KR101177061B1 - Transformer for adapter - Google Patents

Abstract

PURPOSE: A transformer for an adapter is provided to increase the valid area of a printed circuit board when mounting the transformer in an opening of the printed circuit board and to easily control the degree of slimming an adapter by regulating the insertion depth of the transformer in the opening. CONSTITUTION: A bobbin(110) comprises a body(111) with a top flange(113) and a bottom flange(115). A pin supporting unit(120) is extended from one side of the bottom flange to outside. An auxiliary supporting unit(140) is extended from the other side of the bottom flange to outside. A core(150) comprises a first core(151) and a second core(155). The second core comprises a base part(156), a magnetic path forming part(157), and a bobbin mounting part(158).

Description

Transformer for adapter {TRANSFORMER FOR ADAPTER}

The present invention relates to a transformer, and more particularly, to a transformer for an adapter that can produce a slim adapter when the transformer is mounted on a printed circuit board to produce an adapter.

In general, a transformer is attached to a printed circuit board in an electronic product, and receives a low voltage to provide a high voltage in the electronic circuit or, on the contrary, converts a high voltage into a low voltage.

Such a transformer is usually manufactured by winding an outer circumferential surface of a bobbin made of heat and insulating resin with a coil, surrounding the coil with an insulating film, and inserting and fixing a ferrite core into the bobbin wound with the coil.

FIG. 1 is a view illustrating a conventional printed circuit board on which a transformer is mounted. The transformer 3 is assembled by soldering a planar arrangement on the printed circuit board 1 like various electronic components 5.

Since the transformer is generally the largest part mounted on the printed circuit board, the size of the product on which the printed circuit board is mounted depends on the size of the transformer.

As such, the transformer 3 and the related parts 5 are assembled in a planar manner on the printed circuit board 1, and according to the height of the transformer 3, the size of a product such as an adapter is increased and miniaturized. And slimming is difficult.

In addition, in the case of the transformer, as the soldering and assembling by hand on the printed circuit board respectively, the productivity is lowered, there is a problem that the soldering quality is also not uniform.

The present invention is to provide a transformer for an adapter that can be mounted on a printed circuit board by an automated process through the PCB through-type transformer, and to make the adapter slim.

The present invention is to provide a transformer for the adapter that can increase the effective area of the printed circuit board when the transformer is mounted in the opening of the printed circuit board by changing the structure of the lead pin.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular embodiments that are described. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, There will be.

Transformer for the adapter of the present invention for achieving the above object, the transformer is inserted and installed in the opening of the printed circuit board, the bobbin is formed in the upper flange and the lower flange at the upper and lower ends of the hollow body respectively; A pin support part extending from one side of the lower flange to the outside to support one side of the transformer when inserted into the opening, and having a through hole into which the lead pin is inserted; And an auxiliary support extending from the other side of the lower flange to the outside to support the other side of the transformer when inserted into the opening.

'자 형상인 것을 특징으로 한다.Specifically, the lead pin is'

It is characterized in that the 'shape.

The bottom of the pin support and the bottom of the auxiliary support is characterized in that located on the same horizontal line.

In addition, the first core is covered on the upper flange of the bobbin, and when the AC power is applied to the coil wound on the body of the bobbin to form a path (; 路); And a second core covered by the lower flange of the bobbin to be in close contact with the first core and forming a magnetic path when an AC power is applied to a coil wound around the body of the bobbin. When assembling the bobbin, the bottom of the second core and the bottom of the pin support is located on a different horizontal line, the bottom of the second core is located below the bottom of the pin support, and when assembling the second core to the bobbin The bottom of the second core and the bottom of the auxiliary support are located on different horizontal lines, and the bottom of the second core is located below the bottom of the auxiliary support.

The pin support portion, the body extending outward from one side of the lower flange; A plurality of through holes formed at a predetermined interval on the outside of the body to insert lead pins; And an insertion part protruding downward from the inner side of the bottom of the body and inserted into the opening of the printed circuit board.

The auxiliary support part may include an insertion part protruding downward from the other side of the lower flange and inserted into an opening of the printed circuit board; And a support part extending outwardly from one side of the insertion part to be in contact with the top surface of the printed circuit board when inserted into the opening part to support the other side of the transformer.

As described above, according to the present invention, by using the pin support part and the auxiliary support part, wave soldering is possible in the PCB through type as in the conventional dip type, and the adapter can be slimmed down due to the PCB through type. .

'자 형상으로 변경함에 따라 트랜스포머가 인쇄회로기판의 개구부에 장착될 경우, 코일단말처리부의 길이가 기존보다는 짧아짐에 따라 인쇄회로기판의 유효 면적이 늘어나 공간 배치 능력이 향상되는 이점이 있다.In addition, it is possible to adjust the degree of slimming by adjusting the insertion depth of the opening of the transformer using the pin support and the auxiliary support without changing the basic shape of the transformer in accordance with the slim product structure. Also, the structure of the lead pin

When the transformer is mounted in the opening of the printed circuit board according to the change in the shape of the child, the coil terminal processing unit has a shorter length than the conventional one, thereby increasing the effective area of the printed circuit board, thereby improving the space arrangement capability.

As such, in the PCB through-type method, an automated process such as wave soldering is possible through the pin support part and the auxiliary support part, thereby improving productivity and assembly quality.

1 is a view showing a printed circuit board equipped with a conventional transformer.
2 and 3 is a perspective view of the separation and assembly of the transformer for the adapter according to an embodiment of the present invention, respectively.
Figure 4 is a front view showing the bobbin of Figure 2 according to an embodiment of the present invention.
5 is a perspective view showing the structure of the pin support of Figure 2 according to an embodiment of the present invention.
6 and 7 are an exploded perspective view and a cross-sectional view showing a state in which a transformer according to the present invention is mounted on a printed circuit board.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like elements in the figures are denoted by the same reference numerals wherever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Figure 2 is an exploded perspective view showing a transformer for adapters according to an embodiment of the present invention, Figure 3 is an assembled perspective view showing a transformer for adapters according to an embodiment of the present invention, the transformer 100 is a bobbin 110, pin support 120, the lead pin 130, the auxiliary support 140, and the core 150 is formed.

First, the transformer 100 according to the present invention is a PCB through type inserted and installed in the opening 15 of the printed circuit board 10 as shown in FIG.

The bobbin 110 has a top flange 113 and a bottom flange 115 respectively formed at the top and bottom of the body 111 having a hollow 117 therein, and a coil (not shown) on the outer surface of the body 111. This is wound. Bobbin 110 is made of an insulator made of a 'I' shape of the hollow inside.

The pin support part 120 extends from one side of the bottom flange 115 to the outside to support one side of the transformer 100 when inserted into the opening 15, and the lead pin 130 is inserted into the extended part. Through holes 123 are formed.

The auxiliary support 140 extends outward from the other side of the lower flange 115 to support the other side of the transformer 100 when inserted into the opening 15.

The core 150 is composed of a first core 151 and a second core 155, the first core 151 has an I-shape, is covered on the upper flange 113 of the bobbin 110 to When AC power is applied to the coil wound around the body 111 of the bobbin 110, a magnetic path is formed. The second core 155 has an E shape corresponding to the first core 151, is covered by the lower flange 115 of the bobbin 110 to be in close contact with the first core 151, and the bobbin 110. When AC power is applied to the coil wound on the body 111 of the body (자 路) is formed.

That is, the second core 155 extends in the direction of the first core 151 from the base portion 156, the magnetization forming portion 157 to form a magnetic path, and the bobbin. It comprises a bobbin mounting portion 158 inserted into the hollow 117 of (110). The bobbin installation unit 158 may also serve to form a magnetic path like the magnetic path forming unit 157. The growth path forming portion 157 is formed to protrude along both ends of the base portion 156 at a predetermined width, and the bobbin mounting portion 158 has a cylindrical shape at the center of the base portion 156 toward the first core 151 side. It protrudes and is formed.

The first core 151 includes only a plate-shaped base part, but may also include a magnetic path forming part and a bobbin mounting part as in the second core 155 according to the design. In this case, the core 150 is called an EE type.

When assembling the second core 155 to the bobbin 110 in the above, the bottom of the second core 155 and the bottom of the pin support portion 120 is located on a different horizontal line, the bottom of the second core 155 It is formed to be located below the bottom of the pin support portion 120. In addition, when assembling the second core 155 to the bobbin 110, the bottom of the second core 155 and the bottom of the auxiliary support 140 is located on a different horizontal line, the second core 155 of The bottom surface is formed to be located below the bottom of the auxiliary support (140).

'자 형상으로 절곡되어 있으며, 상기 리드핀(130)은 보빈(110)에 권선된 코일과 연결된다. As shown in FIGS. 4 and 5, the pin support part 120 includes a body 121, a plurality of through holes 123, and an insertion part 125. The body 121 extends from one side of the bottom flange 115 to the outside and contacts the top surface of the printed circuit board 10 to support one side of the transformer 100. The plurality of through holes 123 are spaced apart at regular intervals on the outside of the body 121 to insert the lead pins 130. The insertion part 125 protrudes downward from the inner side of the bottom of the body 121 to be inserted into the opening 15 of the printed circuit board 10. Here, the lead pin 130 is inserted into the through hole 123 as shown in '

It is bent in a 'shape, the lead pin 130 is connected to the coil wound on the bobbin 110.

Here, as shown in FIG. 5, the lead pin 130 may include a through part 131, a coil terminal processing part 133, and an auxiliary part 135. The through part 131 is a vertical part inserted into the through hole 123 of the pin support part 120 to be inserted into the hole 11 of the printed circuit board 10, and the coil terminal processing part 133 is wound around one end of the coil. It is a horizontal part, and the auxiliary part 135 is a vertical part for preventing the wound coil from coming off. The through part 131 and the auxiliary part 135 extend in the same direction with the coil terminal processing part 133 interposed therebetween, and the through part 131 is formed longer than the auxiliary part 135. When the lead pin 130 is inserted into the through hole 123 of the body 121, it is preferable to form the length of the auxiliary part 135 so that one end of the auxiliary part 135 is not lower than the bottom of the body 121. Do. If the auxiliary part 135 is lowered downward than the bottom of the body 121, the auxiliary part 135 will be in contact with the surface of the printed circuit board 10. The number of the lead pins 130 may be changed in various ways depending on the design.

In the present invention, the coil terminal processing unit 133 of the lead pin 130 is set to protrude approximately 1.0mm to 2.0mm based on the outer surface of the body 121. This means that the coil is wound around the coil terminal processing unit 133 of 1.0 mm to 2.0 mm, and the auxiliary unit 135 has an advantage of shortening the length of the coil terminal processing unit 133. As a result, when the transformer 100 is mounted in the opening 15 of the printed circuit board 10, the effective area of the printed circuit board 10 increases as the length of the coil terminal processing unit 133 becomes shorter than that of the conventional. Improve your skills. In general, the lead pin 130 does not have an auxiliary portion 135, but only the long coil terminal processing unit 133 having an 'I' shape.

On the other hand, the auxiliary support 140 is configured to include an insertion portion 141 and the support 143 as shown in FIG. The insertion part 141 is formed to protrude downward from the other side of the lower flange 115 and is inserted into the opening 15 of the printed circuit board 10. The support part 143 extends from one side of the insertion part 141 to the outside, and when the transformer 100 is inserted into the opening 15, the support part 143 contacts the upper end surface of the printed circuit board 10 to provide the other side of the transformer 100. Support. Here, the support 143 extends outward at a point between the top surface and the bottom surface of the insertion portion 141.

The bottom of the pin support 120 and the bottom of the auxiliary support 140 is located on the same horizontal line, exactly the bottom of the body 121 of the pin support 120 and the support 143 of the auxiliary support 140 The bottom is formed on the same horizontal line.

The bobbin 110, the pin support 120 and the auxiliary support 140 is an insulator such as plastic, the pin support 120 and the auxiliary support 140 is formed integrally with the bobbin 110.

The transformer 100 configured as described above is a PCB through type inserted into the opening 15 of the printed circuit board 10 for the adapter, as shown in FIG.

It looks at the assembly and mounting process of the transformer for the adapter configured as described above briefly.

'자 형태의 리드핀(130)이 삽입된다. 여기서, 리드핀(130)은 핀지지부(120)의 관통홀(123)에 삽입되는 관통부(131)가 보조부(135)보다 더 길게 형성되어 있고, 몸체(121)의 외부로 돌출된 코일단말처리부(133)는 몸체(121)의 외측면을 기준으로 대략 1.0mm 내지 2.0mm 정도 돌출되어 있다.First, as shown in FIG. 2, the bobbin 110 includes a body 111, an upper flange 113, and a lower flange 115, and a pin support part 120 and an auxiliary support part 140 are formed at one side of the lower flange 115. ) Are formed respectively. A plurality of through holes 123 into which the lead pin 130 is inserted is formed outside the body 121 of the pin support part 120, and each through hole 123 has a '

Lead pin 130 of the 'shape is inserted. Here, the lead pin 130 has a through portion 131 inserted into the through hole 123 of the pin support portion 120 is longer than the auxiliary portion 135, the coil terminal protruding to the outside of the body 121 The processor 133 protrudes from about 1.0 mm to about 2.0 mm based on the outer surface of the body 121.

'자형 리드핀(130)의 몸체(121)의 외측으로 돌출된 코일단말처리부(133)에 각각 권선되어 코일과 리드핀(130)이 전기적으로 연결된다. After the first coil and the second coil are wound on the outer circumferential surface of the body 111 of the bobbin 110 formed as described above, the coils are inserted into the through holes 123 of the pin support part 120.

The coil and the lead pin 130 are respectively wound around the coil terminal processing unit 133 protruding outward from the body 121 of the female lead pin 130 to be electrically connected to each other.

In this state, as shown in FIG. 3, the first core 151 and the second core 155 are coupled to surround the upper flange 113 and the lower flange 115 of the bobbin 110.

The transformer 100 assembled as described above is inserted into the opening 15 of the printed circuit board 10 and the lead pin 130 is inserted into the hole 11 formed in the printed circuit board 10 as shown in FIG. 6. In this case, the transformer 100 includes the insertion portion 125 of the pin support 120 and the insertion portion 141 of the auxiliary support 140 together with the second core 155 and the opening 15 of the printed circuit board 10. The transformer 100 is horizontally supported on the opening 15 of the printed circuit board 10 by the body 121 of the pin support 120 and the support 143 of the auxiliary support 140.

Subsequently, the lead pin 130 inserted into the hole 11 of the printed circuit board 10 by a predetermined soldering device is automatically soldered in a wave soldering method. Generally, the transformer 100 is inserted into the opening 15 of the printed circuit board 10 as shown in FIGS. 6 and 7.

When the transformer 100 is inserted into the opening 15, the lower end of the second core 155 is inserted into the opening 15 of the printed circuit board 10, as shown in FIG. 7, and the second core ( The lower end of the 155 is protruded to the other side relative to the printed circuit board 10. Since the components 51 and 55 are mounted on both sides of the printed circuit board 10 according to the present invention, the insertion position of the transformer 100 may be inserted into the lower end of the printed circuit board 10. Equivalent to the maximum height can maximize the slimming of products such as adapters. Of course, referring to the parts 51 and 55 attached to the top and bottom surfaces of the printed circuit board 10, it is best to determine the insertion position of the transformer 100 so that the interference in space and the slimmer shape can be obtained. desirable.

Here, the position at which the transformer 100 is inserted into the opening 15 is determined by the position of the bottom of the body 121 of the pin support 120 and the bottom of the support 143 of the auxiliary support 140. Therefore, by adjusting the position of the bottom of the body 121 of the pin support 120 and the bottom of the support 143 of the auxiliary support 140, the insertion position of the transformer 100 can be adjusted. For example, as the bottom of the body 121 of the pin support 120 and the bottom of the support 143 of the auxiliary support 140 rise from the second core 155 toward the first core 151, the insertion depth of the transformer becomes deeper. do.

It is important here that the bottom of the body 121 of the pin support 120 and the bottom of the support 143 of the auxiliary support 140 are installed on the same horizontal line of the transformer 100. Accordingly, when the transformer 100 is inserted into the opening 15 as shown in FIG. 7, the transformer is kept horizontal to maximize the slimming of the adapter.

As described above, according to the present invention, the pin support part 120 and the auxiliary support part 140 are used, so that the mounting and wave soldering of the automated method can be performed even in the PCB through type, and the adapter can be slimmed down due to the PCB through type.

In addition, according to the slim product structure without changing the basic shape of the transformer, by using the pin support 120 and the auxiliary support 140 to adjust the insertion depth of the opening 15 of the transformer 100, the degree of slimming It is also possible to adjust.

In the case of the present invention, the transformer has been described as being applied to the adapter, but it is obvious that the transformer can be applied to various electric and electronic products as well.

The present invention has been described with reference to the preferred embodiments, and those skilled in the art to which the present invention pertains to the detailed description of the present invention and other forms of embodiments within the essential technical scope of the present invention. Could be. Here, the essential technical scope of the present invention is shown in the claims, and all differences within the equivalent range will be construed as being included in the present invention.

10: printed circuit board 15: opening
100: transformer 110: bobbin
111: body 113: top flange
115: lower flange 120: pin support
121: body 123: through hole
125: insertion unit 130: lead pin
131: through part 133: coil terminal processing part
135: auxiliary part 140: auxiliary support part
141: insertion portion 143: support portion
150: core 151: first core
155: second core

Claims (10)

In the transformer inserted and installed in the opening of the printed circuit board,
A bobbin in which an upper flange and a lower flange are respectively formed on the upper and lower ends of the hollow body;
A pin support part extending from one side of the lower flange to the outside to support one side of the transformer when inserted into the opening, and having a through hole into which the lead pin is inserted; And
And an auxiliary support extending from the other side of the bottom flange to the outside to support the other side of the transformer when inserted into the opening.
The method according to claim 1,
The lead pin is'

Transformer for adapter.
The method according to claim 1,
A transformer for adapters, wherein the bottom of the pin support and the bottom of the auxiliary support are located on the same horizontal line.
The method according to claim 1,
A first core covering the upper flange of the bobbin and forming a path when an AC power is applied to a coil wound around the body of the bobbin; And a second core covered by the lower flange of the bobbin to be in close contact with the first core, and forming a magnetic path when an AC power is applied to a coil wound around the body of the bobbin.
The method of claim 4,
When assembling the second core to the bobbin, the bottom of the second core and the bottom of the pin support are positioned on different horizontal lines, and the bottom of the second core is located below the bottom of the pin support.
The method of claim 4,
When assembling the second core to the bobbin, the bottom of the second core and the bottom of the auxiliary support are positioned on different horizontal lines, and the bottom of the second core is located below the bottom of the auxiliary support.
The method according to claim 1,
The pin support portion, the body extending outward from one side of the lower flange; A plurality of through holes formed at a predetermined interval on the outside of the body to insert lead pins; And an inserting portion protruding downward from the inner side of the bottom of the body and inserted into the opening of the printed circuit board.
The method of claim 7,
The body of the pin support is in contact with the top surface of the printed circuit board adapter for transformer to support one side of the transformer.
The method according to claim 1,
The auxiliary support part may include an insertion part protruding downward from the other side of the lower flange and inserted into an opening of the printed circuit board; And a support part extending outwardly from one side of the insertion part, the support part being in contact with the top surface of the printed circuit board when inserted into the opening part to support the other side of the transformer.
The method according to claim 9,
And the support portion extends outwardly at a point between the top and bottom surfaces of the insert.

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