KR20220137503A - Plug connector for board-to-board connector and connector assembly including the same - Google Patents

Abstract

According to an embodiment of the present invention, a plug connector for a board-to-board connector comprises: a connector main body including one pair of first side walls extended in a first direction and facing each other, and one pair of second side walls extended in a second direction crossing the first direction and facing each other; one pair of fitting nails coupled to the connector main body; and a plurality of plug terminals coupled to the pair of second side walls. Each of the pair of fitting nails includes: an upper surface unit coming in contact with an upper end of the first side walls; a center reinforcement unit curved from an upper surface unit towards a lower side to come in contact with at least a part of an outer side surface of the first side walls; and one pair of side unit reinforcement units extended from both ends of the upper surface unit in the second direction and coming in contact with an upper end of the second side walls. The center reinforcement unit includes a center solder unit extended from a lower end of the center reinforcement unit towards a lower side and surrounding at least a part of a bottom surface of the first side walls. Each of the pair of side unit reinforcement units includes: a first outer wall terminal extended downwards; a second outer wall terminal apart from the first outer wall terminal in the second direction and extended downwards; and a first inner wall terminal apart from the second outer wall terminal inwards and extended downwards. Each of the pair of side unit reinforcement units includes a side unit solder unit extended downwards from at least one of the first and second outer wall terminals and surrounding at least a part of a bottom surface of the second side walls. The present invention is able to improve the durability of the plug connector.

Description

A plug connector for a board-to-board connector and a connector assembly comprising the same

The present disclosure relates to a plug connector for a board-to-board connector and a connector assembly including the same. More particularly, the present disclosure relates to a plug connector for a board-to-board connector configured to be mounted on a surface of a board for electrical connection of the board, and a connector assembly including the same.

Conventionally, in order to electrically connect a pair of boards, a plug connector and a receptacle connector of a board to board (BTB) connector are used. Such a connector can be provided on each of the mutually opposing surfaces of a pair of circuit boards, and can be comprised so that it is fitted with each other and electricity is supplied. A plug connector and a receptacle connector may be components of a connector assembly.

In accordance with the trend of miniaturization of electronic devices, miniaturization and reduction in size of connectors are also required. As connectors are miniaturized and reduced in size, the durability of the connector is weakened, and the connector body (eg, the mold part of the connector) may be easily deformed or damaged due to a relative positional misalignment during fitting with the counterpart connector. Fitting nails (or reinforcing brackets) may be positioned at both ends of the connector to prevent damage to the connector body and to maintain a fitted state with the counterpart connector in order to provide electrical connection at both ends of the connector.

In general, a part of a fitting nail having an electrical contact terminal as a power terminal may be electrically directly connected to a board on which the connector is mounted. As the power supply current supply required by the board increases, an increase in the number of power terminals of the fitting nail is also required. When a Surface Mount Technology (SMT) process such as soldering is performed for electrical connection between the power terminals of the fitting nail and the board, lead moves from the board toward the connector and rises (solder wick) This can happen. If a solder rise problem occurs in the connector, the electrical connection of the connector may become unstable. In addition, when lead rise occurs, the durability of the connector may be weakened.

Embodiments of the present disclosure include a plug connector for a board-to-board connector that provides more power terminals to the fitting nail while preventing soldering of the fitting nail, and having a stable electrical connection of the power terminal of the connector when the connector is fitted A connector assembly is provided.

One embodiment provides a plug connector for a board-to-board connector.

The plug connector includes a connector body including a pair of first sidewalls extending along a first direction and facing each other and a pair of second sidewalls extending along a second direction transverse to the first direction and facing each other; a pair of fitting nails overmolded on the connector body; and a plurality of plug terminals overmolded on the pair of second sidewalls, wherein each of the pair of fitting nails has an upper surface portion in contact with an upper end of the first sidewall; a central reinforcing portion curved downward from the upper surface portion so as to be in contact with at least a portion of an outer surface of the first sidewall; and a pair of side reinforcement parts extending in a second direction from both ends of the upper surface part and in contact with the upper end of the second side wall, wherein the central reinforcement part extends downward from the lower end of the central reinforcement part and the bottom surface of the first side wall a first outer wall terminal extending downward, each of the pair of side reinforcement parts including a central solder part surrounding at least a part; a second outer wall terminal spaced apart from the first outer wall terminal in a second direction and extending downward; and a first inner wall terminal spaced apart from the second outer wall terminal inward and extending downward, wherein each of the pair of side reinforcement parts extends downward from at least one of the first and second outer wall terminals, and a side solder portion surrounding at least a portion of a bottom surface of the second sidewall.

The central solder part may extend downward from the lower end of the central reinforcement part, be convexly curved toward an inner surface of the first sidewall, and surround at least a portion of a bottom surface of the first sidewall.

The side solder portion may extend downwardly from the first outer wall terminal, be convexly curved toward an inner surface of the first side wall, and surround at least a portion of a bottom surface of the second side wall.

The side solder portion may further extend in the second direction, such that a second direction length of the side solder portion may be longer than a second direction length of the first outer wall terminal.

The pair of fitting nails are embedded in the connector body such that the central reinforcement part is exposed, at least a portion of a bottom surface of the central solder part is exposed downward, and the remaining part of the central solder part is not exposed, and the exposed part of the central reinforcement part and the exposed portion of the bottom surface of the central solder portion may be separated and exposed from each other with the connector body interposed therebetween, and the exposed portion of the central reinforcing portion may form an electrical contact terminal.

the pair of fitting nails are embedded in the connector body such that the first outer wall terminal and the second outer wall terminal are exposed to the outside, the first inner wall terminal is exposed inward, and the pair of side solder portions are exposed downward; The exposed portion of the bottom surface of the side solder portion and the exposed portion of the side reinforcement portion may be exposed separately from each other with the connector body interposed therebetween.

At least one groove portion may be formed in the central reinforcement portion as an electrical contact terminal.

In another embodiment, a connector assembly is provided.

The connector assembly includes a plug connector according to one embodiment; and a receptacle connector engaging the plug connector.

According to the embodiments of the present disclosure, it is possible to prevent solder rise in the fitting nail of the plug connector in the surface mounting technology process while providing more power terminals to the fitting nail.

According to the embodiments of the present disclosure, a plurality of power terminals (for example, three in each side reinforcement portion) may be formed on each fitting nail, so that a stable electrical contact may be secured. Accordingly, a stable electrical connection is possible even at a high current.

According to embodiments of the present disclosure, the area of the side solder portion of the fitting nail may be increased, so that contact failure of the connector may be prevented and adhesion to the substrate may be strengthened.

According to embodiments of the present disclosure, the plug connector may provide a stable electrical connection of the power terminal of the connector when the connector is fitted.

According to the embodiments of the present disclosure, the rigidity of the connector may be increased and the durability of the plug connector may be improved.

1 is a perspective view in one direction of a plug connector according to an embodiment including a connector body, a pair of fitting nails, and a plurality of plug terminals;
2A is a one-way perspective view of a fitting nail according to an embodiment;
Fig. 2b is a perspective view in another direction of the fitting nail shown in Fig. 2a;
Fig. 2c is a side view in A direction of the fitting nail shown in Fig. 2a;
FIG. 3 is an enlarged perspective view of a portion of a bottom surface of the plug connector shown in FIG. 1 .
FIG. 4 is a perspective view of the plug connector shown in FIG. 3 in the D-D'direction;
5 is a sectional perspective view of the plug connector shown in FIG. 1 in a direction B-B'.
6 is a cross-sectional perspective view of the plug connector shown in FIG. 1 in a direction C-C'.
Fig. 7 is a cross-sectional view when the plug connector shown in Fig. 1 is in contact with the corresponding connector;

Embodiments of the present disclosure are exemplified for the purpose of explaining the technical spirit of the present disclosure. The scope of the rights according to the present disclosure is not limited to the examples presented below or specific descriptions of these examples.

In the present disclosure, “an embodiment” is an arbitrary division for easily explaining the technical idea of the present disclosure, and each of the embodiments does not need to be mutually exclusive. For example, configurations disclosed in one embodiment may be applied and implemented in other embodiments, and may be changed and applied and implemented without departing from the scope of the present disclosure.

All technical and scientific terms used in this disclosure, unless otherwise defined, have the meanings commonly understood by one of ordinary skill in the art to which this disclosure belongs. All terms used in the present disclosure are selected for the purpose of more clearly describing the present disclosure and not to limit the scope of the present disclosure.

As used in this disclosure, expressions such as "comprising", "including", "having", etc. are open-ended terms connoting the possibility of including other embodiments, unless otherwise stated in the phrase or sentence in which the expression is included. (open-ended terms). In addition, as used in the present disclosure, terms such as "... unit" and "... module" mean a unit that processes at least one function or operation, which is implemented as hardware or software, or a combination of hardware and software. can be implemented as

Expressions in the singular described in this disclosure may include the meaning of the plural unless otherwise stated, and the same applies to expressions in the singular in the claims.

Expressions such as “first” and “second” used in the present disclosure are used to distinguish a plurality of components from each other, and do not limit the order or importance of the corresponding components.

Direction indicators such as “upper” and “upper” used in the present disclosure refer to the direction in which the plug connector 10 is positioned with respect to the substrate 20 with reference to FIG. 1 , and “lower” and “lower” Direction indicators such as etc. mean the opposite direction. This is a standard for explaining the present disclosure to the last so that it can be clearly understood, and it goes without saying that the upper side and the lower side may be defined differently depending on where the standard is placed.

Throughout the specification, the "longitudinal direction" of a component may be a direction in which the component extends along one axis of the component, wherein one axis of the component extends longer than the other axis transverse to the one axis. It can mean the direction

The coordinate system shown in the drawings of the present disclosure shows an x-axis, a y-axis, and a z-axis. However, the x, y, and z-axis directions shown in the drawings mean relative directions arbitrarily determined for convenience of description, and may be changed as necessary.

In the present disclosure, when it is mentioned that a certain element is "connected" to another element, the certain element can be directly connected to the other element, or can be connected via a new other element. should be understood as

Hereinafter, embodiments of the present disclosure will be described with reference to the accompanying drawings. In the accompanying drawings, identical or corresponding components are assigned the same reference numerals. In addition, in the description of the following embodiments, overlapping description of the same or corresponding components may be omitted. However, even if description regarding components is omitted, it is not intended that such components are not included in any embodiment.

1 is a perspective view of a plug connector 10 for a board-to-board connector according to an embodiment of the present disclosure. The plug connector 10 may be configured to be mounted on the surface of the board 20 for electrical connection of the board 20 . Here, the illustrated board 20 is only presented as an example, and as long as the plug connector 10 can be mounted, the shape, size, etc. of the board 20 may be changed as needed. The plug connector includes a connector body 200 , a pair of fitting nails 100 (see FIGS. 2A to 2C ), and a plurality of plug terminals 300 . The connector body 200 extends along a first direction (y-axis direction) and extends along a pair of first sidewalls 210 facing each other and a second direction (x-axis direction) transverse to the first direction, It includes a pair of second sidewalls 220 facing each other. The y-axis direction shown in the drawings may mean a first direction, and the x-axis direction may mean a second direction. Also, the z-axis direction may mean an up-down direction. The plug connector 10 may extend longer in the second direction (x-axis direction) than in the first direction (y-axis direction), but the shape of the plug connector 10 is not limited thereto.

The plug connector 10 may include a connector body 200 in which a concave portion 250 is formed. The connector body 200 may include a pair of first sidewalls 210 extending parallel to each other in the first direction. The connector body 200 may include a pair of second sidewalls 220 extending parallel to each other in the second direction. A length of the first sidewall 210 in the first direction may be shorter than a length of the second sidewall 220 in the second direction. The concave portion 250 formed in the connector body 200 may be surrounded by a pair of first sidewalls 210 and a pair of second sidewalls 220 . Hereinafter, with respect to the configuration of the plug connector 10 , the viewing direction of the concave portion 250 of the connector body 200 may be inward. In addition, the direction facing away from the concave portion 250 of the connector body 200 may be the outside.

Hereinafter, a plug connector 10 including a pair of fitting nails 100 according to an exemplary embodiment will be described with reference to FIGS. 1 and 2A to 2C together. The pair of fitting nails 100 may be configured to be overmolded to the connector body 200 by soldering. The pair of fitting nails 100 are overmolded to the connector body 200 to prevent the connectors 10 and 1000 from being easily deformed or damaged when the plug connector 10 is fitted with the receptacle connector 1000 (FIG. 7). can be prevented The fitting nail 100 may provide terminals for electrical connection at both ends of the plug connector 10 . Here, the terminal provided by the fitting nail 100 may be a terminal for power.

The plug connector 10 may include fitting nails 100 overmolded at both ends of the connector body 200 . Both ends of the connector body 200 may be opposite ends in the x-axis direction. The upper surface portion 110 of the fitting nail 100 may be in contact with the upper end of the first sidewall 210 of the connector body 200 and may be formed to extend in the y-axis direction. The upper surface portion 110 of the fitting nail 100 may contact the upper end of the first sidewall 210 to protect the first sidewall 210 .

2A is a perspective view in one direction of a fitting nail 100 according to an embodiment. FIG. 2B is a perspective view in another direction of the fitting nail 100 shown in FIG. 2A . FIG. 2C is a side view in A direction of the fitting nail 100 shown in FIG. 2A . The fitting nail 100 may be integrally formed by, for example, drilling, bending, or the like in a metal plate.

Hereinafter, the fitting nail 100 will be described in detail by setting the direction and position based on the fitting nail 100 positioned in the (+) direction of the x-axis in FIG. ), it is obvious to those skilled in the art that a symmetrical direction and position with respect to the fitting nail 100 positioned in the direction can be set and the same can be applied.

The fitting nail 100 may include a central reinforcing portion 120 curved downward from the upper surface portion 110 to contact at least a portion of the outer surface of the first sidewall 210 . The central reinforcement part 120 may be curved downward from one side of the upper surface part 110 of the fitting nail 100 in the x-axis direction. At least one groove part 125 may be formed in the central reinforcement part 120 . The groove portion 125 formed in the central reinforcement portion 120 is configured to maintain an electrical connection between the central reinforcement portion 120 and an object in contact with the central reinforcement portion 120 (ie, a corresponding portion of the fitting nail of the receptacle connector). can be configured.

The fitting nail 100 may include an expansion reinforcement part 115 . The expansion reinforcement part 115 may be curved downward from the other side in the x-axis direction of the upper surface part 110 . The central reinforcing part 120 and the expanded reinforcing part 115 may face each other. The expansion reinforcement part 115 and the central reinforcement part 120 may be spaced apart from each other by a predetermined distance.

The central reinforcing part 120 may include a central soldering part 140 further extending downward from the lower end of the central reinforcing part 120 . The central solder portion 140 may extend downward and be convexly curved. For example, the central solder portion 140 may be convexly curved toward the (-) direction of the x-axis direction. The central solder portion 140 may include a bottom surface 140a at a lower portion thereof. The bottom surface 140a of the central solder portion 140 may be configured to be in contact with the surface of the substrate 20 .

The fitting nail 100 may include a pair of side reinforcement parts 130 extending from both ends of the upper surface part 110 in the (-) direction of the x-axis direction. Each of the pair of side reinforcement parts 130 is curved downward from one end of the side reinforcement part 130 and extends to include a first outer wall terminal 131 in contact with the outer surface 220a of the second side wall 220. can Each of the pair of side reinforcement portions 130 may include an additional terminal 160 spaced apart from the first outer wall terminal 131 to provide an electrical connection separately from the first outer wall terminal 131 . The additional terminal 160 may include, for example, a plurality of terminals 161 and 162 positioned on surfaces opposite to each other. Each of the pair of side reinforcement parts 130 is spaced apart from the first outer wall terminal 131 in the second direction and curved downward to extend to a second outer wall terminal ( 161) may be included. Each of the pair of side reinforcing parts 130 is spaced apart from the second outer wall terminal 161 inwardly, and is curved downwardly to extend to make contact with the inner surface 220b of the second side wall 220, the first inner wall terminal 162 . ) may be included.

Each of the pair of side reinforcement portions 130 may include a side solder portion 150 extending downwardly from at least one of the first outer wall terminal 131 and the second outer wall terminal 161 . The side solder part 150 may extend downward and be convexly curved. The side solder part 150 may be convexly curved in a direction opposite to the direction in which the outer surface of the side reinforcement part 130 is viewed. That is, the side solder part 150 may be convexly curved toward the (+) direction or the (-) direction of the y-axis direction. The side solder part 150 may include a bottom surface 150a at a lower portion thereof. The bottom surface 150a of the side solder part 150 may extend in parallel. The bottom surface 140a of the central solder part 140 and the bottom surface 150a of the side solder part 150 are configured to be in direct contact with an object (eg, a board) on which the plug connector to which the fitting nail 100 is coupled is mounted. can be

As an example, the side solder part 150 may extend downward from the first outer wall terminal 131 . At least a portion of the side solder portion 150 may extend between the second outer wall terminal 161 and the first inner wall terminal 162 . Specifically, at least a portion of the side solder portion 150 is spaced apart from the second outer wall terminal 161 and the first inner wall terminal 162 , respectively, while the second outer wall terminal 161 and the first inner wall terminal 162 are spaced apart from each other. It may extend in the (-) direction of the x-axis direction.

The bottom surface 150a of the side solder portion 150 extending between the second outer wall terminal 161 and the first inner wall terminal 162 is disposed between the second outer wall terminal 161 and the first inner wall terminal 162 . It may be located at the lower portion, but may not contact both the second outer wall terminal 161 and the first inner wall terminal 162 . The side solder part 150 may further extend in the second direction, so that the length of the side solder part 150 in the second direction may be longer than the length of the first outer wall terminal 131 in the second direction. In addition, the side solder portion 150 may further extend in the second direction, so that the length of the second side solder portion 150 in the second direction may be longer than the length of the second outer wall terminal 161 in the second direction.

In FIG. 1 , the central reinforcement part 120 of the fitting nail 100 is the upper side surface of the first side wall 210 so as to be in contact with at least a portion of the outer side surface 210a of the first side wall 210 of the connector body 200 . It may extend by being curved downwardly surrounding at least a part of the. Hereinafter, the upper surface may refer to a portion in which the upper surface portion 110 of the fitting nail 100 is formed. The central reinforcing part 120 may be curved downward from the x-axis direction side of the upper surface and surround the outer surface 210a of the first sidewall 210 . The central reinforcing part 120 may extend in a direction away from the concave part 250 and may be curved downward.

The central reinforcing part 120 may be positioned on the first sidewall 210 to provide a terminal for electrical connection. The central reinforcement part 120 may provide a terminal for electrical connection on the outer surface 210a of the first sidewall 210 . For example, a terminal for electrical connection may be located in at least one groove part 125 formed in the central reinforcement part 120 . The groove portion 125 of the plug connector 10 may be concave to maintain a fitting state and electrical connection with a corresponding protrusion (not shown) of the receptacle connector. The groove part 125 may be recessed a predetermined distance from the outer surface of the central reinforcement part 120 . The expansion reinforcement part 115 may be disposed to face the central reinforcement part 120 , and may provide a terminal for electrical connection on the inner surface 210b of the first sidewall 210 .

When the plug connector 10 comes into contact with a corresponding terminal portion (not shown) of the receptacle connector for electrical connection, a portion of the corresponding terminal portion of the receptacle connector may be inserted into the groove portion 125 . Here, the corresponding terminal may refer to a configuration capable of being electrically connected to the central reinforcing part 120 and is not limited to a specific shape or a specific configuration. As a portion of the corresponding terminal portion of the receptacle connector is inserted into the groove portion 125 of the plug connector 10 , contact stability between the central reinforcement portion 120 and the corresponding terminal portion may be improved. The user can feel the coupling feeling (eg, sound and vibration generated during coupling) between the central reinforcement part 120 and the corresponding terminal part by the groove part 125 .

The fitting nail 100 may include a central solder portion 140 that further extends downward from the lower end of the central reinforcement portion 120 . In FIG. 1 , only a portion of the central solder portion 140 exposed to the outside is displayed.

In FIG. 1 , each of the pair of side reinforcement portions 130 of the fitting nail 100 may extend in the second direction from both ends of the upper surface portion 110 to contact the upper end of the second sidewall 220 . Each of the pair of side reinforcing parts 130 may be curved downwardly while surrounding at least a portion of an upper surface of each of the pair of second sidewalls 220 . Each of the pair of side reinforcement parts 130 is a terminal (131, 161, 162) for electrical connection that can wrap a portion of the outer surface (220a) and the inner surface (220b) of each of the pair of second side walls (220) ) can be provided.

The first outer wall terminal 131 surrounds a portion of the upper surface of the second side wall 220 so as to be in contact with at least a portion of the outer surface 220a of the second side wall 220 of the connector body 200 and is curved downward. can be extended At least a portion of the first outer wall terminal 131 may be exposed to the outside to provide a separate contact point for electrical connection to the outer surface 220a of the second side wall 220 .

The second outer wall terminal 161 is spaced apart from the first outer wall terminal 131 in the x-axis direction so as to be in contact with at least a portion of the outer surface 220a of the second side wall 220 of the connector body 200 . Wrapping a portion of the upper side of the 220 may be curved downwardly extended. At least a portion of the second outer wall terminal 161 may be exposed to the outside. The second outer wall terminal 161 and the first outer wall terminal 131 may provide electrical contact terminals spaced apart from each other on the outer surface 220a of the second side wall 220 of the connector body 200 , respectively.

The first inner wall terminal 162 may be curved downward to extend while enclosing another portion of the upper surface of the second side wall 220 . Here, the other portion of the upper surface of the second sidewall 220 may mean a predetermined portion of portions other than a portion of the upper surface of the second sidewall 220 covered by the second outer wall terminal 161 . . The first inner wall terminal 162 may extend by being curved downward while surrounding another portion of the upper surface of the second side wall 220 so as to be in contact with at least a portion of the inner surface 220b of the second side wall 220 . . At least a portion of the first inner wall terminal 162 may be connected to the first outer wall terminal 131 . The first inner wall terminal 162 may be exposed to the outside. The first inner wall terminal 162 may provide an electrical contact terminal on the inner surface 220b of the second side wall 220 .

The plug connector 10 may include a plug terminal 300 including a plurality of terminals 310 for electrical connection. The plurality of terminals 310 may provide contacts (signal terminals) for electrical connection to the outside and inside of the second sidewall 220 of the connector body 200 , respectively. The plug terminal 300 may be positioned between the pair of fitting nails 100 . The plug terminal 300 may be disposed to be spaced apart from the side reinforcement part 130 by a predetermined distance.

FIG. 3 is an enlarged perspective view of a portion of the plug connector 10 shown in FIG. 1 . FIG. 4 is a perspective view of the plug connector shown in FIG. 3 in the D-D' direction;

The upper surface portion 110 and the central reinforcement portion 120 of the fitting nail 100 may be exposed to the outside while surrounding the upper and outer surfaces 210a of the first side wall 210 . A portion of the central solder portion 140 may be embedded in the first sidewall 210 of the connector body 200 by overmolding. The exposed portion of the central reinforcing part 120 that is not buried may form an electrical contact terminal.

The central solder portion 140 of the fitting nail 100 is formed in a direction from the outer surface 210a of the first sidewall 210 to the inner surface 210b of the first sidewall 210 ((-) direction in the x-axis direction. ) is convexly curved, and the curved end may reach the outer surface 210a of the first sidewall 210 again. The curved end of the central solder portion 140 may protrude more outward than the outer surface 210a of the first sidewall 210 . The curved end of the central solder portion 140 may surround at least a portion of the bottom surface of the first sidewall 210 . The curved portion of the central solder portion 140 may be embedded in the first sidewall 210 of the connector body 200 .

When the plug connector 10 is mounted on the board, the bottom surface 140a of the central solder part 140 may be configured to be in contact with the board 20 . For example, the bottom surface 140a of the central solder portion 140 is located below the bottom surface of the first sidewall 210 , so that when the plug connector 10 comes into contact with the board 20 , the connector body 200 . It may be in contact with the substrate 20 first.

The pair of fitting nails 100 may be over-molded to the connector body 200 . For example, the pair of fitting nails 100 may be over-molded or full over-molded on both ends of the connector body 200 . The connector body 200 may be formed of a material that can be subjected to an overmolding process, and the material may be, for example, plastic or resin. Overmolding is a way in which different materials (components) are injection molded together. For example, an insulating material is molded into the connector body 200 in the mold, and at least a portion of the pair of fitting nails 100 and the plug terminal 300 may be filled. Accordingly, the connector body 200 , the pair of fitting nails 100 , and the plug terminal 300 may form the plug connector 10 .

Referring to FIG. 2C together, when the pair of fitting nails 100 are overmolded to the connector body 200, the gap space 111 formed on the lower side of the side reinforcement part 130 flows like a jig. A preventive mechanism may be inserted. That is, the pair of fitting nails 100 may be overmolded in the connector body 200 while the flow prevention mechanism is inserted into the gap space 111 of the pair of fitting nails 100 . Here, the connector body 200 cannot be filled in a predetermined position where the flow prevention mechanism is inserted. After the fitting nail 100 is over-molded, the flow prevention mechanism is removed, and a void 211 may be formed in the connector body 200 . When the fitting nail 100 is overmolded, the air gap 211 may be formed at a position corresponding to a predetermined position at which the flow prevention mechanism is inserted, and may have a shape and size corresponding to the shape and size of the flow prevention mechanism. have.

The pair of fitting nails 100 are embedded in the connector body 200 so that at least a portion of the bottom surface 140a of the central solder unit 140 is exposed downward, and the rest of the central solder unit 140 is not exposed. can be For example, at least a portion of the bottom surface 140a of the central solder portion 140 may be exposed to the outside. The remaining portion of the central solder unit 140 (a portion other than at least a portion of the bottom surface 140a of the central solder unit 140 ) may be embedded in the first sidewall 210 of the connector body 200 . The remaining portion of the central solder portion 140 embedded in the first sidewall 210 of the connector body 200 may not be exposed to the outside. That is, the exposed portions of the central reinforcing portion 120 and the central soldering portion 140 may be separated from each other with the connector body 200 interposed therebetween. Accordingly, a direct electrical flow that may be formed by solder rise in the remaining portion of the central solder portion 140 embedded in the connector body 200 may be blocked by the connector body 200 .

By the connector body 200 , the exposed portion 141 of the central solder portion 140 and the exposed portion 121 of the central reinforcing portion 120 may be separated from each other with the connector body 200 interposed therebetween. As the exposed portion 141 of the central solder portion 140 and the exposed portion 121 of the central reinforcing portion 120 are separated from each other with the connector body 200 interposed therebetween, the central reinforcement along the central solder portion 140 . It can be prevented that lead rise occurs in the portion 120 (eg, the contact portion of the central reinforcing portion 120 ). That is, the remaining portion of the central solder unit 140 is buried in the connector body 200 , so that solder rise that may occur along the central solder unit 140 may be blocked by the connector body 200 .

5 is a sectional perspective view of the plug connector shown in FIG. 1 in a direction B-B'. 6 is a cross-sectional perspective view of the plug connector shown in FIG. 1 in a direction C-C'.

At least a portion of the side solder portion 150 may extend from the first outer wall terminal 131 . At least a portion of the side solder portion 150 is formed in a direction from the outer surface 220a of the second sidewall 220 toward the inner surface 220b of the second sidewall 220 (positive in the y-axis direction or the y-axis direction). direction (-) direction), and the curved end may reach the outer surface 220a of the second sidewall 220 again. The curved end of the side solder part 150 may protrude more outward than the outer surface 220a of the second sidewall 220 . The exposed portion 151 of the side solder portion 150 may be spaced apart from the exposed portion 1611 of the second outer wall terminal 161 and the exposed portion 1621 of the first inner wall terminal 162 . The exposed portion 151 of the side solder portion 150 is spaced apart from each of the second outer wall terminal 161 and the first inner wall terminal 162 by a predetermined distance, and the second outer wall terminal 161 and the first inner wall terminal ( 162) may be located below.

The exposed portion 151 of the side solder portion 150 may include a bottom surface 150a configured to be in contact with the substrate 20 (refer to FIG. 1 ). When the plug connector 10 is mounted on the board 20 , the bottom surface 150a of the side solder part 150 may be configured to be in contact with the board 20 . For example, the bottom surface 150a of the side solder part 150 is located below the bottom surface of the second sidewall 220 of the connector body 200 , so that when the plug connector 10 comes into contact with the board 20 , , may be in contact with the board 20 before the connector body 200 .

5 and 6 , in the pair of fitting nails 100 , the first outer wall terminal 131 and the second side wall terminal 161 are exposed to the outside, and the first inner wall terminal 162 is the inner side. and may be embedded in the connector body 200 such that the pair of side solder parts 150 are exposed downward. Accordingly, a direct electrical flow that may be formed by solder rise in the remaining portion of the side solder part 150 embedded in the connector body 200 may be blocked by the connector body 200 .

The exposed part 151 of the side solder part 150 and the exposed part 132 of the side reinforcement part 130 may be separated from each other with the connector body 200 interposed therebetween. By the connector body 200 , the exposed part 151 of the side solder part 150 and the exposed part 132 of the side reinforcement part 130 may be separated from each other with the connector body 200 interposed therebetween. As the exposed portion 151 of the side solder portion 150 and the exposed portion 132 of the side reinforcement portion 130 are separated from each other with the connector body 200 interposed therebetween, the side reinforcement portion is reinforced along the side solder portion 150 . It can be prevented that lead rises to the part 130 (eg, the contact part of the side reinforcement part 130 ). That is, the remaining part of the side solder part 150 is buried in the connector body 200 , so that solder rise that may occur along the side solder part 150 may be blocked by the connector body 200 .

As described above, in the plug connector 10 according to the embodiment, the exposed portion 141 of the central solder portion 140 and the exposed portion 121 of the central reinforcing portion 120 have the connector body 200 interposed therebetween. Separated from each other, the exposed portion 151 of the side solder portion 150 and the exposed portion 132 of the side reinforcing portion 130 may be separated from each other with the connector body 200 interposed therebetween.

Accordingly, when the plug connector 10 is mounted on the board 20 by the surface mounting technology process, it is possible to prevent solder rise in the central reinforcing part 120 and the side reinforcing part 130 . Naphoreum is the contact part of the central reinforcement part 120 (eg, the groove part 125 of the central reinforcement part 12 and the contact part of the side reinforcement part 130) (eg, of the side reinforcement part 130) When it occurs in the first outer wall terminal 131 , the second outer wall terminal 161 and/or the first inner wall terminal 162 ), poor contact of the plug connector 10 may occur, and the plug connector 10 may have unstable contact resistance. The temperature of the connector 10 may increase. This may cause defects in the plug connector 10 and the board 20 on which the plug connector 10 is mounted. A stable electrical connection can be provided by preventing solder rise from occurring at the contact portion of the central reinforcing unit 120 and the contact portion of the side reinforcing unit 130. In addition, the plug connector 10 is Damage or breakage can be prevented, so that the rigidity of the plug connector 10 can be increased, and the durability of the plug connector 10 can be improved.

In the plug connector 10 according to the embodiment, a plurality of power terminals (eg, three in each side reinforcement 130 ) may be formed on each fitting nail 100 . Accordingly, a stable electrical contact can be secured, and a stable electrical connection is possible even at a high current. In addition, since the area of the side solder portion 150 of the fitting nail 100 may be increased, contact failure of the connector 10 may be prevented and adhesion to the substrate may be enhanced.

Fig. 7 is a cross-sectional view when the plug connector shown in Fig. 1 is in contact with the corresponding connector;

As an example, the mating connector mounted on the mating board 50 may be the receptacle connector 1000 . When the plug connector 10 is inserted into the receptacle connector 1000 , the plug connector 10 and the receptacle connector 1000 may be electrically connected. The second outer wall terminal 161 and the first inner wall terminal 162 of the plug connector 10 may provide terminals for electrical connection, respectively.

The second outer wall terminal 161 and the first inner wall terminal 162 of the plug connector 10 may be electrically connected by contacting the receptacle terminal 1010 of the receptacle connector 1000, respectively. A step 165 for fastening the receptacle terminal 1010 may be formed on the second outer wall terminal 161 of the plug connector 10 . As the step 165 is formed, the electrical connection between the second outer wall terminal 161 and the receptacle terminal 1010 may be more stably maintained. The central reinforcement part 120 and the first outer wall terminal 131 of the plug connector 10 can also be electrically connected by contacting the receptacle center terminal (not shown) and the receptacle terminal (not shown) of the receptacle connector 1000. Of course. Further, an additional electrical connection may be provided by the plug terminal 300 of the plug connector 10 and the plug terminal (not shown) of the receptacle connector 1000 . As the plug connector 10 and the receptacle connector 1000 are electrically connected, the board 20 on which the plug connector 10 is mounted and the corresponding board 50 on which the receptacle connector 1000 is mounted may be electrically connected. .

Although the technical spirit of the present disclosure has been described by the examples shown in some embodiments and the accompanying drawings, it does not depart from the technical spirit and scope of the present disclosure that can be understood by those of ordinary skill in the art to which the present disclosure belongs. It should be understood that various substitutions, modifications, and alterations within the scope may be made. Further, such substitutions, modifications, and alterations are intended to fall within the scope of the appended claims.

10: plug connector, 20: board, 100: fitting nail, 110: upper surface, 111: gap space, 115: expanded reinforcement, 120: central reinforcement, 121: exposed portion of central reinforcement, 125: groove, 130: Side reinforcement part, 131: first outer wall terminal, 132: exposed part of side reinforcement part, 140: central solder part, 140a: central solder part bottom surface, 141: central solder part exposed part, 150: side solder part, 150a: side solder Part bottom, 151: exposed portion of the side solder portion, 160: additional terminal, 161: second outer wall terminal, 162: first inner wall terminal, 165: step, 200: connector body, 210: first sidewall, 210a: first Outside surface of sidewall, 210b Inside surface of first sidewall, 211 Gap, 220 Second sidewall, 220a Outside surface of second sidewall, 220b Inside surface of second sidewall, 250 recess, 300 plug Terminal 310: Terminal, 50: Corresponding board, 1000: Corresponding connector (receptacle connector), 1010: Receptacle terminal

Claims (8)

It is a plug connector for board-to-board connector,
a connector body including a pair of first sidewalls extending in a first direction and facing each other and a pair of second sidewalls extending along a second direction transverse to the first direction and facing each other;
a pair of fitting nails coupled to the connector body; and
a plurality of plug terminals coupled to the pair of second sidewalls;
Each of the pair of fitting nails is
an upper surface portion in contact with an upper end of the first sidewall;
a central reinforcing portion curved downward from the upper surface portion so as to be in contact with at least a portion of an outer surface of the first sidewall; and
and a pair of side reinforcement parts extending in the second direction from both ends of the upper surface part and in contact with the upper end of the second side wall,
The central reinforcement part includes a central solder part extending downward from the lower end of the central reinforcement part and surrounding at least a portion of the bottom surface of the first side wall,
Each of the pair of side reinforcement parts is
a first outer wall terminal extending downward;
a second outer wall terminal spaced apart from the first outer wall terminal in a second direction and extending downward; and
and a first inner wall terminal spaced inwardly from the second outer wall terminal and extending downward;
Each of the pair of side reinforcement parts includes a side solder part extending downward from at least one of the first and second outer wall terminals and surrounding at least a portion of the bottom surface of the second side wall,
plug connector. The method of claim 1,
The central solder portion extends downward from the lower end of the central reinforcement portion, is convexly curved toward the inner surface of the first sidewall, and surrounds at least a portion of the bottom surface of the first sidewall,
plug connector. According to claim 1,
The side solder portion extends downward from the first outer wall terminal, is convexly curved toward an inner surface of the first side wall, and surrounds at least a portion of a bottom surface of the second side wall,
plug connector. According to claim 1,
The side solder portion further extends in a second direction, so that a second direction length of the side solder portion is longer than a second direction length of the first outer wall terminal;
plug connector. According to claim 1,
The pair of fitting nails are embedded in the connector body such that the central reinforcement part is exposed, at least a portion of a bottom surface of the central solder part is exposed downward, and the remaining part of the central solder part is not exposed;
The exposed portion of the central reinforcement portion and the exposed portion of the bottom surface of the central solder portion are exposed separately from each other with the connector body interposed therebetween,
the exposed portion of the central reinforcement forming an electrical contact terminal;
plug connector. According to claim 1,
the pair of fitting nails are embedded in the connector body such that the first outer wall terminal and the second outer wall terminal are exposed outward, the first inner wall terminal is exposed inward, and the pair of side solder portions are exposed downward;
The exposed portion of the bottom surface of the side solder portion and the exposed portion of the side reinforcement portion are separated and exposed from each other with the connector body interposed therebetween,
plug connector. 6. The method of claim 1 or 5,
At least one groove portion is formed as an electrical contact terminal in the central reinforcement portion,
plug connector. A plug connector according to any one of claims 1 to 6 and
a receptacle connector engaging the plug connector;
connector assembly.

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