptor (1). Hereinafter, only the structure of one of the rotors (31) will be described, and the rotor (31) is described. A magnet (33) is arranged on one side of the disk body at a radial interval and is circumferentially located at the periphery. The number of the magnets (33) is the same as the number of magnetic poles (24). The magnets (33) have opposite magnetisms, and the magnets (33) provided on the rotor (31) are annularly arranged with respect to the respective magnetic poles (24); the power shaft (40) is a long rod body. The system runs through the center of the two rotors (31) (32) and is fixed to each other, and the two ends of the power shaft (4〇) respectively penetrate the bearing (27) provided on the stator (21) (22) of the 6 M377788 and protrude. To the outside, to provide external kinetic energy can be input via the power shaft (40) and drive the rotor set (30) to rotate. In the actual use of the disc generator of the present invention, the external power source may be transmitted to the power shaft (40) by wind, hydraulic or fire power, or power generated by the drive shaft of the vehicle. Rotating, the rotating power shaft (40) can drive the rotor set (30) to rotate relative to the stator-subgroup (20) fixed on the base (1), at this time the rotor (31) (32) side The magnet (33) will be magnetically generated with the magnetic pole (24) of the coil (25) on the stator (21) (22). The electric energy is generated to generate electric energy and output by the wire. The stator set (20) and the rotor set (30) are designed in a disc structure, and the overall volume can be effectively reduced to generate a certain power generation efficiency. Referring to the fourth embodiment, another embodiment of the present invention is configured to juxtapose two or more sets of stators and rotors according to the demand of power generation, as shown in the figure, at least one middle stator set and at least An embodiment of a rotor set having a base (10A) having a central stator set (50) at a central location in the inner hollow of the base (10A). The middle stator set (50) has a disk body. (5〇1), and a disk hole (501) is provided with a perforated shaft hole, the shaft hole can be formed as a shaft seat (502) and a bearing (503) is mounted in the shaft seat (502). The two sides of the disk body (501) are respectively cut in the axial position and cut into a plurality of slots, and a magnetic pole (51) is formed between the adjacent two slots on one side, and the adjacent two slots are formed on the other side. Forming a magnetic pole (52); a plurality of sub-groups (20) are disposed at two ends of the base (10A), that is, the stator (21A) is respectively disposed at two ends of the hollow shell of the base (1〇A) and A space is formed between the stator (22A), the two stators (21A) (22A) and the middle stator set (50) disposed in the base (1〇A), respectively, in the two spaces. There is a rotor group (30A) with a 7-axis 梓 (40A) shell-through stator set (2〇), a middle stator set (5〇) and each rotor set (30A) 'where the shaft (4〇A) and The stator set (2〇) and the middle stator set (5〇) are disposed to each other by the bearing (27) (5〇3), and the two rotor sets (30A) are fixed to each other, so that the power source passes through the shaft After the rod (40A) is input to drive the rotation of the two rotor groups (30A), the magnets (33) on each rotor group (3A) can be connected to the magnetic poles on the stator (21A) (22A) and the middle stator group (5〇). The interaction produces electricity month b, so it can be designed according to the demand of output power to be able to juxtulate different numbers of stator groups or rotor groups' to meet different usage requirements and indeed has greater application flexibility. [Simple description of the drawing] The first picture is a three-dimensional appearance of the creation. The second picture is an exploded view of the creation. The third picture is a schematic cross-sectional view of the creation. The other four figures are the other parts of the present creation. [Main component symbol description] A cross-sectional view of an embodiment. (1〇) (1〇A) base (11) coupling ring (12) chamber (20) stator group (21) (21A) stator (22) (22A) stator (23) disk (231) retaining ring (232) Shaft hole (24) Magnetic pole (25) Coil (26) Shaft seat (27) Bearing (30) (30A) Rotor set (31) (32) Rotor (311) Retaining ring (312) Spacer column (33) Magnet 8 M377788 (40) (40A) Power shaft (50) stator group (501) disk body (502) shaft seat (503) bearing (51) (52) magnetic pole