KR20230019919A - receptacle connector - Google Patents

Abstract

The present application relates to a receptacle connector. The receptacle connector according to one embodiment of the present invention includes: an insulating body having an upper surface having a concave bowl shape and including a ridge formed at the center of the upper surface; contact parts each formed between the inner surface of the upper surface located in the width direction of the insulating body and the ridge, and having a plurality of contact pins arranged at a constant pitch; and a metal hold-down part bent according to the shape of the insulating body and integrally covering the insulating body. Accordingly, the receptacle connector can be easily combined with other connectors.

Description

Receptacle connector {receptacle connector}

The present application relates to a receptacle connector, and more particularly, to a receptacle connector having an improved structure of the receptacle connector.

Board connectors are used to connect printed circuit boards (PCBs) or electronic components on which wires are patterned. In particular, B2B connectors (board to board connectors) include plug connectors and receptacle connectors, including plug connectors and Each of the receptacle connectors is connected to different substrates, and signals may be transmitted through different substrates by combining the plug connector and the receptacle connector.

The plug connector and the receptacle connector are physically coupled to electrically connect the contacts of the plug connector and the contacts of the receptacle connector. During this coupling process, there is a risk that the receptacle connector or the plug connector may be damaged by pressure. Therefore, the receptacle connector and the plug A method for facilitating coupling between connectors and improving their strength is required.

The present application is intended to provide a receptacle connector that can be easily coupled with other connectors and can reduce the possibility of damage due to coupling with other connectors.

The present application is intended to provide a receptacle connector capable of simultaneously transmitting a radio frequency (RF) signal and a digital signal.

The present application is intended to provide a receptacle connector capable of improving strength and formability by integrally forming a hold-down portion.

A receptacle connector according to an embodiment of the present invention includes an insulating body having a bowl shape with a concave upper surface and including a raised portion formed at the center of the upper surface; a contact portion formed between an inner surface of the upper surface positioned in the width direction of the insulating body and the raised portion, and having a plurality of contact pins arranged at a constant pitch; and a hold-down part made of a metal material that is bent according to the shape of the insulating body and integrally covers the insulating body.

Here, the raised portion may be formed in a bar shape extending in the longitudinal direction of the insulating body.

Here, the contact part includes a first inner surface of the insulating body located on one side in the width direction and a first support part formed spaced apart from the first inner surface, and the first inner surface and the first support part a first contact portion including a first curved portion formed therebetween; And a second inner surface of the insulating body located on the other side in the width direction, and a second support part formed spaced apart from the second inner surface, formed between the first inner surface and the second support part A second contact unit may be included.

Here, the first support part and the second support part are formed in a bar shape extending in the longitudinal direction of the insulating body, and the first support part and the second support part may be respectively located on opposite side surfaces of the raised part.

Here, the first contact part includes a first contact pin having a curved shape corresponding to surfaces of the first inner surface, the first curved part, and the first contact ridge, and the second contact part includes the second inner surface, the first contact pin. It may include a second contact pin having a curved shape corresponding to the surface of the second curved portion and the second contact raised portion.

Here, the hold-down part may include a through hole at a position corresponding to the contact part to expose the contact part to the outside of the hold-down part.

Here, the hold-down part includes a bottom surface covering a region between an inner surface of the upper surface located in the longitudinal direction of the insulating body and the raised portion, and the bottom surface is connected to the inner surface of the hold-down part can be integrally formed.

Here, the hold-down part includes a raised cover portion that is bent according to an outer shape of the raised portion to cover the raised portion, and the raised cover portion may protrude more in the longitudinal direction than the first support portion and the second support portion.

Here, the hold-down portion may further include a contact portion protruding into the through hole, and the contact portion may be compressed by the plug connector when a plug connector is inserted.

Here, the hold-down part may further include a soldering part on a lower surface of the hold-down part, corresponding to a soldering area of a board on which the receptacle connector is installed.

Here, the hold-down part may include a groove or a protrusion corresponding to an inner surface of the hold-down part for coupling with the groove or protrusion formed in the plug connector.

In addition, the solution to the above problem does not enumerate all the features of the present invention. Various features of the present invention and the advantages and effects thereof will be understood in more detail with reference to specific embodiments below.

Since the receptacle connector according to an embodiment of the present invention can provide guiding when coupled with other connectors, it can be easily coupled with other connectors.

Since the receptacle connector according to an embodiment of the present invention can achieve high strength, it is possible to reduce the possibility of breakage when coupled with other connectors.

Since the receptacle connector according to an embodiment of the present invention uses an integral hold-down portion that does not include a disconnection portion, strength and formability of the product can be improved.

Since the receptacle connector according to an embodiment of the present invention includes a raised cover portion that electromagnetically shields the contact portion, it is possible to simultaneously transmit a radio frequency (RF) signal and a digital signal.

1 is a schematic diagram showing the coupling of a receptacle connector and a plug connector according to an embodiment of the present invention.
2 is a perspective view showing a receptacle connector according to an embodiment of the present invention.
3 is an exploded perspective view showing a receptacle connector according to an embodiment of the present invention.
4 is a cross-sectional view showing a contact portion of a receptacle connector according to an embodiment of the present invention.
5 is an enlarged view showing a raised cover portion of a receptacle connector according to an embodiment of the present invention.
6 is a schematic diagram showing a soldering part of a receptacle connector according to an embodiment of the present invention.

Hereinafter, preferred embodiments will be described in detail so that those skilled in the art can easily practice the present invention with reference to the accompanying drawings. However, in describing a preferred embodiment of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and actions.

In addition, throughout the specification, when a part is said to be 'connected' to another part, this is not only the case where it is 'directly connected', but also the case where it is 'indirectly connected' with another element in between. include In addition, 'including' a certain component means that other components may be further included, rather than excluding other components unless otherwise stated.

1 is a schematic diagram showing the coupling of a receptacle connector and a plug connector according to an embodiment of the present invention.

Referring to Figure 1 (a), the plug connector 200 can be coupled to the receptacle connector 100 by moving in the direction of the arrow. In this case, as shown in FIG. 1 (b), the plug connector 200 may be inserted into and fixed to the curved portion formed in the contact portion 120 of the receptacle connector 100, and disposed in the receptacle connector 100. The plurality of contact pins c1 and c2 may form contact points with the plug connector 200 . That is, the receptacle connector 100 and the plug connector 200 may be electrically connected to form a contact point, and the receptacle connector 100 may transmit/receive a data signal or power through the connected contact point. Here, the receptacle connector 100 and the plug connector 200 may be a B2B (board to board) connector that connects the boards to each other, and depending on the embodiment, simultaneously supports a radio frequency (RF) signal and a digital signal. it may be

Figure 2 is a perspective view showing a receptacle connector according to an embodiment of the present invention, Figure 3 is an exploded perspective view showing a receptacle connector according to an embodiment of the present invention.

2 and 3, the receptacle connector 100 according to an embodiment of the present invention may include an insulating body 110, a contact unit 120, and a hold-down unit 130. .

Hereinafter, a receptacle connector according to an embodiment of the present invention will be described with reference to FIGS. 2 and 3 .

The insulating body 110 may have a bowl shape with a concave upper surface, and may include a raised portion u at the center of the upper surface. Here, the raised portion u may be formed in a bar shape extending in the longitudinal direction of the insulating body 110, and the upper surface includes a first inner surface f1 and a second inner surface located in the width direction. (f2), and may include a third inner surface (f3) and a fourth inner surface (f4) located in the longitudinal direction.

As shown in FIGS. 2 and 3, a contact portion 120 in which contact pins c1 and c2 are disposed may be formed in the insulating body 110, and a hold-down portion may be formed on an upper surface of the insulating body 110. 130 may be assembled to form receptacle connector 100 . Here, the insulating body 110 may be formed of an insulating material such as plastic that does not conduct electricity.

The contact portion 120 may be formed between the inner surfaces f1 and f2 of the upper surface positioned in the width direction of the insulating body 110 and the raised portion u, respectively. As shown in FIG. 1, a plurality of contact pins c1 and c2 may be arranged at a constant pitch in the contact unit 120, and when the plug connector 200 is inserted, the plug connector 200 and the contact point can form Here, the contact pins c1 and c2 may be arranged in the contact unit 120 by insert molding in the insulating body 110 .

The contact pins c1 and c2 may be made of a conductive material and may be provided for electrical contact with a contact pin of the plug connector 200 or a board. Some areas of the contact pins c1 and c2 may be exposed from the insulating body 110 for contact with the substrate, and other areas of the contact pins c1 and c2 may be exposed from the insulating body for contact with the plug connector 200. (110) can be exposed.

Specifically, as shown in FIGS. 1 and 2 , the contact portion 120 may be divided into a first contact portion 121 and a second contact portion 122 based on the raised portion u.

The first contact part 121 includes a first inner surface f1 of the insulating body 110 located on one side in the width direction and a first support part s1 formed spaced apart from the first inner surface f1. can do. In this case, the first contact portion 121 may include a first curved portion b1 formed between the first inner surface f1 and the first support portion s1. As shown in FIG. 2 , the contact pin c1 may have a shape bent to be exposed along the surface of the first inner surface f1, the first curved portion b1, and the first support portion s1.

The second contact part 122 includes a second inner surface f2 of the insulating body 110 located on the other side in the width direction and a second support part s2 formed spaced apart from the second inner surface f2. can do. Here, the second curved part b2 is included between the second inner surface f2 and the second support part s2, and the contact pin c2 is formed between the second inner surface f2, the second curved part b2 and the second curved part b2. 2 It may have a bent shape to be exposed along the surface of the support part (s2).

Here, the first support part s1 and the second support part s2 are located on both side surfaces of the raised part u and may be formed in a bar shape extending in the longitudinal direction of the insulating body 110. . The first support part s1 and the second support part s2 may be shorter than or equal to the length of the raised part u.

The hold-down part 130 may be formed by bending according to the shape of the insulating body 110, and as shown in FIG. 3, it may integrally cover the insulating body 110. That is, it can be confirmed that the hold-down part 130 covers the entire upper surface of the insulating body 110 as a whole without any disconnected areas.

The hold-down part 130 may be implemented with a metal material, and may perform a function of guiding the plug connector 200 when coupled with the plug connector 200 . That is, since the hold-down part 130 is formed through bending, corners of the inner or outer surface of the hold-down part 130 may form a gentle slope. Accordingly, when the plug connector 200 is coupled, the plug connector 200 can be naturally guided on the surface of the hold-down portion 130 .

In addition, since the insulating body 110 is made of a relatively weak material such as plastic, there is a risk of being damaged by an impact applied when the plug connector 200 is coupled. In order to prevent this, the hold-down part 130 made of a metal material may be assembled to cover the upper surface of the insulating body 110 . That is, by protecting the insulating body 110 using the hold-down portion 130 having high strength made of metal, it is possible to prevent damage to the insulating body 110 and to reinforce the strength of the receptacle connector 100 .

Additionally, referring to FIG. 3 , the hold-down part 130 may include a bottom surface 131 . The bottom surface 131 corresponds to a configuration that covers a region between the inner surfaces f3 and f4 located in the longitudinal direction of the insulating body 110 and the raised portion u. Here, the bottom surface 31 may be integrally formed by being connected to the inner surface of the hold-down part 130 . When inserting the plug connector 200, the user may contact and couple it from a position corresponding to the bottom surface 131, and at this time, an impact may be applied by the plug connector 200. In addition, since a region between the inner surfaces f3 and f4 of the insulating body 110 and the raised portion u is relatively thin, strength may be weak. Therefore, the hold-down part 130 may further include the bottom surface 131 to reinforce the strength of the corresponding area.

Meanwhile, as shown in FIG. 3 , the hold-down part 130 may include a through hole h, and the through hole h may be formed at a position corresponding to the contact part 120 . Therefore, as shown in FIG. 2 , the contact portion 120 may be exposed to the outside of the hold-down portion 130 through the through hole h. Since it is exposed to the outside through the through hole h, when the plug connector 200 is inserted, the contact portion 120 may be coupled with the plug connector 200 to form a contact point. Here, as shown in FIG. 4, when the contact part 120 is exposed to the outside through the through hole h, the hold-down part 130 forms the outer surface of the insulating body 110 in a “L” shape. By covering it, the strength around the contact portion 120 can be improved.

Also, referring to FIGS. 3 and 4 , the hold-down portion 130 may include a raised cover portion 132 that is bent according to the outer shape of the raised portion u to cover the raised portion u. Here, since the raised cover portion 132 is a conductive material made of metal, it serves to electrically shield the first contact portion 121 and the second contact portion 122 located on both sides of the raised cover portion 132. can be performed. At this time, the hold-down unit 130 may be connected to ground.

Here, since the raised cover portion 132 is implemented in a dome shape in cross section, it is possible to improve breakage strength against external impact, and since the raised cover portion 132 includes a raised portion u therein, , it can have a relatively high buckling strength against external pressure.

Additionally, referring to FIG. 5 , it can be seen that the raised cover part 132 protrudes further by a set length d in the longitudinal direction than the first support part s1 and the second support part s2 . Since the raised cover part 132 is made of a metal material, its rigidity is relatively high compared to the first support part s1 or the second support part s2 made of plastic or the like. When the plug connector 200 is fastened, if the first support portion s1 or the second support portion s2 come into contact with the plug connector 200, the first support portion s1 or the second support portion s2 may be damaged. high. Therefore, in order to prevent this, the raised cover portion 132 is set to a set length ( d) may be formed to protrude further. Here, the set length (d) can be set in various ways, and can be set to the thickness of the raised cover part 132 depending on the embodiment.

Meanwhile, the hold-down part 130 may further include a contact part 133 . As shown in FIG. 2, the contact portion 133 may have a shape protruding long into the through hole h, and may have elasticity due to the protruding shape. The contact portion 133 may be compressed by the plug connector when the plug connector 200 is inserted, thereby improving contact reliability between the receptacle connector 100 and the plug connector 200 . Here, since the hold-down part 130 can be connected to ground, the contact part 133 can provide ground to the plug connector 200 . The shape or number of contact parts 133 may be variously set according to embodiments.

Additionally, the hold-down unit 130 may further include a soldering unit 134 for soldering the receptacle connector 100 to a board. The soldering part 134 may be formed on the lower surface of the hold-down part 130, and as shown in FIG. 6, it may be formed corresponding to the soldering area p of the substrate. That is, the soldering portion 134 may be formed along the circumference of the lower surface of the hold-down portion 130, and the soldering portion 134 may be formed in a region where the contact pins c1 and c2 of the contact portion 120 protrude. may not form. An area where the hold-down part 130 contacts the soldering area p of the board may be enlarged by the soldering part 134, and through this, the contact force between the receptacle connector 100 and the board may be increased.

In addition, grooves or protrusions e1 for coupling with the plug connector 200 may be formed on the inner surface of the hold-down part 130 . At this time, the plug connector 200 may have a protrusion or groove corresponding to the groove or protrusion e1 formed in the hold-down part 130, and the receptacle connector 100 and Stable coupling between the plug connectors 200 can be maintained.

Depending on the embodiment, the groove e2 may also be included on the outer surface of the hold-down part 130 . Here, the groove e2 formed on the outer surface of the hold-down part 130 is formed for stable coupling with the insulating body 110, and prevents the hold-down part 130 from being peeled off from the insulating body 110. function can be performed.

The present invention is not limited by the foregoing embodiments and accompanying drawings. It will be clear to those skilled in the art that the components according to the present invention can be substituted, modified, and changed without departing from the technical spirit of the present invention.

100: receptacle connector 110: insulation body
120: contact part 121: first contact part
122: second contact part 130: hold-down part
131: bottom surface 132: raised cover portion
133: contact part 134: soldering part

Claims (21)

Insulation body 110 including a recessed space radially inside the outer periphery of which a direction in which a plurality of contact pins are arranged side by side is a longitudinal direction and a direction perpendicular to the longitudinal direction is a width direction; and
At least partially covering the space and including a hold-down portion 130 coupled to the insulating body 110,
The insulating body 110,
an inner surface (f3) surrounding the space in the longitudinal direction;
an upper surface continuous with an upper side of the inner surface f3 and extending outward in the longitudinal direction;
It is continuous with the lower side of the inner surface (f3) and includes a lower surface extending inwardly in the longitudinal direction to surround the space from the lower side,
The hold-down unit 130,
a first surface extending in the width direction and covering the inner surface f3;
a second surface continuous with an upper side of the first surface and covering the upper surface; and
It is continuous with the lower side of the first surface and includes a bottom surface 131 covering the lower surface,
The first surface is formed of a surface that is continuous with the second surface and the bottom surface 131, respectively.
Receptacle connector. According to claim 1,
The portion where the first surface and the second surface are continuous is formed as a convex curved surface toward the inside and the upper side in the longitudinal direction,
The part where the first surface and the bottom surface 131 are continuous is formed as a convex curved surface toward the outer and lower sides in the longitudinal direction,
Receptacle connector. According to claim 1,
The first surface extends in the width direction, and each end of the first surface is formed to be rounded.
Receptacle connector. According to claim 3,
Each end of the first surface is formed as an outwardly convex curved surface between the longitudinal direction and the width direction,
Receptacle connector. According to claim 3,
The second surface extends in the width direction, and each end of the second surface is formed to be rounded.
Receptacle connector. According to claim 5,
Each end of the second surface is formed as an outwardly convex curved surface between the longitudinal direction and the width direction,
The upper side of each end of the first surface and the lower side of each end of the second surface are continuous with each other,
Receptacle connector. According to claim 3,
The lower side of each end of the first surface is continuous with the bottom surface,
Receptacle connector. According to claim 7,
The lower part of each end of the first surface and the bottom surface are continuous, formed as a convex curved surface outward in the longitudinal direction and the width direction,
Receptacle connector. According to claim 1,
The insulating body 110,
It is located in the space to be spaced apart from the inner surface (f3) and includes a raised portion (u) extending along the longitudinal direction,
The hold-down unit 130,
It is continuous with the bottom surface 131 and includes a raised cover portion 132 covering the raised portion u,
Where the bottom surface 131 is continuous with the raised cover portion 132 is formed as a continuous surface,
Receptacle connector. Insulation body 110 including a recessed space radially inside the outer periphery of which a direction in which a plurality of contact pins are arranged side by side is a longitudinal direction and a direction perpendicular to the longitudinal direction is a width direction; and
At least partially covering the space and including a hold-down portion 130 coupled to the insulating body 110,
The insulating body 110,
an inner surface (f3) surrounding the space in the longitudinal direction;
a raised portion (u) spaced apart from the inner surface (f3) along the longitudinal direction and located in the space; and
It extends between the lower side of the inner surface (f3) and the raised portion (u) and includes a lower surface surrounding the space from the lower side,
The hold-down unit 130,
a first surface extending in the width direction and covering the inner surface f3;
a bottom surface 131 continuous with the lower side of the first surface and covering the lower surface; and
It is continuous with the bottom surface 131 and includes a raised cover portion 132 covering the raised portion u,
Each part where the bottom surface 131 is continuous with the first surface and the raised cover portion 132 is formed as a continuous surface,
Receptacle connector. According to claim 10,
The raised cover portion 132 extends in the longitudinal direction,
Of the ends of the raised cover portion 132, one end facing the first surface is formed round to be convex toward the first surface.
Receptacle connector. According to claim 11,
The bottom surface 131 is continuous with the lower side of the one end of the raised cover part 132,
The part where the bottom surface 131 and the one end of the raised cover portion 132 are continuous is formed round.
Receptacle connector. According to claim 12,
The portion where the bottom surface 131 and the one end of the raised cover portion 132 are continuous is formed round to be convex toward the inner and lower sides in the longitudinal direction,
Receptacle connector. According to claim 10,
The first surface extends in the width direction, and each end of the first surface is formed to be rounded.
Receptacle connector. Insulation body 110 including a recessed space radially inside the outer circumference in which a direction in which a plurality of contact pins are disposed parallel to each other is a longitudinal direction and a direction perpendicular to the longitudinal direction is a width direction; and
At least partially covering the space and including a hold-down portion 130 coupled to the insulating body 110,
The insulating body 110,
an inner surface (f3) surrounding the space in the longitudinal direction;
an upper surface continuous with an upper side of the inner surface f3 and extending outward in the longitudinal direction;
It is continuous with the upper surface, and includes an outer surface extending in the width direction while facing the inner surface (f3),
The hold-down unit 130,
a first surface extending in the width direction and covering the inner surface f3;
a second surface continuous with an upper side of the first surface and covering the upper surface; and
It is continuous with the second surface and includes a third surface covering the outer surface,
Each part where the second surface is continuous with the first surface and the third surface is formed as a continuous surface,
Receptacle connector. According to claim 15,
The portion where the first surface and the second surface are continuous is formed as a convex curved surface toward the inside and the upper side in the longitudinal direction,
The part where the second surface and the third surface are continuous is formed as a convex curved surface toward the outer and upper sides in the longitudinal direction,
Receptacle connector. According to claim 16,
The first surface, the second surface and the third surface extend in the width direction,
Each end of the second surface is continuous with each end of the first surface and each end of the third surface, respectively.
Receptacle connector. According to claim 17,
The respective ends of the first surface, the respective ends of the second surface, and the respective ends of the third surface are formed as convex curved surfaces outwardly in the longitudinal direction and the width direction,
Receptacle connector. According to claim 18,
The inner side of each end of the second surface in the longitudinal direction and the width direction is continuously rounded with the outer side of each end of the first surface in the longitudinal direction and the width direction,
The outer side of each end of the second surface in the longitudinal direction and the width direction is continuously rounded with the inner side of each end of the third surface in the longitudinal direction and the width direction.
Receptacle connector. According to claim 17,
The inner side of each end of the second surface in the longitudinal direction and the width direction is continuously rounded with the outer side of each end of the first surface in the longitudinal direction and the width direction,
The outer side of each end of the second surface in the longitudinal direction and the width direction is continuously rounded with the inner side of each end of the third surface in the longitudinal direction and the width direction.
Receptacle connector. According to claim 15,
The insulating body 110,
a lower surface continuous with the lower side of the inner surface f3 and extending inwardly in the longitudinal direction to surround the space from the lower side; and
It is located in the space to be spaced apart from the inner surface (f3) and includes a raised portion (u) extending along the longitudinal direction,
The hold-down unit 130,
a bottom surface 131 continuous with the lower side of the first surface and covering the lower surface; and
It is continuous with the bottom surface 131 and includes a raised cover portion 132 covering the raised portion u,
Where the first surface is continuous with the bottom surface 131 and the raised cover portion 132 is formed as a continuous surface, respectively.
Receptacle connector.

Images