TW201724135A - Bobbin structure featuring easy winding and winding method thereof comprising at least one winding unit, a plurality of lead-out units, and a plurality of conductive pins - Google Patents

Bobbin structure featuring easy winding and winding method thereof comprising at least one winding unit, a plurality of lead-out units, and a plurality of conductive pins Download PDF

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TW201724135A
TW201724135A TW104143112A TW104143112A TW201724135A TW 201724135 A TW201724135 A TW 201724135A TW 104143112 A TW104143112 A TW 104143112A TW 104143112 A TW104143112 A TW 104143112A TW 201724135 A TW201724135 A TW 201724135A
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wire
outlet
winding
pin
conductive
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TW104143112A
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TWI595516B (en
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Tsung-Han Chou
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Innotrans Technology Co Ltd
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Abstract

A bobbin structure featuring easy winding and a winding method thereof are disclosed. The bobbin structure comprises at least one winding unit, a plurality of lead-out units, and a plurality of conductive pins. The lead-out units are respectively connected to one side of the winding unit, wherein each lead-out unit has a passage passing through the lead-out unit, and comprises at least one outlet, and at least one bridging pin integrally extending from the lead-out unit and provided at the outlet to allow the wire to be wound. These conductive pins are respectively corresponding to one of the lead-out units, and each of said conductive pins having a mounting section and a wiring section for connecting said mounting section. Each of said conductive pins is wound around the bridging pin at the end of the wire and then penetrating said passage, and the mounting section is located in the passage so that the wiring section is arranged in correspondence to the bridge pin while protruding from the outlet, and the wire can be welded with a welding material to generate a state of electrical connection.

Description

便於繞線的線架結構及其繞線方法Wire frame structure for winding and winding method thereof

本發明有關一種便於繞線的線架結構及其繞線方法。The invention relates to a wire frame structure for facilitating winding and a winding method thereof.

按,現今的線架結構如中華民國第I501266、I493578、I471879、M502237以及M491933號專利案所揭露,皆包含有一繞線部以及複數出線部,該繞線部提供至少一線材繞製其上,而該出線部則固設有複數導電接腳,以提供該線材於繞製完畢後,其末端得繞製其中並經焊接,而與該導電接腳形成電性連接。但現今線架結構所具有的導電接腳是在該線架結構製作完成後,就已固定接設於上。如此一來,即導致使用者在以其進行繞線的過程中需特別注意導電接腳的位置,以及該些導電接腳是否符合當下所用繞線治具,而不利於實施。The wire frame structure of the present invention, as disclosed in the Patent No. I501266, I493578, I471879, M502237, and M491933, each of which includes a winding portion and a plurality of wire outlet portions, the wire winding portion is provided with at least one wire wound thereon. And the outlet portion is provided with a plurality of conductive pins to provide the wire after the winding is completed, and the end of the wire is wound and soldered to form an electrical connection with the conductive pin. However, the conductive pins of the wire frame structure are fixedly connected to the wire frame structure after the wire frame structure is completed. As a result, the user needs to pay special attention to the position of the conductive pins during the winding process, and whether the conductive pins conform to the winding fixtures used at present, which is unfavorable for implementation.

再者,本案申請人雖曾經提出了一包含鋁導體的繞組結構,如中華民國第I501270號專利案所揭,該繞組結構包含一繞線架、至少一鋁導體以及複數銅插接件。其中該繞線架包含至少一繞線區域,而該鋁導體則包含了環繞該繞線區域至少一圈的一繞組段,以及該鋁導體末端的兩連接段。該銅插接件則包含一包覆該連接段的夾掣部、一用於插入一連接孔的插接部。於繞線作業實施的過程中,該鋁導體首先繞於該繞線區域至少一圈,再將該鋁導體的末端與該銅插接件組裝,該銅插接件得預先設於該繞線架上,又或者是與該鋁導體組裝後再裝設於該繞線架上。倘若該銅插接件預先設於該繞線架上,該繞線架於實施繞線的過程中,便會受到該銅插接件的影響,而出現前揭不利繞線的問題。倘若該銅插接件是與該鋁導體組接後再裝設於該繞線架上,該鋁導體便需預留較長的線段,以方便使用者將該鋁導體連接該銅插接件,如此一來,預留過長的線段將會導致繞組鬆散而影響電氣特性。除此之外,上述實施方式並無法用於較微小或接腳過多的繞線架上,而出現了使用上的限制。Furthermore, the applicant of the present application has proposed a winding structure comprising an aluminum conductor. As disclosed in the Patent No. I501270 of the Republic of China, the winding structure comprises a bobbin, at least one aluminum conductor and a plurality of copper connectors. Wherein the bobbin includes at least one winding area, and the aluminum conductor comprises a winding section at least one turn around the winding area, and two connecting sections of the end of the aluminum conductor. The copper connector comprises a clamping portion covering the connecting portion and a plug portion for inserting a connecting hole. During the winding operation, the aluminum conductor is first wound around the winding area at least one turn, and then the end of the aluminum conductor is assembled with the copper connector, and the copper connector is pre-set on the winding. The rack is assembled with the aluminum conductor and then mounted on the bobbin. If the copper connector is pre-set on the bobbin, the bobbin is affected by the copper connector during the winding process, and the problem of unfavorable winding is revealed. If the copper connector is assembled with the aluminum conductor and then mounted on the winding frame, the aluminum conductor needs to reserve a longer line segment for the user to connect the aluminum conductor to the copper connector. As a result, the long line segment is reserved, which will cause the winding to be loose and affect the electrical characteristics. In addition to the above, the above embodiment cannot be used on a bobbin which is relatively small or has too many pins, and there is a limitation in use.

據此,現今線架結構於繞線作業的實施過程中,普遍會受到導電接腳的影響,而無法順利地進行繞線。Accordingly, the wire frame structure is generally affected by the conductive pins during the implementation of the winding operation, and the winding cannot be smoothly performed.

本發明的主要目的,在於解決習用線架結構因導電接腳所衍生的繞線問題。The main object of the present invention is to solve the problem of the winding of the conventional wire frame structure caused by the conductive pins.

為達上述目的,本發明提供一種便於繞線的線架結構,包含有至少一繞線部、複數出線部以及複數導電接腳。該繞線部提供至少一線材繞設,該些出線部分別連接該繞線部一側,每一該出線部具有一貫穿該出線部並具有至少一出口的通道,以及至少一由該出線部一體延伸形成並位於該通道的該出口提供該線材繞設於上的橋接引腳,該些導電接腳分別對應其中一該出線部設置,每一該導電接腳具有一安裝段以及一連接該安裝段的接線段,每一該導電接腳於該線材繞設該橋接引腳後穿入該通道並令該安裝段位於該通道內,使該接線段突出於該出口而對應該橋接引腳設置並以一焊接材與該線材焊接產生電性連接狀態。To achieve the above object, the present invention provides a wire rack structure that facilitates winding, and includes at least one winding portion, a plurality of wire outlet portions, and a plurality of conductive pins. The winding portion provides at least one wire winding, the outlet portions are respectively connected to one side of the winding portion, and each of the outlet portions has a passage through the outlet portion and having at least one outlet, and at least one The outlet portion is integrally formed and located at the outlet of the channel to provide a bridge pin on which the wire is wound. The conductive pins are respectively disposed corresponding to one of the outlet portions, and each of the conductive pins has an installation. And a segment connecting the mounting segment, each of the conductive pins penetrating the channel after the wire is wound around the wire and positioning the mounting portion in the channel, so that the wire segment protrudes from the outlet Corresponding to the bridging pin arrangement and soldering to the wire with a solder material to make an electrical connection.

於一實施例中,該線架結構由二半殼組構而成,該繞線部與該些出線部是由該二半殼共同界定形成。In an embodiment, the wire frame structure is formed by two half-shells, and the winding portion and the outlet portions are jointly defined by the two half-shells.

於一實施例中,每一該出線部具有複數該橋接引腳,該些橋接引腳間隔環設於該通道的該出口。In one embodiment, each of the outlet portions has a plurality of the bridge pins, and the bridge pin spacer rings are disposed at the outlet of the channel.

於一實施例中,每一該出線部對應該通道的該出口具有二該橋接引腳,該二橋接引腳分別設置於該出口的二相對端面上,並於該導電接腳插置該通道後共同支撐該接線段。In one embodiment, each of the outlet portions has two bridge pins corresponding to the outlet of the channel, and the two bridge pins are respectively disposed on opposite end faces of the outlet, and the conductive pins are inserted into the conductive pins. The wiring section is supported together after the passage.

除此之外,本發明亦提出一種線架結構的繞線方法,該方法包含有以下步驟: 一備料步驟,提供一線架結構,該線架結構具有至少一繞線部、複數出線部以及複數導電接腳,每一該出線部具有一貫穿該出線部並具有至少一出口的通道,以及至少一自該出線部一體延伸形成並位於該通道的該出口提供該線材繞設於上的橋接引腳; 一繞線步驟,提供一線材繞於該出線部上至少一匝,並令該線材末端繞於該橋接引腳上; 一插置導電接腳步驟,令其中一該導電接腳穿入該通道,令該導電接腳的該安裝段置於該通道,並使該導電接腳的該接線段突出於該出口而對應該橋接引腳設置;以及 一焊接步驟,將該導電接腳的該接線段與該線材焊接形成電性連接。In addition, the present invention also provides a winding method for a wire frame structure, the method comprising the following steps: a preparation step, providing a wire frame structure, the wire frame structure having at least one winding portion, a plurality of wire outlet portions, and a plurality of conductive pins, each of the outlet portions having a passage extending through the outlet portion and having at least one outlet, and at least one outlet extending integrally from the outlet portion and located at the outlet to provide the wire around the wire a bridge pin; a winding step, providing a wire around the wire portion at least one turn, and winding the wire end around the bridge pin; a step of inserting the conductive pin, making one of the The conductive pin penetrates the channel, the mounting section of the conductive pin is placed in the channel, and the wiring section of the conductive pin protrudes from the outlet to correspond to the bridge pin; and a soldering step The wiring segment of the conductive pin is electrically connected to the wire.

於一實施例中,該插置導電接腳步驟與該焊接步驟之間更具有一調整接腳位置步驟,令該導電接腳自該通道朝該橋接引腳突出至得與一電路板連接的程度。In an embodiment, the step of inserting the conductive pin and the step of soldering further comprises the step of adjusting the pin position, so that the conductive pin protrudes from the channel toward the bridge pin to be connected to a circuit board. degree.

透過本發明上述技術方案,相較於習用具有以下特點:本發明每一該出線部除具有該導電接腳之外,更對應每一該出線部設有貫穿該出線部提供該導電接腳得活動其中且具有至少一該出口的該通道以及自該出線部一體延伸形成並位於該通道出口的該橋接引腳,該線材於繞製該繞線部之後,該導電接腳才穿入該通道內,令該導電接腳的該安裝段置於該通道內,使該導電接腳的該接線段突出於該出口而對應該橋接引腳設置,此後該線材才與該接線段焊接形成電連接,如此一來,使用者於實施繞線作業的過程中,無需考量該導電接腳位置,即可順利地實施繞線作業。The above-mentioned technical solution of the present invention has the following features: in addition to the conductive pin, each of the outlet portions of the present invention further provides the conductive portion through the outlet portion corresponding to each of the outlet portions. a path in which the pin has at least one of the outlet and the bridge pin integrally formed from the outlet portion and located at the outlet of the channel, after the wire is wound around the winding portion, the conductive pin is Inserting into the channel, the mounting section of the conductive pin is placed in the channel, so that the wire segment of the conductive pin protrudes from the outlet to correspond to the bridge pin, and then the wire is connected to the wire segment The welding forms an electrical connection, so that the user can smoothly perform the winding operation without considering the position of the conductive pin during the winding operation.

有關本發明詳細說明及技術內容,現就配合圖式說明如下:The detailed description and technical contents of the present invention will now be described as follows:

請參閱圖1至圖3,本發明提供一種便於繞線的線架結構1,該線架結構1提供一線材2繞製其上,且得與一鐵芯3組裝形成一磁性元件,所稱磁性元件可如變壓器、電感器等。於此,本發明圖面遂以該線架結構1應用於變壓器中的實施態樣進行舉例,但並不以此為限制。本發明該線架結構1包含至少一繞線部11,複數分別連接於該繞線部11一側的出線部12以及複數導電接腳14,該繞線部11提供至少一該線材2繞設其上,該線材2得根據實施需求繞於該繞線部11上至少一匝。又,該繞線部11上更可成形至少一隔板111,該隔板111將該繞線部11區分為複數繞線區域,而每一該繞線區域得分別提供該線材2繞製其中,形成複數線圈繞組。再者,該隔板111的厚度或形態更得根據變壓器的絕緣安規需求作適度的調整。Referring to FIG. 1 to FIG. 3, the present invention provides a wire frame structure 1 for facilitating winding. The wire frame structure 1 is provided with a wire 2 wound thereon, and is assembled with a core 3 to form a magnetic component. The magnetic element can be, for example, a transformer, an inductor or the like. Here, the drawing of the present invention is exemplified by the embodiment in which the wire frame structure 1 is applied to a transformer, but is not limited thereto. The bobbin structure 1 of the present invention comprises at least one winding portion 11 , a plurality of outlet portions 12 respectively connected to one side of the winding portion 11 and a plurality of conductive pins 14 , the winding portion 11 providing at least one wire 2 winding In this case, the wire 2 is wound around the winding portion 11 at least one turn according to the implementation requirements. Further, the winding portion 11 is further formed with at least one partition 111 which divides the winding portion 11 into a plurality of winding regions, and each of the winding regions respectively provides the wire 2 to be wound therein. Forming a plurality of coil windings. Moreover, the thickness or form of the spacer 111 is more appropriately adjusted according to the insulation safety requirements of the transformer.

又,該些出線部12分別連接於該繞線部11一側,於該線架結構1具有複數該出線部12時,該些出線部12則分別位於該些出線部12的二側。每一該出線部12具有一通道121以及一橋接引腳122,其中,該通道121沿一軸向貫穿該出線部12並具有至少一出口123,該橋接引腳122則是由該出線部12一體延伸形成並位於該通道121的該出口123處,該橋接引腳122實際上是該出線部12的一部份,也就是說,該橋接引腳122於該線架結構1經射出等機械加工製成後,即已設於該出線部12上。本發明該橋接引腳122僅作繞線橋接之用並不具導電特性,而與導電接腳14不同。該橋接引腳122的設立是為了令該線材2在繞製完成後,該線材2的末端首先繞設於該橋接引腳122上,才再與該導電接腳14焊接,以解決習用導電接腳在繞線過程中所產生的問題。於一實施例中,每一該出線部12分別具有複數該橋接引腳122,而每一該橋接引腳122則分別對應該通道121的該出口123設置,且面對同一該出口123設置的該些橋接引腳122是間隔環設於該出口123。又,於一實施例中,每一該出線部12對應該通道121的該出口123具有二該橋接引腳122,該二橋接引腳122分別設置於該出口123的二相對端面上,並共同支撐突出該通道121的該導電接腳14。除此之外,本發明所揭該橋接引腳122的態樣遂可根據實施需求作相應調整,並不以本發明圖面所揭為限。Moreover, the outlet portions 12 are respectively connected to the winding portion 11 side. When the wire frame structure 1 has a plurality of the outlet portions 12, the outlet portions 12 are respectively located at the outlet portions 12. Two sides. Each of the outlet portions 12 has a channel 121 and a bridge pin 122. The channel 121 extends through the outlet portion 12 along an axial direction and has at least one outlet 123. The bridge pin 122 is formed by the outlet. The wire portion 12 is integrally formed and located at the outlet 123 of the channel 121. The bridge pin 122 is actually a part of the wire outlet portion 12, that is, the bridge pin 122 is in the wire frame structure 1 After being formed by machining or the like, it is already provided on the outlet portion 12. The bridging pin 122 of the present invention is only used for wire bridging and has no conductive characteristics, and is different from the conductive pin 14. The bridging pin 122 is set up so that the end of the wire 2 is first wound on the bridging pin 122 after the winding of the wire 2 is completed, and then soldered to the conductive pin 14 to solve the conventional conductive connection. The problem that the foot produces during the winding process. In an embodiment, each of the outlet portions 12 has a plurality of the bridge pins 122, and each of the bridge pins 122 is respectively disposed corresponding to the outlet 123 of the channel 121, and faces the same outlet 123. The bridge pins 122 are spaced apart from the outlet 123. Moreover, in an embodiment, each of the outlet portions 12 corresponding to the outlet 123 of the channel 121 has two bridge pins 122, and the two bridge pins 122 are respectively disposed on opposite end faces of the outlet 123, and The conductive pins 14 that protrude from the channel 121 are collectively supported. In addition, the aspect of the bridge pin 122 of the present invention can be adjusted accordingly according to the implementation requirements, and is not limited by the drawings of the present invention.

承上,本發明該些導電接腳14分別對應中一該出線部12設置,每一該導電接腳14被設定為可穿入該通道121內,並得受力進行適度的活動,每一該導電接腳14具有一安裝段141以及一連接該安裝段141的接線段142。再者,每一該導電接腳14態樣可根據該通道121態樣作適度調整,但並不以每一該導電接腳14態樣僅能相符該通道121態樣為限,更具體說明,本發明為令每一該導電接腳14得順利穿入該通道121內,每一該導電接腳14的直徑或尺寸被設定為至少符合該通道121的內徑。除此之外,本發明每一該導電接腳14於繞線的初始並未設於該通道121之中,而是在繞線過程中,才穿入該通道121內。The conductive pins 14 of the present invention are respectively disposed corresponding to the first outlet portion 12, and each of the conductive pins 14 is configured to be inserted into the channel 121, and is subjected to moderate activities. A conductive pin 14 has a mounting section 141 and a wiring section 142 that connects the mounting section 141. Moreover, each of the conductive pins 14 can be appropriately adjusted according to the mode of the channel 121, but it is not limited to each of the conductive pins 14 and can only conform to the mode of the channel 121, and more specifically In the present invention, each of the conductive pins 14 is smoothly inserted into the channel 121, and the diameter or size of each of the conductive pins 14 is set to at least conform to the inner diameter of the channel 121. In addition, each of the conductive pins 14 of the present invention is not disposed in the channel 121 at the beginning of the winding, but penetrates into the channel 121 during the winding process.

復請參閱圖1至圖3,於一實施例中,該線架結構1由二半殼13組構而成,而該繞線部11與該些出線部12是由該二半殼13共同界定形成。進一步說明,該二半殼13為相應結構,而分別具有一半環131以及二分別連接該半環131一側的基座132,該基座132上則開設有一通孔133。如此,當該二半殼13相互組裝,該二半環131將共同形成該繞線部11,該些基座132則共同形成該些出線部12,而組裝後為對應的二該通孔133即相互連通形成該通道121。Referring to FIG. 1 to FIG. 3 , in an embodiment, the wire frame structure 1 is composed of two half shells 13 , and the winding portion 11 and the outlet portions 12 are formed by the two half shells 13 . A common definition is formed. Further, the two half-shells 13 are corresponding structures, and each has a half ring 131 and two bases 132 respectively connected to one side of the half ring 131. A through hole 133 is defined in the base 132. Thus, when the two half-shells 13 are assembled to each other, the two half-rings 131 will jointly form the winding portion 11, and the bases 132 together form the outlet portions 12, and after assembly, the corresponding two through-holes 133 is interconnected to form the channel 121.

請參閱圖4至圖6,本發明亦提出以該線架結構實施的一繞線方法,該繞線方法包含有以下步驟: 一備料步驟40,提供該線架結構1,該線架結構1具有至少一該繞線部11、複數該出線部12以及複數該導電接腳14,每一該出線部12具有該通道121以及至少一該橋接引腳122,該通道121貫穿該出線部12並具有至少一該出口123,該橋接引腳122則自該出線部12一體延伸形成並位於該通道121的該出口123提供該線材2繞設於上; 一繞線步驟41,提供該線材2繞於該出線部12上至少一匝,並令該線材2末端繞於該橋接引腳122上; 一插置導電接腳步驟42,令其中一該導電接腳14穿入該通道121,令該導電接腳14的該安裝段141置於該通道121,並使該導電接腳14的該接線段142突出於該出口123而對應該橋接引腳122設置;以及 一焊接步驟43,將該導電接腳14的該接線段142與該線材2以一焊接材6產生電性連接狀態。Referring to FIG. 4 to FIG. 6 , the present invention also proposes a winding method implemented by the wire frame structure, and the winding method comprises the following steps: a preparation step 40, providing the wire frame structure 1 , the wire frame structure 1 Having at least one winding portion 11, a plurality of the outlet portions 12, and a plurality of the conductive pins 14, each of the outlet portions 12 having the channel 121 and at least one of the bridge pins 122, the channel 121 extending through the outlet The portion 12 has at least one of the outlets 123. The bridging pin 122 is integrally formed from the outlet portion 12 and is located at the outlet 123 of the passage 121 to provide the wire 2 around; a winding step 41 provides The wire 2 is wound around the wire portion 12 at least one turn, and the end of the wire 2 is wound around the bridge pin 122; a conductive pin step 42 is inserted, and one of the conductive pins 14 is inserted into the wire The channel 121 is such that the mounting portion 141 of the conductive pin 14 is placed in the channel 121, and the connecting portion 142 of the conductive pin 14 protrudes from the outlet 123 to correspond to the bridging pin 122; and a soldering step 43. The wiring segment 142 of the conductive pin 14 and the wire 2 are produced by a solder material 6. Electrical connection status.

具體說明,於該繞線方法實施的初始,首先提供該線架結構1並進入該繞線步驟41,以該線材2繞設該繞線部11至少一匝形成該線圈繞組,將該線材2末端繞設於該橋接引腳122上,完成該線材2的收線動作,進入該插置導電接腳步驟42。於該插置導電接腳步驟42的初始,令其中一該導電接腳14對應繞有該線材2末端的該出線部12設置,將該導電接腳14置入該通道121之中,並控制該導電接腳14朝繞有該線材2末端的該橋接引腳122方向突出,也就是說,該導電接腳14的該安裝段141將置於該通道121之中,該接線段142則突出該出口123並對應該橋接引腳122設置,此後進入該焊接步驟43,以焊接將該線材2與該導電接腳14的該接線段142形成電性連接,而焊接時所用的該焊接材6可完整將該橋接引腳122包覆,或僅使該線材2與該導電接腳14連接,而所稱的該焊接材可為錫。如此,即完成本發明該繞線方法的實施。承上所述,於一實施例中,該插置導電接腳步驟42實施過程中,該線材2收線完成後,該鐵芯3即可於該線架結構1組裝,並得以該鐵芯3作底放置於一治具中,進行後續該導電接腳14的插設。再者,本發明該導電接腳14穿入該通道121的方向遂可根據製程的需求所相應的調整,較佳者,可如本案圖5至圖6所示,令該導電接腳14從繞有該線材2末端的該橋接引腳122經相應的該出口123穿入該通道121內,最後使該導電接腳14的該接線段142部份對應該橋接引腳122為突出,與該線材2的末端進行焊接。Specifically, in the initial implementation of the winding method, the wire frame structure 1 is first provided and enters the winding step 41, and the wire winding 2 is wound around the wire winding portion 11 to form the coil winding, and the wire 2 is formed. The end is wound around the bridge pin 122, and the wire take-up action of the wire 2 is completed, and the inserted conductive pin step 42 is entered. In the initial stage of inserting the conductive pin step 42, one of the conductive pins 14 is disposed corresponding to the outlet portion 12 around the end of the wire 2, and the conductive pin 14 is placed in the channel 121, and Controlling the conductive pin 14 to protrude toward the bridge pin 122 around the end of the wire 2, that is, the mounting segment 141 of the conductive pin 14 will be placed in the channel 121, and the wire segment 142 The outlet 123 is protruded and disposed on the bridging pin 122, and then enters the soldering step 43 to electrically connect the wire 2 to the connecting portion 142 of the conductive pin 14, and the soldering material used for soldering. 6 can completely cover the bridging pin 122, or only connect the wire 2 to the conductive pin 14, and the so-called solder material can be tin. Thus, the implementation of the winding method of the present invention is completed. As described above, in an embodiment, during the implementation of the step of inserting the conductive pins 42 , after the wire 2 is completed, the core 3 can be assembled in the wire frame structure 1 and the core can be assembled. 3 is placed in a fixture for subsequent insertion of the conductive pin 14. Furthermore, the direction in which the conductive pin 14 of the present invention penetrates the channel 121 can be adjusted according to the requirements of the process. Preferably, the conductive pin 14 can be as shown in FIG. 5 to FIG. The bridging pin 122 around the end of the wire 2 is inserted into the channel 121 through the corresponding outlet 123, and finally the portion of the connecting portion 142 of the conductive pin 14 is corresponding to the bridging pin 122. The end of the wire 2 is welded.

請參閱圖7與圖8,於一實施例中,該插置導電接腳步驟42與該焊接步驟43之間更具有一調整接腳位置步驟44,令該導電接腳14自該通道121朝該橋接引腳122突出至得與該電路板5連接的程度,藉此,以確保繞線完成後,該導電接腳14可以順利地與該電路板5組接。Referring to FIG. 7 and FIG. 8 , in an embodiment, the step of inserting the conductive pin 42 and the step of soldering 43 further includes a step of adjusting the pin position 44, so that the conductive pin 14 faces the channel 121. The bridging pin 122 protrudes to the extent that it is connected to the circuit board 5, whereby the conductive pin 14 can be smoothly assembled with the circuit board 5 after the winding is completed.

綜上所述,本發明便於繞線的線架結構及其繞線方法,該線架結構包含至少一繞線部、複數出線部以及複數導電接腳,該些出線部分別連接該繞線部一側,每一該出線部具有一貫穿該出線部並具有至少一出口的通道,以及至少一由該出線部一體延伸形成並位於該通道的該出口提供該線材繞設的橋接引腳,該些導電接腳分別對應其中一該出線部設置,每一該導電接腳具有一安裝段及一連接該安裝段的接線段,每一該導電接腳於該線材末端繞設該橋接引腳後穿入該通道並令該安裝段位於該通道內,使該接線段突出於該出口而對應該橋接引腳設置並以一焊接材與該線材焊接產生電性連接狀態。藉此,以解決習用線架結構因導電接腳所產生的繞線問題。In summary, the present invention facilitates a wire bobbin structure and a winding method thereof, and the wire rack structure includes at least one winding portion, a plurality of outlet portions, and a plurality of conductive pins, wherein the outlet portions are respectively connected to the winding One side of the line portion, each of the outlet portions has a passage extending through the outlet portion and having at least one outlet, and at least one outlet integrally formed by the outlet portion and located at the outlet provides the wire winding a bridge pin, wherein the conductive pins are respectively disposed corresponding to one of the outlet portions, each of the conductive pins has a mounting portion and a connecting portion connecting the mounting portion, and each of the conductive pins is wound around the end of the wire The bridge pin is inserted into the channel and the mounting segment is located in the channel, so that the wire segment protrudes from the outlet to correspond to the bridge pin and is electrically connected to the wire by a solder material. Thereby, the winding problem of the conventional wire frame structure due to the conductive pins is solved.

以上已將本發明做一詳細說明,惟以上所述者,僅爲本發明之一較佳實施例而已,當不能以此限定本發明實施之範圍,即凡依本發明申請專利範圍所作之均等變化與修飾,皆應仍屬本發明之專利涵蓋範圍內。The present invention has been described in detail above, but the foregoing is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Variations and modifications are still within the scope of the patents of the present invention.

1‧‧‧線架結構
11‧‧‧繞線部
111‧‧‧隔板
12‧‧‧出線部
121‧‧‧通道
122‧‧‧橋接引腳
123‧‧‧出口
13‧‧‧半殼
131‧‧‧半環
132‧‧‧基座
133‧‧‧通孔
14‧‧‧導電接腳
141‧‧‧安裝段
142‧‧‧接線段
2‧‧‧線材
3‧‧‧鐵芯
40、41、42、43、44‧‧‧步驟
5‧‧‧電路板
6‧‧‧焊接材
1‧‧‧Wire frame structure
11‧‧‧Winding Department
111‧‧‧Baffle
12‧‧‧Outline Department
121‧‧‧ channel
122‧‧‧Bridge pins
123‧‧‧Export
13‧‧‧ half shell
131‧‧‧ half ring
132‧‧‧Base
133‧‧‧through hole
14‧‧‧Electrical pins
141‧‧‧Installation section
142‧‧‧Wiring section
2‧‧‧Wire
3‧‧‧ iron core
40, 41, 42, 43, 44‧ ‧ steps
5‧‧‧Circuit board
6‧‧‧welding materials

圖1,本發明一實施例的外觀示意圖。 圖2,本發明一實施例的分解示意圖。 圖3,本發明一實施例的結構剖面示意圖。 圖4,本發明一實施例的方法流程示意圖。 圖5,本發明一實施例的結構剖面實施示意圖(一)。 圖6,本發明一實施例的結構剖面實施示意圖(二)。 圖7,本發明另一實施例的方法流程示意圖。 圖8,本發明另一實施例的結構剖面實施示意圖。FIG. 1 is a schematic view showing the appearance of an embodiment of the present invention. Figure 2 is an exploded perspective view of an embodiment of the present invention. Figure 3 is a cross-sectional view showing the structure of an embodiment of the present invention. FIG. 4 is a schematic flow chart of a method according to an embodiment of the present invention. Fig. 5 is a schematic cross-sectional view showing the structure of an embodiment of the present invention (1). Figure 6 is a schematic cross-sectional view showing the structure of an embodiment of the present invention (2). FIG. 7 is a schematic flow chart of a method according to another embodiment of the present invention. Figure 8 is a schematic cross-sectional view showing the structure of another embodiment of the present invention.

1‧‧‧線架結構 1‧‧‧Wire frame structure

11‧‧‧繞線部 11‧‧‧Winding Department

111‧‧‧隔板 111‧‧‧Baffle

12‧‧‧出線部 12‧‧‧Outline Department

122‧‧‧橋接引腳 122‧‧‧Bridge pins

123‧‧‧出口 123‧‧‧Export

13‧‧‧半殼 13‧‧‧ half shell

131‧‧‧半環 131‧‧‧ half ring

132‧‧‧基座 132‧‧‧Base

133‧‧‧通孔 133‧‧‧through hole

14‧‧‧導電接腳 14‧‧‧Electrical pins

3‧‧‧鐵芯 3‧‧‧ iron core

Claims (6)

一種便於繞線的線架結構,包含有: 至少一繞線部,提供至少一線材繞設; 複數出線部,分別連接該繞線部一側,每一該出線部具有一貫穿該出線部並具有至少一出口的通道,以及至少一由該出線部一體延伸形成並位於該通道的該出口設置提供該線材繞設於上的橋接引腳;以及 複數導電接腳,分別對應其中一該出線部設置,每一該導電接腳具有一安裝段以及一連接該安裝段的接線段,每一該導電接腳於該線材末端繞設該橋接引腳後穿入該通道並令該安裝段位於該通道內,使該接線段突出於該出口而對應該橋接引腳設置並以一焊接材與該線材焊接產生電性連接狀態。A wire rack structure for facilitating winding, comprising: at least one winding portion, providing at least one wire winding; a plurality of wire outlet portions respectively connected to one side of the winding portion, each of the outlet portions having a through-out a wire portion having at least one outlet passage, and at least one of the outlet pins integrally formed by the outlet portion and disposed at the outlet to provide a bridge pin on which the wire is wound; and a plurality of conductive pins respectively corresponding to the wire An outlet portion is disposed, each of the conductive pins has a mounting portion and a connecting portion connecting the mounting portion, and each of the conductive pins penetrates the bridge pin at the end of the wire and penetrates the channel The mounting section is located in the passage, so that the connecting section protrudes from the outlet and is disposed corresponding to the bridging pin and is electrically connected to the wire by a welding material. 如請求項1所述便於繞線的線架結構,其中,該線架結構由二半殼組構而成,該繞線部與該些出線部是由該二半殼共同界定形成。The bobbin structure for facilitating winding according to claim 1, wherein the bobbin structure is composed of two half shells, and the winding portion and the outlet portions are jointly defined by the two half shells. 如請求項1或2所述便於繞線的線架結構,其中,每一該出線部具有複數該橋接引腳,該些橋接引腳間隔環設於該通道的該出口。The bobbin structure for facilitating winding according to claim 1 or 2, wherein each of the outlet portions has a plurality of the bridge pins, and the bridge pin spacer rings are disposed at the outlet of the channel. 如請求項1或2所述便於繞線的線架結構,其中,每一該出線部對應該通道的該出口具有二該橋接引腳,該二橋接引腳分別設置於該出口的二相對端面上,並於該導電接腳插置該通道後共同支撐該接線段。The wire rack structure for facilitating winding according to claim 1 or 2, wherein each of the outlet portions has two bridge pins corresponding to the outlet of the channel, and the two bridge pins are respectively disposed at two opposite ends of the outlet The terminal segment is supported by the conductive pin after the conductive pin is inserted into the end face. 一種線架結構的繞線方法,包含有以下步驟: 一備料步驟,提供一線架結構,該線架結構具有至少一繞線部、複數出線部以及複數導電接腳,每一該出線部具有一貫穿該出線部並具有至少一出口的通道,以及至少一自該出線部一體延伸形成並位於該通道的該出口提供該線材繞設於上的橋接引腳; 一繞線步驟,提供一線材繞於該出線部上至少一匝,並令該線材末端繞於該橋接引腳上; 一插置導電接腳步驟,令其中一該導電接腳穿入該通道,令該導電接腳的該安裝段置於該通道,並使該導電接腳的該接線段突出於該出口而對應該橋接引腳設置;以及 一焊接步驟,將該導電接腳的該接線段與該線材以一焊接材產生電性連接狀態。A winding method of a wire frame structure comprises the following steps: a preparation step of providing a wire frame structure having at least one winding portion, a plurality of wire outlet portions and a plurality of conductive pins, each of the wire outlet portions Having a passage extending through the outlet portion and having at least one outlet, and at least one of the outlets integrally formed from the outlet portion and located at the outlet provides a bridge pin around which the wire is wound; a winding step, Providing a wire around at least one turn of the outlet portion, and winding the end of the wire around the bridge pin; inserting a conductive pin step, allowing one of the conductive pins to penetrate the channel to make the conductive The mounting section of the pin is placed in the channel, and the wiring section of the conductive pin protrudes from the outlet to correspond to the bridging pin; and a soldering step, the wiring section of the conductive pin and the wire The electrical connection state is produced by a solder material. 如請求項5所述線架結構的繞線方法,其中,該插置導電接腳步驟與該焊接步驟之間更具有一調整接腳位置步驟,令該導電接腳的該接線段突出該通道的該開口至得與一電路板連接的程度。The method of winding a wire frame structure according to claim 5, wherein the step of inserting the conductive pin and the step of soldering further comprises the step of adjusting the pin position, so that the wire segment of the conductive pin protrudes from the channel The opening is to the extent that it is connected to a circuit board.
TW104143112A 2015-12-22 2015-12-22 Easy to wire bobbin structure and winding method TWI595516B (en)

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