201121201 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明係有關於一種定子繞線及結線方法,特別係 有關於一種單一導線之定子繞線及結線方法。 【先前技術】 [0002] 習知單相無刷風扇定子設計,在有限之空間中,需 容納由複數個相互堆疊之矽鋼片及繞設於該些矽鋼片極 臂之線圈,為了提高旋轉效率並避免相互堆疊之矽鋼片 厚度飽和,其係會將各該極臂加寬,但因此亦造成各該 極臂間之繞線空間減少’並且因繞線空間減少,在繞線 時也需選用較細的銅線。 在台灣發明第1282654號發明專利,揭露一種以雙股 導線一同進行複數極臂之繞線,但由於利用雙導線依序 對相鄰極臂繞線,會使導線不易排列整齊,且兩條導線 易彼此磨擦而破壞導線表面之絕緣層,使得馬達短路。 【發明内容】 [0003] 本發明之主要目的係在於提丨供一種定子繞線及結線 方法,其包含提供一定子,其係具有一定子本體、一第 一極臂、一第二極臂、一第三極臂、一第四極臂、一第 五極臂及一第六極臂,該定子本體係具有一外環壁,該 第一極臂、該第二極臂、該第三極臂、該第四極臂、該 第五極臂及該第六極臂係依序形成於該定子本體之該外 環壁;提供一導線,該導線係具有一入線端;將該導線 以一第一方向繞設於該第一極臂;將該導線以該第一方 向繞設於該第三極臂並形成一第一共接點;將該導線以 098141425 表單編號A0101 第4頁/共13頁 0982071062-0 201121201 該第一方向繞設於該第二極臂;將該導線以該第一方向 繞設於該第六極臂並形成一第二共接點.;將該導線以該 第一方向繞設於該第五極臂;將該導線以一第二方向繞 設於該第四極臂;裁切該導線以使該導線形成有一出線 端;以及將該導線之該入線端與該第二共接點接合以形 成一第一電源端,將該導線之該出線端與該第一共接點 接合以形成一第二電源端。由於本發明係利用單一導線 對定子之各該極臂進行不同方向繞線並具有線圈並聯之 Ο [0004] 功效,因而提尚繞線空間之使用率且達到使轉子順利運 轉之目的。 【實施方式】 Ο 請參閱第1圖,依據本發明之一較佳實施例係揭示一 種定子繞線及結線方法,其係包含下列步驟:首先,提 供一定子100,其係具有一定子本體110、一第一極臂 120、一第二極臂130、一第三極臂、一第四極臂15〇 、一第五極臂160及“第六極臂17〇,該定子本體u〇係 具有一外環壁111及一定子本體上表面112,該第一極臂 120、該第二極臂13〇、該第三極臂14〇、該第四極臂15〇 、該第五極臂160及該第六極臂170係依序形成於該定子 本體110之該外環壁111,其中面向該定子本體上表面 112以順時針方向依序為該第一極臂12〇、該第二極臂 130、該第二極臂140、該第四極臂丨5〇、該第五極臂丨6〇 及該第六極臂170,且各該極臂120、13〇、14〇、15〇、 160、170具有一外側 23 ' 133、143、153、163、 173。 098141425 接著, 表單編號Α0101 提供一導線200,以該導線2〇〇依序繞設該 第5頁/共13頁 第 0982071062-0 201121201 一極臂120、該第三極臂140、該第二極臂130、該第六 極臂170、該第五極臂160、該第四極臂150,在本實施 例中,該導線200繞設各該極臂120、130、140、150、 160、170之方向係由定子1〇〇外側往各該極臂12〇、130 、140、150、160、170之各該外側面 123、133、143、 153、163、173觀看,包含有第一方向及第二方向,該 第一方向及該第二方向係為相反方向,該導線2〇〇係具有 一入線端210,在本實施例中,該導線2〇〇之該入線端 210係位於該第一極臂120與該第二極臂130之間。 之後,請參閱第1及2圖,以該導線200由第一方向繞 設於該第一極臂120,該第一;極臂120係具有一第一上表 面121、一第一下表面122及铉第一外侧面123,在本實 施例中,該第一方向係為逆時針方向,該導線2〇〇係由該 第一下表面122往該第一上表面121繞設。 接著,請再參閱第1及2圖,將該導線200以該第一方 向繞設於該第三極臂14〇並彩說1-第一共接點A1,該第三 極臂140係具有一第三上表面141及、一第三下表面142 及該第三外側面143 ’在本實施例_,該第一共接點“係 形成於該第一極臂130與該第三極臂140之間’該導線 200係由該第一方向繞設於該第三極臂14〇,在本實施例 中’該第一方向係為逆時針方向,該導線2〇〇係由該第三 上表面141往該第三下表面142繞設。 接著’請再參閱第1及2圖,以該導線200由第一方向 繞設於該第二極臂13〇,該第二極臂130係具有一第二上 表面131、一第二下表面132及該第二外側面133,該導 線200係由該第一方向繞設於該第二極臂〗3〇,在本實施 098141425 表單編號A0101 第6頁/共13頁 0982071062-0 201121201 例中,該第一方向係為逆時針方向,該導線200係由該第 二下表面132往該第二上表面131繞設。 之後,請再參閱第1及2圖,以該導線200由第一方向 繞設於該第六極臂170並形成一第二共接點Α2,該第六極 臂170係具有一第六上表面171、一第六下表面172及該 第六外側面173,該導線200係以該第一方向繞設於該第 六極臂170,在本實施例中,該第一方向係為逆時針方向 ,該導線200係由該第六下表面172往該第六上表面171 繞設,該第二共接點Α2係形成於該第六極臂170與該第五 〇 極臂160之間。 接著,請再參閱第1及2圖,以該導線200由第一方向 繞設於該第五極臂160,該第五極臂160係具有一第五上 表面161、一第五下表面162及該第五外側面163,該導 線200係以該第一方向繞設於該第五極臂160,在本實施 例中,該第一方向係為逆時針方向,該導線20 0係由該第 五下表面162往該第五上表面161繞設。 之後,請再參閱第1及2圖,以該導線200由第二方向 〇 繞設於該第四極臂150,該第四極臂150係具有一第四上 表面151、一第四下表面152及該第四外侧面153,該導 線200係由該第二方向繞設於該第四極臂150,在本實施 例中,該第二方向係為順時針方向,該導線200係由該第 四上表面151往該第四下表面152繞設。 接著,裁切該導線200以使該導線200形成有一出線 端220,在本實施例中,該導線200之該出線端220係位 於該第三極臂140與該第四極臂150之間。 最後,將該導線200之該入線端210與該第二共接點 098141425 表單編號Α0101 第7頁/共13頁 0982071062-0 201121201 A2接合以形成一第一電源端,將該導線200之該出線端 220與該第一共接點A1接合以形成一第二電源端。由於本 發明係利用單一導線200對該定子100之該第一極臂120 、該第二極臂130、該第三極臂140、該第四極臂150、 該第五極臂160及該第六極臂170進行繞線並具有並聯之 功效,因而提高繞線空間之使用率且達到提高轉子運轉 效率之目的。 本發明之保護範圍當視後附之申請專利範圍所界定 者為準,任何熟知此項技藝者,在不脫離本發明之精神 和範圍内所作之任何變化與修改,均屬於本發明之保護 範圍。 【圖式簡單說明】 [0005] 第1圖:依據本發明之一較佳實施例,一種定子繞線及結 線方法示意圖。 第2圖:依據本發明之一較佳實施例,一種定子繞線及結 線方法之另一示意圖。201121201 VI. Description of the Invention: [Technical Field] [0001] The present invention relates to a stator winding and wire bonding method, and more particularly to a stator winding and wire bonding method for a single wire. [Prior Art] [0002] The conventional single-phase brushless fan stator design needs to accommodate a plurality of mutually stacked silicon steel sheets and coils wound around the silicon steel sheet pole arms in a limited space, in order to improve the rotation efficiency. And avoiding the saturation of the thickness of the stacked steel sheets, which will widen the poles, but also reduce the winding space between the poles, and the winding space is also reduced. Thinner copper wire. Invented the invention patent No. 1282654 in Taiwan, exposing a winding of a plurality of pole arms together with a double-stranded wire, but since the two wires are sequentially wound on the adjacent pole arms, the wires are not easily aligned and the two wires are It is easy to rub against each other to break the insulation layer on the surface of the wire, so that the motor is short-circuited. SUMMARY OF THE INVENTION [0003] The main object of the present invention is to provide a stator winding and wire bonding method, which comprises providing a certain sub-body having a certain sub-body, a first pole arm, a second pole arm, a third pole arm, a fourth pole arm, a fifth pole arm and a sixth pole arm, the stator system has an outer ring wall, the first pole arm, the second pole arm, the third pole The arm, the fourth pole arm, the fifth pole arm and the sixth pole arm are sequentially formed on the outer ring wall of the stator body; a wire is provided, the wire has an incoming end; the wire is a first direction is disposed around the first pole arm; the wire is wound around the third pole arm in the first direction and forms a first common contact; the wire is 098141425, form number A0101, page 4 / total 13 0982071062-0 201121201 The first direction is wound around the second pole arm; the wire is wound around the sixth pole arm in the first direction and forms a second common joint; a first direction is disposed around the fifth pole arm; the wire is wound around the fourth pole arm in a second direction; cutting Threading the wire to form a wire end; and engaging the wire end of the wire with the second common contact to form a first power terminal, the wire end of the wire and the first common contact Bonded to form a second power terminal. Since the present invention utilizes a single wire to wind the poles of the stator in different directions and has the effect of connecting the coils in parallel, the use of the winding space is improved and the rotor is smoothly operated. EMBODIMENT OF THE INVENTION Referring to FIG. 1 , a method for winding and splicing a stator according to a preferred embodiment of the present invention includes the following steps: First, a stator 100 having a certain sub-body 110 is provided. a first pole arm 120, a second pole arm 130, a third pole arm, a fourth pole arm 15A, a fifth pole arm 160 and a "sixth pole arm 17", the stator body u An outer ring wall 111 and a certain sub-body upper surface 112, the first pole arm 120, the second pole arm 13〇, the third pole arm 14〇, the fourth pole arm 15〇, the fifth pole arm The sixth pole arm 170 and the sixth pole arm 170 are sequentially formed on the outer ring wall 111 of the stator body 110, wherein the first pole arm 12〇 and the second surface are sequentially facing the stator body upper surface 112 in a clockwise direction. a pole arm 130, the second pole arm 140, the fourth pole arm 丨5〇, the fifth pole arm 丨6〇 and the sixth pole arm 170, and each of the pole arms 120, 13〇, 14〇, 15 〇, 160, 170 have an outer side 23' 133, 143, 153, 163, 173. 098141425 Next, the form number Α 0101 provides a wire 200 to the wire 2〇 The fifth pole/the thirteenth page is the 0982071062-0 201121201 one pole arm 120, the third pole arm 140, the second pole arm 130, the sixth pole arm 170, the fifth pole arm 160, The fourth pole arm 150, in the embodiment, the wire 200 is wound around the poles 120, 130, 140, 150, 160, 170 from the outer side of the stator 1 to the poles 12, Each of the outer sides 123, 133, 143, 153, 163, and 173 of 130, 140, 150, 160, and 170 includes a first direction and a second direction, and the first direction and the second direction are opposite directions The wire 2 has an inlet end 210. In this embodiment, the wire end 210 of the wire 2 is located between the first pole 120 and the second pole 130. Referring to FIGS. 1 and 2, the wire 200 is wound from the first direction to the first pole arm 120. The first pole 120 has a first upper surface 121, a first lower surface 122, and a first surface. An outer side surface 123, in the embodiment, the first direction is a counterclockwise direction, and the wire 2 is wound by the first lower surface 122 toward the first upper surface 121. Next, referring to FIGS. 1 and 2, the wire 200 is wound around the third pole arm 14 in the first direction, and the first pole joint A1 is provided. The third pole arm 140 has a third upper surface 141 and a third lower surface 142 and the third outer surface 143 ′ are in the embodiment _, the first common contact is formed on the first pole arm 130 and the third pole arm Between the 140's, the wire 200 is wound from the first direction to the third pole arm 14A. In the embodiment, the first direction is a counterclockwise direction, and the wire 2 is made of the third The upper surface 141 is wound around the third lower surface 142. Then, please refer to the first and second figures, wherein the wire 200 is wound from the first direction to the second pole arm 13A. The second pole arm 130 has a second upper surface 131 and a second lower surface. 132 and the second outer side 133, the wire 200 is wound around the second pole arm by the first direction, in the example 098141425, form number A0101, page 6 / 13 pages 0982071062-0 201121201 The first direction is a counterclockwise direction, and the wire 200 is wound from the second lower surface 132 to the second upper surface 131. After that, please refer to FIGS. 1 and 2 again, in which the wire 200 is wound from the first direction to the sixth pole arm 170 and form a second common contact Α2, and the sixth pole arm 170 has a sixth upper portion. The surface 171, the sixth lower surface 172 and the sixth outer surface 173 are wound around the sixth pole arm 170 in the first direction. In this embodiment, the first direction is counterclockwise. In the direction, the wire 200 is wound from the sixth lower surface 172 to the sixth upper surface 171, and the second common contact Α2 is formed between the sixth pole 170 and the fifth drain arm 160. Then, referring to FIGS. 1 and 2, the wire 200 is wound from the first direction to the fifth pole arm 160. The fifth pole arm 160 has a fifth upper surface 161 and a fifth lower surface 162. And the fifth outer side 163, the wire 200 is wound around the fifth pole arm 160 in the first direction. In the embodiment, the first direction is a counterclockwise direction, and the wire 20 is The fifth lower surface 162 is wound around the fifth upper surface 161. Then, referring to FIGS. 1 and 2, the wire 200 is wound from the second direction to the fourth pole arm 150. The fourth pole arm 150 has a fourth upper surface 151 and a fourth lower surface. 152 and the fourth outer side 153, the wire 200 is wound around the fourth pole arm 150 by the second direction. In this embodiment, the second direction is a clockwise direction, and the wire 200 is The fourth upper surface 151 is wound around the fourth lower surface 152. Then, the wire 200 is cut so that the wire 200 is formed with a wire end 220. In the embodiment, the wire end 220 of the wire 200 is located between the third pole arm 140 and the fourth pole arm 150. between. Finally, the wire end 210 of the wire 200 is joined to the second common contact 098141425 Form No. 1010101, page 7 / 13 pages 0982071062-0 201121201 A2 to form a first power terminal, and the wire 200 is discharged. The wire end 220 is engaged with the first common contact A1 to form a second power terminal. Since the present invention utilizes a single wire 200, the first pole arm 120, the second pole arm 130, the third pole arm 140, the fourth pole arm 150, the fifth pole arm 160, and the first portion of the stator 100 The hexapole arm 170 is wound and has the effect of parallel connection, thereby increasing the utilization rate of the winding space and achieving the purpose of improving the efficiency of operation of the rotor. The scope of the present invention is defined by the scope of the appended claims, and any changes and modifications made by those skilled in the art without departing from the spirit and scope of the invention are within the scope of the present invention. . BRIEF DESCRIPTION OF THE DRAWINGS [0005] FIG. 1 is a schematic view showing a method of winding and splicing a stator according to a preferred embodiment of the present invention. Figure 2 is a schematic illustration of a method of winding and splicing a stator in accordance with a preferred embodiment of the present invention.
【主要元件符號說明】 [0006] 100定子 111外環壁 121第一上表面 123第一外側面 131第二上表面 133第二外側面 141第三上表面 110定子本體 112定子本體上表面 120第一極臂 122第一下表面 130第二極臂 132第二下表面 140第三極臂 098141425 表單編號A0101 第8頁/共13頁 0982071062-0 201121201 142 第三下表面 143 第三外側面 150 第四極臂 151 第四上表面 152 第四下表面 153 第四外側面 160 第五極臂 161 第五上表面 162 第五下表面 163 第五外侧面 170 第六極臂 171 第六上表面 172 第六下表面 173 第六外側面 200 導線 210 入線端 220 出線端 A1 第一共接點 A2 第二共接點 Ο[Main component symbol description] [0006] 100 stator 111 outer ring wall 121 first upper surface 123 first outer side surface 131 second upper surface 133 second outer side surface 141 third upper surface 110 stator body 112 stator body upper surface 120 One pole arm 122 first lower surface 130 second pole arm 132 second lower surface 140 third pole arm 098141425 Form No. A0101 Page 8 of 13 0982071062-0 201121201 142 Third lower surface 143 Third outer side 150 Quadrupole arm 151 Fourth upper surface 152 Fourth lower surface 153 Fourth outer side 160 Fifth pole arm 161 Fifth upper surface 162 Fifth lower surface 163 Fifth outer side 170 Sixth pole arm 171 Sixth upper surface 172 Six lower surface 173 Sixth outer side 200 Conductor 210 Incoming end 220 Outlet end A1 First common joint A2 Second common jointΟ
098141425 表單編號Α0101 第9頁/共13頁 0982071062-0098141425 Form NumberΑ0101 Page 9 of 13 0982071062-0