KR20200098165A - Receptacle connector - Google Patents

Abstract

Provided is a receptacle connector. The receptacle connector, into which a plug connector is inserted in a first direction, includes: an upper connection terminal including a first extension part extended in the first direction, and a first protruding part protruding from the front end of the first extension part in the first direction; a lower connection terminal including a second extension part extended in the first direction, and a second protruding part protruding from the front end of the second extension part in the first direction; a mold structure including a flat part extended in the first direction and a second direction crossing the first direction, wherein the flat part includes an upper part exposing the first extension part and covering the first protruding part and a lower part exposing the second extension part and the second protruding part; and a conductive plate interposed between the upper connection terminal and the lower connection terminal in the flat part. In a third direction crossing the first direction and the second direction, the thickness of the first extension part is thicker than the thickness of the first protruding part, and, in the third direction, the thickness of the second extension part is thicker than the thickness of the second protruding part. Therefore, the receptacle connector is capable of preventing a connection terminal from being deformed or scratched even if the connector is repetitively combined and separated.

Description

Receptacle connector

The present invention relates to a receptacle connector. More specifically, the present invention relates to a receptacle connector for USB.

Typically, the connector includes a plug connector and a receptacle connector. The receptacle connector is mounted on a printed circuit board (PCB) of an electronic device, and is fastened to the plug connector, and includes a plurality of connection terminals, a mold structure supporting the plurality of connection terminals, and a housing surrounding the mold structure ( housing).

Specifically, the connection terminals may be arranged in a form that satisfies, for example, a pin standard of a universal serial bus (USB). The connection terminals are held while being insulated from each other by the mold structure, and are shielded from the outside by the housing surrounding the mold structure.

On the other hand, connectors are required to be light, thin, and short to meet the trend of miniaturization of electronic devices. However, there is a problem that the light, thin, and shortened connector is easily damaged as fastening and disconnecting are repeated.

The technical problem to be solved by the present invention is to provide a receptacle connector with reinforced strength and light, thin and short.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

A receptacle connector according to some embodiments of the inventive concept for achieving the above technical problem is a receptacle connector into which a plug connector is inserted in a first direction, a first extension part extending in a first direction, and a first An upper connection terminal including a first protrusion protruding from a front end of the extension in a first direction, a second extension extending in the first direction, and a second protrusion protruding in a first direction from the front end of the second extension. A mold structure including a lower connection terminal, a first direction, and a flat portion extending in a second direction crossing the first direction, wherein the flat portion exposes the first extension portion, the upper portion covering the first protrusion portion, and the second extension portion, A mold structure including a lower portion covering the second protrusion, and a conductive plate interposed between the upper connection terminal and the lower connection terminal in the flat portion, and in a third direction crossing the first direction and the second direction, The thickness of the first extension is thicker than the thickness of the first projection, and in the third direction, the thickness of the second extension is thicker than the thickness of the second projection.

In some embodiments, the width of the first protrusion in the second direction decreases as it moves away from the first extension.

In some embodiments, the upper connection terminal includes an inner surface facing the lower connection terminal and an outer surface facing the inner surface and spaced apart from the inner surface from the lower connection terminal, and the outer surface of the upper portion of the flat portion and the first extension portion The outer surface is disposed substantially on the same plane.

In some embodiments, the first and second extensions are symmetrical with respect to the conductive plate, and the first and second protrusions are symmetrical with respect to the conductive plate.

In some embodiments, a conductive cover is further included on the rear end of the flat portion, covering a portion of the first extension portion and a portion of the second extension portion, and connected to the conductive plate.

Details of other embodiments are included in the detailed description and drawings.

According to the technical idea of the present invention, there are at least the following effects.

In the receptacle connector according to some embodiments of the inventive concept, since the mold structure is formed to surround the protrusion formed at the front end of the connection terminal, even if the connector is repeatedly fastened and disconnected, peeling or deformation of the connection terminal can be prevented. .

In the receptacle connector according to some embodiments of the inventive concept, since the protrusion of the connection terminal is formed by pressing or forging the outer surface of the connection terminal, an insulation distance between the connection terminal and the conductive plate can be easily secured. have.

The effects according to the present invention are not limited by the contents exemplified above, and more various effects are included in the present specification.

1 is a perspective view of a receptacle connector according to some embodiments of the inventive concept.
2 is an exploded perspective view for explaining the receptacle connector of FIG. 1.
3 is a cross-sectional view taken along AA in FIG. 1.
4 is a side view illustrating an upper connection terminal, a lower connection terminal, and a conductive plate of FIG. 1.
5 is a plan view illustrating an upper connection terminal, a lower connection terminal, and a conductive plate of FIG. 1.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms different from each other, and only these embodiments make the disclosure of the present invention complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have it, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same components throughout the specification.

When one component is referred to as "connected to" or "coupled to" with another component, it is possible to directly connect or couple with another component, or to intervene another component. Includes all cases. On the other hand, when one component is referred to as "directly connected to" or "directly coupled to" with another component, it indicates that no other component is intervened. "And/or" includes each and every combination of one or more of the recited items.

That a component is referred to as "on" or "on" of another component includes both the case where the other component is interposed not only above the other component but also in the middle. On the other hand, when a component is referred to as "directly on" or "directly on" of another component, it indicates that no other component is intervened.

Spatially relative terms "below", "beneath", "lower", "above", "upper", etc., as shown in the figure It can be used to easily describe the correlation between components and other components. Spatially relative terms should be understood as terms including different directions of the device during use or operation in addition to the directions shown in the drawings. For example, when an element shown in the figure is turned over, a component described as "below" or "beneath" of another element may be placed "above" another component. . Accordingly, the exemplary term “below” may include both directions below and above. Components may be oriented in other directions, and thus spatially relative terms may be interpreted according to the orientation.

The terms used in the present specification are for describing exemplary embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. As used in the specification, "comprises" and/or "comprising" refers to the presence of one or more other components, steps, actions and/or elements in the referenced components, steps, actions and/or elements. Or does not exclude additions.

Although the first, second, and the like are used to describe various components, it goes without saying that these components are not limited by these terms. These terms are only used to distinguish one component from another component. Therefore, it goes without saying that the first component mentioned below may be the second component within the technical idea of the present invention.

Unless otherwise defined, all terms (including technical and scientific terms) used in the present specification may be used with meanings that can be commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not interpreted ideally or excessively unless explicitly defined specifically.

Hereinafter, a receptacle connector according to some embodiments of the inventive concept will be described with reference to FIGS. 1 to 3.

1 is a perspective view of a receptacle connector according to some embodiments of the inventive concept. 2 is an exploded perspective view for explaining the receptacle connector of FIG. 1. 3 is a cross-sectional view taken along line A-A of FIG. 1.

1 to 3, a receptacle connector according to some embodiments includes a mold structure 100, an upper connection terminal 110, a lower connection terminal 120, and a conductive plate 130.

The receptacle connector according to some embodiments may be mounted on a board (eg, a printed circuit board (PCB)) or the like. In addition, the receptacle connector may be fastened with a plug connector (not shown) corresponding thereto. For example, the plug connector may advance along the first direction X and may be fastened to the front end of the receptacle connector according to some embodiments. In the present specification, the front end refers to a portion of a receptacle connector disposed in a direction toward the plug connector. Conversely, in the present specification, the rear end refers to a portion of the receptacle connector disposed in a direction opposite to the front end of the receptacle connector.

The mold structure 100 may support the upper connection terminal 110, the lower connection terminal 120, and the conductive plate 130. The mold structure 100 may include a flat portion 102, a peripheral portion 104, and a rear end portion 106.

The flat portion 102 of the mold structure 100 may have a plate shape. For example, the flat portion 102 may extend in a first direction (X) and a second direction (Y) crossing the first direction (X). Further, the flat portion 102 may expose a part of the upper connection terminal 110 and a part of the lower connection terminal 120. Accordingly, when the receptacle connector according to some embodiments is fastened with a plug connector corresponding thereto, the upper connection terminal 110 and the lower connection terminal 120 may be electrically connected to the connection terminal of the plug connector.

The peripheral portion 104 of the mold structure 100 may cover a part of the flat portion 102. For example, the circumferential portion 104 may expose the front end of the flat portion 102 and cover the rear end of the flat portion 102. In addition, the circumferential portion 104 may surround a part of the upper connection terminal 110 and a part of the lower connection terminal 120.

The rear end 106 of the mold structure 100 may be disposed on the rear end of the flat portion 102 and on the rear end of the circumferential portion 104. The rear end portion 106 of the mold structure 100 may be disposed on a substrate (eg, a printed circuit board (PCB)) on which a receptacle connector according to some embodiments is mounted.

The mold structure 100 may be formed of an insulating material including, for example, a polymer or a plastic resin. Accordingly, the mold structure 100 may electrically insulate the plurality of upper connection terminals 110 and the plurality of lower connection terminals 120 from each other. In some embodiments, the mold structure 100 may include a liquid crystal polymer (LCP), but the technical idea of the present invention is not limited thereto.

The upper connection terminal 110 and the lower connection terminal 120 may pass through the mold structure 100 and be fixed to the mold structure 100. In addition, a part of the upper connection terminal 110 and a part of the lower connection terminal 120 may be exposed by the mold structure 100. For example, the front end of the upper connection terminal 110 may be exposed by the upper portion 102a of the flat portion 102, and the front end of the lower connection terminal 120 is at the lower portion 102b of the flat portion 102. Can be exposed by

The upper connection terminal 110 and the lower connection terminal 120 may be arranged in a form that satisfies a predetermined pin standard. For example, the upper connection terminal 110 and the lower connection terminal 120 may be arranged in a form that satisfies the pin standard of Universal Serial Bus (USB) type-C.

Details of the pin specifications of USB Type-C have been disclosed at IDF (Intel Developer Forum). For example, as shown in FIG. 2, the upper connection terminal 110 may include a first signal terminal 110a, a first power terminal 110b, and a first ground terminal 110c, and a lower connection terminal 120 may include a second signal terminal 120a, a second power terminal 120b, and a second ground terminal 120c.

The first signal terminal 110a and the second signal terminal 120a are arranged on the mold structure 100 to input and output data electrical signals. When the receptacle connector according to some embodiments is fastened with a plug connector corresponding thereto, the first signal terminal 110a and the second signal terminal 120a may be electrically connected to the signal terminal of the plug connector. Accordingly, the first signal terminal 110a and the second signal terminal 120a may input/output data to and from the substrate on which the receptacle connector according to some embodiments is disposed.

There may be a plurality of first and second signal terminals 110a and 120a, and the plurality of first and second signal terminals 110a and 120a may be arranged in parallel with each other. For example, the plurality of first signal terminals 110a may extend along the first direction X from the upper portion 102a of the flat portion 102, and may be arranged side by side along the second direction Y. I can. Similarly, the plurality of second signal terminals 120a may extend along the first direction X from the lower portion 102b of the flat portion 102 and may be arranged side by side along the second direction Y. .

In some embodiments, four first signal terminals 110a on the mold structure 100 and four second signal terminals 120a on the lower portion of the mold structure 100 may be respectively disposed. That is, a total of eight first and second signal terminals 110a and 120a may be disposed on the mold structure 100. However, the technical idea of the present invention is not limited thereto, and the number of the first signal terminals 110a and the second signal terminals 120a may be appropriately adjusted according to the type and function of the connector.

The first power terminal 110b may be arranged in parallel with the first signal terminal 110a, and the second power terminal 120b may be arranged in parallel with the second signal terminal 120a. The first power terminal 110b and the second power terminal 120b may input and output power electrical signals. When the receptacle connector according to some embodiments is fastened with a plug connector corresponding thereto, the first power terminal 110b and the second power terminal 120b may be electrically connected to the power terminal of the plug connector. Accordingly, the first power terminal 110b and the second power terminal 120b may input and output power to the substrate on which the receptacle connector is disposed.

The first power terminal 110b and the second power terminal 120b may be plural, and the plurality of first power terminals 110b and the second power terminal 120b may be arranged parallel to each other. In some embodiments, two first power terminals 110b may be disposed above the mold structure 100 and two second power terminals 120b may be disposed below the mold structure 100. That is, a total of four first power terminals 110b and second power terminals 120b may be disposed on the mold structure 100. However, the technical idea of the present invention is not limited thereto, and the number of the first power terminal 110b and the second power terminal 120b may be appropriately adjusted according to the type and function of the connector.

The first ground terminal 110c may be arranged in parallel with the first signal terminal 110a and the first power terminal 110b, and the second ground terminal 120c is a second signal terminal 120a and a second power terminal It can be arranged side by side with (120b). When the receptacle connector according to some embodiments is fastened with the plug connector corresponding thereto, the first ground terminal 110c and the second ground terminal 120c may be electrically connected to the ground terminal of the plug connector or may be grounded. . Accordingly, the first ground terminal 110c and the second ground terminal 120c may prevent electromagnetic interference due to high-speed signals.

The upper connection terminal 110 includes a first extension part 112 extending in a first direction X and a first protrusion 114 protruding in a first direction X from the front end of the first extension part 112. It may include. In addition, the lower connection terminal 120 includes a second extension part 122 extending in the first direction X and a second protrusion protruding in the first direction X from the front end of the second extension part 122 ( 124). In this case, the flat portion 102 may expose the first extension portion 112 and the second extension portion 122 and cover the first protrusion portion 114 and the second protrusion portion 124. This will be described in detail later in the description of FIGS. 4 and 5.

The upper connection terminal 110 and the lower connection terminal 120 may include a conductive material. For example, the upper connection terminal 110 and the lower connection terminal 120 may include a copper alloy, but the technical idea of the present invention is not limited thereto.

The conductive plate 130 may be fixed in the mold structure 100. The conductive plate 130 may be interposed between the upper connection terminal 110 and the lower connection terminal 120. The conductive plate 130 is grounded to prevent electromagnetic interference due to high-speed signals. For example, the conductive plate 130 may prevent an electromagnetic interference phenomenon between the upper connection terminal 110 and the lower connection terminal 120.

In some embodiments, the conductive plate 130 may include a first fixing portion 132 extending from a rear end thereof. The first fixing portion 132 of the conductive plate 130 may penetrate through the mold structure 100 and extend toward the bottom surface of the rear end portion 106 of the mold structure 100, for example. For example, the first fixing part 132 may extend from the rear end of the conductive plate 130 in the third direction Z to penetrate the bottom surface of the rear end 106. In some embodiments, the conductive plate 130 may include a plurality of openings 1302 therein.

The receptacle connector according to some embodiments may further include a conductive cover 140. The conductive cover 140 may be disposed on the peripheral portion 104 of the mold structure 100. Accordingly, the conductive cover 140 may cover a part of the upper connection terminal 110 and a part of the lower connection terminal 120.

In some embodiments, the conductive cover 140 may include a second fixing portion 142 extending from its rear end. The second fixing portion 142 of the conductive cover 140 may penetrate through the mold structure 100 and extend toward a sidewall of the rear end portion 106 of the mold structure 100, for example. For example, the second fixing part 142 may extend from the rear end of the conductive cover 140 in the second direction Y to penetrate the sidewall of the rear end 106.

In some embodiments, the conductive sheath 140 may include a connection portion 144 extending from its side. The connection part 144 of the conductive cover 140 may be connected to the conductive plate 130 by passing through the peripheral part 104 of the mold structure 100, for example. For example, the connection part 144 may extend from the sidewall of the conductive cover 140 in the third direction Z to be connected to the sidewall of the conductive plate 130. Accordingly, the conductive cover 140 may be electrically connected to the conductive plate 130.

In some embodiments, the conductive cover 140 may include an upper cover 140a covering an upper surface of the peripheral portion 104 and a lower cover 140b covering a bottom surface of the peripheral portion 104. That is, the upper cover 140a may cover a part of the upper connection terminal 110, and the lower cover 140b may cover a part of the lower connection terminal 120. In some embodiments, the upper cover 140a and the lower cover 140b may have a shape symmetrical with respect to the conductive plate 130.

Hereinafter, an upper connection terminal and a lower connection terminal according to some embodiments of the inventive concept will be described in more detail with reference to FIGS. 1 to 5.

4 is a side view illustrating an upper connection terminal, a lower connection terminal, and a conductive plate of FIG. 1. For reference, FIG. 4 is a view of a structure in which the mold structure 100 and the conductive cover 140 are omitted from the receptacle connector of FIG. 1 as viewed from the side (eg, the second direction Y).

1 to 4, in the receptacle connector according to some embodiments, the upper connection terminal 110 includes a first extension part 112, a first protrusion part 114, a first bent part 116, and a first mounting. The portion 118 may be included, and the lower connection terminal 120 may include a second extension part 122, a second protrusion 124, a second bent part 126, and a second mounting part 128. have. 4 shows only the first signal terminal 110a and the second signal terminal 120a as examples of the upper connection terminal 110 and the lower connection terminal 120, but this is only for convenience of description. For example, the first power terminal 110b, the first ground terminal 110c, the second power terminal 120b, and the second ground terminal 120c also have a first signal terminal 110a and a second signal terminal 120a. Of course, it can have a shape similar to ).

The upper connection terminal 110 and the lower connection terminal 120 may each include an inner side and an outer side. Here, the inner surface refers to the outer surfaces of the upper connection terminal 110 and the lower connection terminal 120 (for example, 112IS, 114IS, 122IS, 124IS of FIG. 4) facing the conductive plate. Conversely, the outer surface is the outer surface of the upper connection terminal 110 and the lower connection terminal 120 facing the inner surface and spaced apart from the inner surface from the conductive plate 130 (for example, 112OS, 114OS, 122OS in FIG. , 124OS).

The first extension part 112 of the upper connection terminal 110 and the second extension part 122 of the lower connection terminal 120 may extend elongated in the first direction X, respectively. When the receptacle connector according to some embodiments is fastened with a plug connector corresponding thereto, the first extension part 112 and the second extension part 122 may be portions that are directly connected to the connection terminal of the plug connector. . For example, the first extension part 112 may be exposed by the upper portion 102a of the flat portion 102, and the second extension portion 122 is exposed by the lower portion 102b of the flat portion 102 Can be.

The first protrusion 114 of the upper connection terminal 110 may protrude in the first direction X from the front end of the first extension 112. However, the first protrusion 114 may be covered by the upper portion 102a of the flat portion 102. For example, the thickness T12 of the first protrusion 114 may be smaller than the thickness T11 of the first extension 112. Here, "thickness" means the thickness in the third direction (Z). For example, as shown in FIG. 4, the distance from the inner surface 114IS of the first protrusion 114 to the outer surface 114OS of the first protrusion 114 is the inner surface of the first extension 112 It may be smaller than the distance from 112IS to the outer surface 112OS of the first extension part 112. Accordingly, the upper portion 102a of the flat portion 102 may expose the first extension portion 112 and cover the first protrusion portion 114.

In some embodiments, the inner surface 114IS of the first protrusion 114 may be disposed substantially on the same plane as the inner surface 112IS of the first extension portion 112. In the present specification, "the same" is meant to include not only the exact same thing, but also minute differences that may occur due to a margin on a process. This may be due, for example, because the first protrusion 114 is formed by pressing or forging the outer surface of the front end of the upper connection terminal 110, but the technical idea of the present invention is not limited thereto.

In some embodiments, as shown in FIG. 3, the outer surface of the first extension portion 112 (112OS in FIG. 4) and the outer surface of the upper portion 102a of the flat portion 102 may be disposed substantially on the same plane. I can. This may be due to, for example, that the mold structure 100 is formed by insert molding using the upper connection terminal 110.

The first bent part 116 of the upper connection terminal 110 may be bent and extended from the rear end of the first extension part 112. For example, the first bent portion 116 may extend from the rear end of the first extension portion 112 in the third direction Z to penetrate the bottom surface of the rear end portion 106.

The first mounting portion 118 of the upper connection terminal 110 may extend from the rear end of the first bent portion 116. The first mounting portion 118 may be disposed on the bottom surface of the rear end portion 106. The first mounting unit 118 may mount the upper connection terminal 110 on a substrate on which a receptacle connector according to some embodiments is disposed. For example, the first mounting unit 118 may mount the upper connection terminal 110 on a substrate or the like in a method such as soldering.

The second protrusion 124 of the lower connection terminal 120 may protrude in the first direction X from the front end of the second extension 122. However, the second protrusion 124 may be covered by the lower portion 102b of the flat portion 102. For example, the thickness T22 of the second protrusion 124 may be smaller than the thickness T21 of the second extension 122. Here, "thickness" means the thickness in the third direction (Z). For example, as shown in FIG. 4, the distance from the inner surface 124IS of the second protrusion 124 to the outer surface 124OS of the second protrusion 124 is the inner surface of the second extension part 122 It may be smaller than the distance from 122IS to the outer surface 112OS of the second extension part 122. Accordingly, the lower portion 102b of the flat portion 102 may expose the second extension portion 122 and cover the second protrusion portion 124.

In some embodiments, the inner side surface 124IS of the second protrusion 124 may be disposed substantially on the same plane as the inner side surface 122IS of the second extension part 122. This may be due to, for example, the second protrusion 124 being formed by pressing or forging the outer surface of the front end of the lower connection terminal 120, but the technical idea of the present invention is not limited thereto.

In some embodiments, as shown in FIG. 3, the outer surface of the second extension portion 122 (122OS in FIG. 4) and the outer surface of the lower portion 102b of the flat portion 102 may be disposed substantially on the same plane. I can. This may be due to, for example, that the mold structure 100 is formed by insert molding using the lower connection terminal 120.

In some embodiments, the first extension part 112 and the second extension part 122 are symmetrical with respect to the conductive plate 130, and the first protrusion part 114 and the second protrusion part 124 are the conductive plate 130. ) Can be symmetrical. For example, as shown in FIG. 4, a distance D1 between the inner surfaces 112IS and 114IS of the upper connection terminal 110 and the conductive plate 130 and the inner surface of the lower connection terminal 120 ( The distance D2 between 122IS and 124IS and the conductive plate 130 may be substantially the same. In addition, for example, the thickness T11 of the first extension part 112 may be substantially the same as the thickness T21 of the second extension part 122, and the thickness T12 of the first protrusion part 114 May be substantially the same as the thickness T22 of the second protrusion 124.

The second bent portion 126 of the lower connection terminal 120 may be bent and extended from the rear end of the second extension portion 122. For example, the second bent portion 126 may extend from the rear end of the second extension portion 122 in the third direction Z to penetrate the bottom surface of the rear end portion 106.

The second mounting portion 128 of the lower connection terminal 120 may extend from the rear end of the second bent portion 126. The second mounting portion 128 may be disposed on the bottom surface of the rear end portion 106. The second mounting unit 128 may mount the lower connection terminal 120 on a substrate on which a receptacle connector according to some embodiments is disposed. For example, the second mounting unit 128 may mount the lower connection terminal 120 on a substrate or the like by a method such as soldering.

5 is a plan view illustrating an upper connection terminal, a lower connection terminal, and a conductive plate of FIG. 1. For reference, FIG. 5 is a view of a structure in which the mold structure 100 and the conductive cover 140 are omitted from the receptacle connector of FIG. 1 as viewed from an upper surface (eg, the third direction Z).

1 to 5, in the receptacle connector according to some embodiments, the width of the first protrusion 114 may decrease as the distance from the first extension 112 increases. Here, the width means the width in the second direction (Y).

For example, as shown in FIG. 5, the width W1 of the rear end of the first protrusion 114 in the second direction Y is in the second direction Y of the front end of the first protrusion 114 It may be larger than the width (W2). 5 is an enlarged view of only the first signal terminal 110a as an example of the upper connection terminal 110 and the lower connection terminal 120, but this is only for convenience of description. For example, the first power terminal 110b, the first ground terminal 110c, the second signal terminal 120a, the second power terminal 120b, and the second ground terminal 120c are also the first signal terminal 110a. Of course, it can have a shape similar to ).

In some embodiments, the sidewall of the first protrusion 114 may have an inclination with respect to the sidewall of the first extension 112. For example, the first extension part 112 may include a first sidewall 112SS extending along the first direction X and the third direction Z. In addition, the first protrusion 114 may include a second sidewall 114SS extending from the first sidewall 112SS and forming an acute angle θ1 with the first sidewall 112SS.

The receptacle connector according to some embodiments of the technical idea of the present invention uses a mold structure 100 formed to surround the front end of the upper connection terminal 110 and the front end of the lower connection terminal 120, and strength is reinforced. It is possible to provide a light, thin and short receptacle connector. For example, the front end of the upper connection terminal 110 or the lower connection terminal 120 may include a first protrusion 114 or a second protrusion 124 formed by pressing or forging. In this case, the mold structure 100 may be formed to support the outer surface 114OS or the outer surface 124OS of the first protrusion 114 or the second protrusion 124. For example, the mold structure 100 has an outer surface 114OS (or an outer surface 124OS) of the first protrusion 114 or the second protrusion 124 by insert molding using the upper connection terminal 110. It can be formed to cover. Accordingly, even if the connector is repeatedly fastened and disconnected, the upper connection terminal 110 or the lower connection terminal 120 may be prevented from being peeled off or deformed.

In addition, the receptacle connector according to some embodiments of the technical idea of the present invention is pressed or forged against the outer surfaces 112OS and 114OS of the upper connection terminal 110 and the outer surfaces 122OS and 124OS of the lower connection terminal 120. Since the first protrusion 114 and the second protrusion 124 can be formed by performing processing, it is possible to easily secure an insulation distance between the upper connection terminal 110 and the lower connection terminal 120 and the conductive plate. . Accordingly, the strength is reinforced and a light, thin and short receptacle connector may be provided.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, the present invention is not limited to the above embodiments, but may be manufactured in various different forms, and those having ordinary knowledge in the technical field to which the present invention pertains. It will be understood that the present invention can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not limiting.

100: mold structure 102: flat portion
104: circumferential portion 106: rear end
110: upper connection terminal 112: first extension
114: first protrusion 120: lower connection terminal
122: second extension 124: second protrusion
130: conductive plate 140: conductive cover

Claims (5)

A receptacle connector into which a plug connector is inserted along a first direction,
An upper connection terminal including a first extension part extending in the first direction and a first protrusion part protruding in the first direction from a front end of the first extension part;
A lower connection terminal including a second extension part extending in the first direction and a second protrusion part protruding in the first direction from a front end of the second extension part;
A mold structure including a flat portion extending in the first direction and a second direction crossing the first direction, wherein the flat portion exposes the first extension portion and covers the first protrusion portion, and the second extension portion A mold structure including a lower portion exposing and covering the second protrusion; And
In the flat portion, comprising a conductive plate interposed between the upper connection terminal and the lower connection terminal,
In the first direction and in a third direction crossing the second direction, the thickness of the first extension part is thicker than the thickness of the first protrusion,
In the third direction, a thickness of the second extension portion is thicker than a thickness of the second projection portion. The method of claim 1,
A receptacle connector that decreases as the width of the first protrusion in the second direction decreases from the first extension. The method of claim 1,
The upper connection terminal includes an inner surface facing the lower connection terminal, and an outer surface facing the inner surface and spaced apart from the lower connection terminal than the inner surface,
An outer surface of an upper portion of the flat portion and an outer surface of the first extension portion are substantially disposed on the same plane. The method of claim 1,
The first extension part and the second extension part are symmetrical with respect to the conductive plate,
The first protrusion and the second protrusion are symmetrical with respect to the conductive plate. The method of claim 1,
A receptacle connector further comprising a conductive cover on a rear end of the flat portion, covering a portion of the first extension portion and a portion of the second extension portion, and connected to the conductive plate.

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