TWI392200B - Stator winding method - Google Patents
Stator winding method Download PDFInfo
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- TWI392200B TWI392200B TW98141423A TW98141423A TWI392200B TW I392200 B TWI392200 B TW I392200B TW 98141423 A TW98141423 A TW 98141423A TW 98141423 A TW98141423 A TW 98141423A TW I392200 B TWI392200 B TW I392200B
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Description
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。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.
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I282654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。
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 plate pole arms in a limited space, in order to improve the rotation efficiency and avoid stacking the silicon steel sheets stacked on each other. The thickness is saturated, which will widen each of the pole arms, but also causes a reduction in the winding space between the pole arms, and because the winding space is reduced, a thin copper wire is also required for winding.
Invented the invention patent No. I282654 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.
本發明之主要目的係在於提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、一第六極臂、一第七極臂及一第八極臂,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、該第六極臂、該第七極臂及該第八極臂係依序形成於該定子本體之該外環壁;提供一導線,用以依序繞設該第一極臂、該第二極臂、該第三極臂、該第四極臂、該第五極臂、該第六極臂、該第七極臂及該第八極臂,該導線係具有一第一線端;以該導線由第一方向繞設該第一極臂;以該導線由第二方向繞設該第二極臂並形成一第一共接點;以該導線由第二方向繞設該第三極臂;以該導線由第一方向繞設該第四極臂並形成一第二共接點;以該導線由第一方向繞設該第五極臂;以該導線由第二方向繞設該第六極臂並形成一第三共接點;以該導線由第二方向繞設該第七極臂;以該導線由第一方向繞設該第八極臂;裁切該導線以使該導線形成有一第二線端;以及將該導線之該第一線端、該第二線端與該第二共接點接合以形成一第一電源端,將該導線之該第一共接點與該第三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功效,因而提高繞線空間之使用率且可提升效率。The main object of the present invention is to provide a stator winding and wire bonding method, which comprises providing a stator having a certain sub-body, a first pole arm, a second pole arm, a third pole arm, and a fourth a pole arm, a fifth pole arm, a sixth pole arm, a seventh pole arm and an eighth pole arm, the stator system has an outer ring wall, the first pole arm, the second pole arm, the The third pole arm, the fourth pole arm, the fifth pole arm, the sixth pole arm, the seventh pole arm and the eighth pole arm are sequentially formed on the outer ring wall of the stator body; a wire for sequentially winding the first pole arm, the second pole arm, the third pole arm, the fourth pole arm, the fifth pole arm, the sixth pole arm, the seventh pole arm, and The eighth pole arm has a first wire end; the wire is wound by the first direction arm in a first direction; the wire is wound from the second direction by the wire and forms a first a common contact; the third pole arm is wound by the wire from the second direction; the fourth pole is wound from the first direction by the wire and a second common contact is formed; Winding the fifth pole arm in a first direction; winding the sixth pole arm from the second direction by the wire and forming a third common contact; and winding the seventh pole arm by the wire in a second direction; The wire is wound from the first direction by the eighth pole; the wire is cut to form the wire with a second wire end; and the first wire end, the second wire end of the wire and the second wire are The contacts are joined to form a first power terminal, and the first common contact of the wire is bonded to the third common contact 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 paralleling the coils, the utilization of the winding space is improved and the efficiency can be improved.
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,請參閱第1圖,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140、一第四極臂150、一第五極臂160、一第六極臂170、一第七極臂180及一第八極臂190,該定子本體110係具有一外環壁111,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、該第六極臂170、該第七極臂180及該第八極臂190係依序形成於該定子本體110之該外環壁111,在本實施例中,如第1圖所揭露,其係為俯視該定子100,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、該第六極臂170、該第七極臂180及該第八極臂190係以順時針方向依序排列,且該第一極臂120具有一第一外側面121,該第二極臂130具有一第二外側面131,該第三極臂140具有一第三外側面141,該第四極臂150具有一第四外側面151,該第五極臂160具有一第五外側面161,該第六極臂170具有一第六外側面171,該第七極臂180具有一第七外側面181及該第八極臂190具有一第八外側面191。
接著,提供一導線200,以該導線200依序繞設該第一極臂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、該第六極臂170、該第七極臂180及該第八極臂190,在本實施例中,該導線200繞設該第一極臂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、該第六極臂170、該第七極臂180及該第八極臂190之方向係由定子100外側往該第一極臂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、該第六極臂170、該第七極臂180及該第八極臂190之各第一外側面121、第二外側面131、第三外側面141、第四外側面151、第五外側面161、第六外側面171、第七外側面181及第八外側面191觀看,繞設方向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200係具有一第一線端210,在本實施例中,該導線200之該第一線端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由第一方向繞設該第一極臂120,該第一極臂120係另具有一第一上表面122及一第一下表面123,在本實施例中,該第一方向係為逆時針方向,該導線200係由該第一下表面123往該第一上表面122逆時針繞設該第一極臂120。
接著,請再參閱第1及2圖,以該導線200由第二方向繞設該第二極臂130並形成一第一共接點220,在本實施例中,該第一共接點220係形成於該第二極臂130與該第三極臂140之間,該第二極臂130係另具有一第二上表面132及一第二下表面133,該導線200係由該第二方向繞設該第二極臂130,在本實施例中,該第二方向係為順時針方向,該導線200係由該第二下表面133往該第二上表面132順時針繞設該第二極臂130。
接著,請再參閱第1及2圖,以該導線200由第二方向繞設該第三極臂140,該第三極臂140係另具有一第三上表面142及一第三下表面143,該導線200係由該第二方向繞設該第三極臂140,在本實施例中,該第二方向係為順時針方向,該導線200係由該第三下表面143往該第三上表面142順時針繞設該第三極臂140。
之後,請再參閱第1及2圖,以該導線200由第一方向繞設該第四極臂150並形成一第二共接點230,在本實施例中,該第二共接點230係形成於該第四極臂150與該第五極臂160之間,該第四極臂150係具有一第四上表面152及一第四下表面153,該導線200係以該第一方向繞設該第四極臂150,在本實施例中,該第一方向係為逆時針方向,該導線200係由該第四上表面152往該第四下表面153逆時針繞設該第四極臂150。
接著,請再參閱第1及2圖,以該導線200由第一方向繞設該第五極臂160,該第五極臂160係另具有一第五上表面162及一第五下表面163,該導線200係以該第一方向繞設該第五極臂160,在本實施例中,該第一方向係為逆時針方向,該導線200係由該第五上表面162往該第五下表面163逆時針繞設該第五極臂160。
之後,請再參閱第1及2圖,以該導線200由第二方向繞設該第六極臂170並形成一第三共接點240,在本實施例中,該第三共接點240係形成於該第六極臂170與該第七極臂180之間,該第六極臂170係另具有一第六上表面172、一第六下表面173,該導線200係由該第二方向繞設該第六極臂170,在本實施例中,該第二方向係為順時針方向,該導線200係由該第六下表面173往該第六上表面172順時針繞設該第六極臂170。
接著,請再參閱第1及2圖,以該導線200由第二方向繞設該第七極臂180,該第七極臂180係另具有一第七上表面182及一第七下表面183,該導線200係以第二方向繞設該第七極臂180,在本實施例中,該第二方向係為順時針方向,該導線200係由該第七下表面183往該第七上表面182順時針繞設該第七極臂180。
之後,請再參閱第1及2圖,以該導線200由第一方向繞設該第八極臂190,該第八極臂190係另具有一第八上表面192及一第八下表面193,該導線200係以該第一方向繞設該第八極臂190,在本實施例中,該第一方向係為逆時針方向,該導線200係由該第八上表面192往該第八下表面193逆時針繞設該第八極臂190。
接著,裁切該導線200以使該導線200形成有一第二線端250,在本實施例中,該導線200之該第二線端250係位於該第八極臂190與該第一極臂120之間。
最後,將該導線200之該第一線端210、該第二線端250與該第二共接點230接合以形成一第一電源端,將該導線200之該第一共接點220與該第三共接點240接合以形成一第二電源端。由於本發明係利用單一導線200依序對該定子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、該第六極臂170、該第七極臂180及該第八極臂190進行繞線及結線,使繞設於各該極臂之線圈並聯,因而提高繞線空間之使用率且達到提高轉子運轉效能之目的。
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內所作之任何變化與修改,均屬於本發明之保護範圍。
According to a preferred embodiment of the present invention, a method for winding and connecting a stator is disclosed. Referring to FIG. 1 , the method includes the following steps. First, a stator 100 is provided, which has a certain sub-body 110 and a first pole. The arm 120, a second pole arm 130, a third pole arm 140, a fourth pole arm 150, a fifth pole arm 160, a sixth pole arm 170, a seventh pole arm 180 and an eighth pole arm 190, the stator body 110 has an outer ring wall 111, 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, the The sixth pole arm 170, the seventh pole arm 180 and the eighth pole arm 190 are sequentially formed on the outer ring wall 111 of the stator body 110. In this embodiment, as disclosed in FIG. 1, the system is In order to plan the stator 100, 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, the sixth pole arm 170, the first The seventh pole arm 180 and the eighth pole arm 190 are sequentially arranged in a clockwise direction, and the first pole arm 120 has a first outer side surface 121, and the second pole arm 130 has a second outer side surface 131. The third pole arm 140 has a third outer side surface 141. The fourth pole arm 150 has a fourth outer side surface 151. The fifth pole arm 160 has a fifth outer side surface 161. The sixth pole arm 170 has a first outer side surface 161. The sixth outer side 171 has a seventh outer side 181 and the eighth pole 190 has an eighth outer side 191.
Next, a wire 200 is provided, and the first pole arm 120, the second pole arm 130, the third pole arm 140, the fourth pole arm 150, and the fifth pole arm 160 are sequentially wound around the wire 200. The sixth pole arm 170, the seventh pole arm 180 and the eighth pole arm 190. In the embodiment, the wire 200 surrounds the first pole arm 120, the second pole arm 130, and the third pole. The direction of the arm 140, the fourth pole arm 150, the fifth pole arm 160, the sixth pole arm 170, the seventh pole arm 180 and the eighth pole arm 190 is from the outer side of the stator 100 to the first pole arm The second pole arm 130, the third pole arm 140, the fourth pole arm 150, the fifth pole arm 160, the sixth pole arm 170, the seventh pole arm 180, and the eighth pole arm 190 The first outer side surface 121, the second outer side surface 131, the third outer side surface 141, the fourth outer side surface 151, the fifth outer side surface 161, the sixth outer side surface 171, the seventh outer side surface 181, and the eighth outer side surface 191 are viewed. The winding direction includes a first direction and a second direction. The first direction and the second direction are opposite directions. The wire 200 has a first wire end 210. In this embodiment, the wire 200 The first End 210 of the system 130 is located between first arm 120 and the second electrode pole arm.
After that, the first pole arm 120 is wound from the first direction by the first pole 120. The first pole arm 120 further has a first upper surface 122 and a first lower surface 123. In the embodiment, the first direction is a counterclockwise direction, and the wire 200 is wound from the first lower surface 123 to the first upper surface 122 counterclockwise around the first pole arm 120.
Then, referring to the first and second figures, the second conductive arm 130 is wound from the second direction and the first common contact 220 is formed. In this embodiment, the first common contact 220 is formed. The second pole arm 130 is formed between the second pole arm 130 and the third pole arm 140. The second pole arm 130 further has a second upper surface 132 and a second lower surface 133. The wire 200 is composed of the second The second pole arm 130 is wound in a direction. In the embodiment, the second direction is a clockwise direction, and the wire 200 is wound clockwise from the second lower surface 133 to the second upper surface 132. Dipole arm 130.
Then, referring to FIGS. 1 and 2, the third pole arm 140 is wound by the wire 200 from the second direction. The third pole arm 140 further has a third upper surface 142 and a third lower surface 143. The wire 200 is wound around the third pole arm 140 by the second direction. In this embodiment, the second direction is a clockwise direction, and the wire 200 is from the third lower surface 143 to the third direction. The upper surface 142 winds the third pole arm 140 clockwise.
After that, please refer to FIGS. 1 and 2 again, the wire 200 is wound around the fourth pole arm 150 from the first direction and forms a second common contact 230. In this embodiment, the second common contact 230 The fourth pole arm 150 is formed between the fourth pole arm 150 and the fifth pole arm 160. The fourth pole arm 150 has a fourth upper surface 152 and a fourth lower surface 153. The wire 200 is in the first direction. The fourth pole arm 150 is wound. In the embodiment, the first direction is a counterclockwise direction, and the wire 200 is wound from the fourth upper surface 152 to the fourth lower surface 153 counterclockwise. Pole arm 150.
Next, referring to FIGS. 1 and 2, the fifth pole 160 is wound by the wire 200 from the first direction. The fifth pole 160 has a fifth upper surface 162 and a fifth lower surface 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 200 is from the fifth upper surface 162 to the fifth. The lower surface 163 winds the fifth pole arm 160 counterclockwise.
After that, please refer to the first and second figures, the wire 200 is wound around the sixth pole 170 from the second direction and forms a third common contact 240. In this embodiment, the third common contact 240 The sixth pole arm 170 is formed between the sixth pole arm 170 and the seventh pole arm 180. The sixth pole arm 170 further has a sixth upper surface 172 and a sixth lower surface 173. The wire 200 is composed of the second The sixth pole arm 170 is wound in a direction. In the embodiment, the second direction is a clockwise direction, and the wire 200 is wound clockwise from the sixth lower surface 173 to the sixth upper surface 172. Six-pole arm 170.
Next, referring to FIGS. 1 and 2, the seventh pole 180 is wound by the wire 200 from the second direction. The seventh pole 180 has a seventh upper surface 182 and a seventh lower surface 183. The wire 200 is wound around the seventh pole arm 180 in a second direction. In the embodiment, the second direction is a clockwise direction, and the wire 200 is from the seventh lower surface 183 to the seventh surface. The surface 182 winds the seventh pole 180 180 clockwise.
After that, please refer to FIGS. 1 and 2 again, in which the wire 200 is wound from the first direction by the eighth pole 190, and the eighth pole 190 has an eighth upper surface 192 and an eighth lower surface 193. The wire 200 is wound around the eighth pole 190 in the first direction. In the embodiment, the first direction is a counterclockwise direction, and the wire 200 is from the eighth upper surface 192 to the eighth. The lower surface 193 winds the eighth pole 190 counterclockwise.
Then, the wire 200 is cut so that the wire 200 is formed with a second wire end 250. In this embodiment, the second wire end 250 of the wire 200 is located at the eighth pole arm 190 and the first pole arm. Between 120.
Finally, the first wire end 210 and the second wire end 250 of the wire 200 are joined to the second common contact 230 to form a first power terminal, and the first common contact 220 of the wire 200 is The third common junction 240 is joined to form a second power supply terminal. The first pole arm 120, the second pole arm 130, the third pole arm 140, the fourth pole arm 150, and the fifth pole arm 160 of the stator 100 are sequentially used by the present invention. The sixth pole arm 170, the seventh pole arm 180 and the eighth pole arm 190 are wound and connected, so that the coils wound around the pole arms are connected in parallel, thereby increasing the utilization rate of the winding space and improving the rotor. The purpose of operational efficiency.
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. .
100‧‧‧定子
110‧‧‧定子本體
111‧‧‧外環壁
120‧‧‧第一極臂
121‧‧‧第一外側面
122‧‧‧第一上表面
123‧‧‧第一下表面
130‧‧‧第二極臂
131‧‧‧第二外側面
132‧‧‧第二上表面
133‧‧‧第二下表面
140‧‧‧第三極臂
141‧‧‧第三外側面
142‧‧‧第三上表面
143‧‧‧第三下表面
150‧‧‧第四極臂
151‧‧‧第四外側面
152‧‧‧第四上表面
153‧‧‧第四下表面
160‧‧‧第五極臂
161‧‧‧第五外側面
162‧‧‧第五上表面
163‧‧‧第五下表面
170‧‧‧第六極臂
171‧‧‧第六外側面
172‧‧‧第六上表面
173‧‧‧第六下表面
180‧‧‧第七極臂
181‧‧‧第七外側面
182‧‧‧第七上表面
183‧‧‧第七下表面
190‧‧‧第八極臂
191‧‧‧第八外側面
192‧‧‧第八上表面
193‧‧‧第八下表面
200‧‧‧導線
210‧‧‧第一線端
220‧‧‧第一共接點
230‧‧‧第二共接點
240‧‧‧第三共接點
250‧‧‧第二線端100‧‧‧ Stator
110‧‧‧stat body
111‧‧‧ outer ring wall
120‧‧‧First polar arm
121‧‧‧First outer side
122‧‧‧ first upper surface
123‧‧‧First lower surface
130‧‧‧second pole arm
131‧‧‧Second outer side
132‧‧‧Second upper surface
133‧‧‧Second lower surface
140‧‧‧third pole arm
141‧‧‧ third outer side
142‧‧‧ third upper surface
143‧‧‧ Third lower surface
150‧‧‧ fourth pole arm
151‧‧‧fourth outer side
152‧‧‧ fourth upper surface
153‧‧‧ Fourth lower surface
160‧‧‧ fifth pole arm
161‧‧‧ fifth outer side
162‧‧‧ fifth upper surface
163‧‧‧ fifth lower surface
170‧‧‧ sixth pole arm
171‧‧‧6th outer side
172‧‧‧ sixth upper surface
173‧‧‧ sixth lower surface
180‧‧‧ seventh pole
181‧‧‧ seventh outer side
182‧‧‧ seventh upper surface
183‧‧‧ seventh lower surface
190‧‧‧ eighth arm
191‧‧‧ eighth outer side
192‧‧‧ eighth upper surface
193‧‧‧ eighth lower surface
200‧‧‧ wire
210‧‧‧First line end
220‧‧‧First joint
230‧‧‧second joint
240‧‧‧ third joint
250‧‧‧second line
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。
1 is a schematic view showing a method of winding and connecting a stator according to a preferred embodiment of the present invention.
2 is a schematic view showing another method of winding and connecting a stator according to a preferred embodiment of the present invention.
100‧‧‧定子 100‧‧‧ Stator
110‧‧‧定子本體 110‧‧‧stat body
111‧‧‧外環壁 111‧‧‧ outer ring wall
120‧‧‧第一極臂 120‧‧‧First polar arm
121‧‧‧第一外側面 121‧‧‧First outer side
122‧‧‧第一上表面 122‧‧‧ first upper surface
123‧‧‧第一下表面 123‧‧‧First lower surface
130‧‧‧第二極臂 130‧‧‧second pole arm
131‧‧‧第二外側面 131‧‧‧Second outer side
132‧‧‧第二上表面 132‧‧‧Second upper surface
133‧‧‧第二下表面 133‧‧‧Second lower surface
140‧‧‧第三極臂 140‧‧‧third pole arm
141‧‧‧第三外側面 141‧‧‧ third outer side
142‧‧‧第三上表面 142‧‧‧ third upper surface
143‧‧‧第三下表面 143‧‧‧ Third lower surface
150‧‧‧第四極臂 150‧‧‧ fourth pole arm
151‧‧‧第四外側面 151‧‧‧fourth outer side
152‧‧‧第四上表面 152‧‧‧ fourth upper surface
153‧‧‧第四下表面 153‧‧‧ Fourth lower surface
160‧‧‧第五極臂 160‧‧‧ fifth pole arm
161‧‧‧第五外側面 161‧‧‧ fifth outer side
162‧‧‧第五上表面 162‧‧‧ fifth upper surface
163‧‧‧第五下表面 163‧‧‧ fifth lower surface
170‧‧‧第六極臂 170‧‧‧ sixth pole arm
171‧‧‧第六外側面 171‧‧‧6th outer side
172‧‧‧第六上表面 172‧‧‧ sixth upper surface
173‧‧‧第六下表面 173‧‧‧ sixth lower surface
180‧‧‧第七極臂 180‧‧‧ seventh pole
181‧‧‧第七外側面 181‧‧‧ seventh outer side
182‧‧‧第七上表面 182‧‧‧ seventh upper surface
183‧‧‧第七下表面 183‧‧‧ seventh lower surface
190‧‧‧第八極臂 190‧‧‧ eighth arm
191‧‧‧第八外側面 191‧‧‧ eighth outer side
192‧‧‧第八上表面 192‧‧‧ eighth upper surface
193‧‧‧第八下表面 193‧‧‧ eighth lower surface
200‧‧‧導線 200‧‧‧ wire
210‧‧‧第一線端 210‧‧‧First line end
220‧‧‧第一共接點 220‧‧‧First joint
230‧‧‧第二共接點 230‧‧‧second joint
240‧‧‧第三共接點 240‧‧‧ third joint
250‧‧‧第二線端 250‧‧‧second line
Claims (16)
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、一第六極臂、一第七極臂及一第八極臂,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、該第六極臂、該第七極臂及該第八極臂係依序形成於該定子本體之該外環壁;
提供一導線,用以依序繞設該第一極臂、該第二極臂、該第三極臂、該第四極臂、該第五極臂、該第六極臂、該第七極臂及該第八極臂,該導線係具有一第一線端;
以該導線由第一方向繞設該第一極臂;
以該導線由第二方向繞設該第二極臂並形成一第一共接點;
以該導線由第二方向繞設該第三極臂;
以該導線由第一方向繞設該第四極臂並形成一第二共接點;
以該導線由第一方向繞設該第五極臂;
以該導線由第二方向繞設該第六極臂並形成一第三共接點;
以該導線由第二方向繞設該第七極臂;
以該導線由第一方向繞設該第八極臂;
裁切該導線以使該導線形成有一第二線端;以及
將該導線之該第一線端、該第二線端與該第二共接點接合以形成一第一電源端,將該導線之該第一共接點與該第三共接點接合以形成一第二電源端。
A stator winding and wire bonding method, comprising at least:
Providing a stator 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, a sixth pole arm, and a seventh a pole arm and an eighth pole arm, the stator system has an outer ring wall, the first pole arm, the second pole arm, the third pole arm, the fourth pole arm, the fifth pole arm, the The sixth pole arm, the seventh pole arm and the eighth pole arm are sequentially formed on the outer ring wall of the stator body;
Providing a wire for sequentially winding the first pole arm, the second pole arm, the third pole arm, the fourth pole arm, the fifth pole arm, the sixth pole arm, and the seventh pole An arm and the eighth pole arm, the wire has a first line end;
Winding the first pole arm from the first direction by the wire;
Winding the second pole arm from the second direction by the wire and forming a first common contact;
Winding the third pole arm with the wire from the second direction;
Winding the fourth pole arm from the first direction by the wire and forming a second common contact;
Winding the fifth pole arm from the first direction by the wire;
Winding the sixth pole arm from the second direction by the wire and forming a third common contact;
Winding the seventh pole arm from the second direction by the wire;
Winding the eighth pole arm from the first direction by the wire;
Cutting the wire to form the wire with a second wire end; and bonding the first wire end and the second wire end of the wire to the second common contact to form a first power terminal, the wire The first common contact is coupled to the third common contact to form a second power supply terminal.
The stator winding and wire bonding method according to claim 1, wherein the first direction and the second direction are opposite directions.
The stator winding and wire bonding method of claim 2, wherein the first direction is a counterclockwise direction and the second direction is a clockwise direction.
The method of claim 1 or 2, wherein the first pole arm has a first upper surface and a first lower surface, the wire is from the first lower surface to the first The upper surface is wound around.
The method of claim 2, wherein the second pole arm has a second upper surface and a second lower surface, the wire is from the second lower surface to the second The upper surface is wound around.
The method of claim 2, wherein the third pole arm has a third upper surface and a third lower surface, the wire is from the third lower surface to the third The upper surface is wound around.
The stator winding and wire bonding method of claim 1, wherein the fourth pole arm has a fourth upper surface and a fourth lower surface, the wire is from the fourth upper surface to the fourth The lower surface is wound around.
The stator winding and wire bonding method of claim 1, wherein the fifth pole arm has a fifth upper surface and a fifth lower surface, the wire is from the fifth upper surface to the fifth The lower surface is wound around.
The stator winding and wire bonding method of claim 1, wherein the sixth pole arm has a sixth upper surface and a sixth lower surface, and the wire is from the sixth lower surface to the sixth The upper surface is wound around.
The stator winding and wire bonding method according to claim 1, wherein the seventh pole arm has a seventh upper surface and a seventh lower surface, and the wire is from the seventh lower surface to the seventh The upper surface is wound around.
The stator winding and wire bonding method according to claim 1, wherein the eighth pole arm has an eighth upper surface and an eighth lower surface, and the wire is from the eighth upper surface to the eighth The lower surface is wound around.
The stator winding and wire bonding method of claim 1, wherein the first wire end of the wire is located between the first pole arm and the second pole arm.
The stator winding and wire bonding method of claim 1, wherein the second wire end of the wire is located between the first pole arm and the eighth pole arm.
The stator winding and wire bonding method of claim 1, wherein the first common contact is formed between the second pole arm and the third pole arm.
The stator winding and wire bonding method of claim 1, wherein the second common contact is formed between the fourth pole arm and the fifth pole arm.
The stator winding and wire bonding method according to claim 1, wherein the third common contact is formed between the sixth pole arm and the seventh pole arm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW98141423A TWI392200B (en) | 2009-12-03 | 2009-12-03 | Stator winding method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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TW98141423A TWI392200B (en) | 2009-12-03 | 2009-12-03 | Stator winding method |
Publications (2)
Publication Number | Publication Date |
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TW201121209A TW201121209A (en) | 2011-06-16 |
TWI392200B true TWI392200B (en) | 2013-04-01 |
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TW98141423A TWI392200B (en) | 2009-12-03 | 2009-12-03 | Stator winding method |
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TW (1) | TWI392200B (en) |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3940646A (en) * | 1974-03-28 | 1976-02-24 | A. O. Smith Corporation | Single-phase induction motor |
TW533655B (en) * | 2001-08-20 | 2003-05-21 | Sunonwealth Electr Mach Ind Co | DC motor and its coil winding method |
US6963149B2 (en) * | 2003-05-20 | 2005-11-08 | Delta Electronics, Inc. | Radial winding stator structure for single phase motor |
TW200644383A (en) * | 2005-06-10 | 2006-12-16 | Foxconn Tech Co Ltd | Motor stator |
TWM310525U (en) * | 2006-11-06 | 2007-04-21 | Yen Sun Technology Corp | Axial winding stator |
TWI282654B (en) * | 2005-07-29 | 2007-06-11 | Delta Electronics Inc | Single phase motor and stator winding method thereof |
-
2009
- 2009-12-03 TW TW98141423A patent/TWI392200B/en active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3940646A (en) * | 1974-03-28 | 1976-02-24 | A. O. Smith Corporation | Single-phase induction motor |
TW533655B (en) * | 2001-08-20 | 2003-05-21 | Sunonwealth Electr Mach Ind Co | DC motor and its coil winding method |
US6963149B2 (en) * | 2003-05-20 | 2005-11-08 | Delta Electronics, Inc. | Radial winding stator structure for single phase motor |
TW200644383A (en) * | 2005-06-10 | 2006-12-16 | Foxconn Tech Co Ltd | Motor stator |
TWI282654B (en) * | 2005-07-29 | 2007-06-11 | Delta Electronics Inc | Single phase motor and stator winding method thereof |
TWM310525U (en) * | 2006-11-06 | 2007-04-21 | Yen Sun Technology Corp | Axial winding stator |
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TW201121209A (en) | 2011-06-16 |
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