KR20230149239A - Connector - Google Patents

Abstract

The connector is initiated. A connector according to one aspect of the present invention includes a plug insulator 100 having a length in a first direction and a width in a second direction perpendicular to the first direction; and a plurality of plug contacts ( 300), and one of each pair of plug contacts 300 disposed adjacent to each other has a first receptacle contact portion 711 movably provided on the receptacle contact 700 on one side in the second direction. ), and the other may be in contact with the first receptacle contact portion 711 on the other side in the second direction.

Description

Connector {Connector}

The present invention relates to a connector, and more specifically, to a connector with a structure that can improve manufacturing convenience and energization reliability while achieving miniaturization.

Recently, in accordance with the trend toward miniaturization of electronic devices, circuit boards and connectors for connecting them to other members so as to conduct electricity are also being miniaturized. On the other hand, as the amount of information processed by electronic devices increases, the number of terminals provided on a circuit board or connector is increasing. Accordingly, the demand for miniaturized connectors is increasing.

An example of a commercial-like connector is a B2B connector (Board To Board Connector). The B2B connector is formed to have a thin thickness and can electrically connect module boards such as camera modules and mobile phone liquid crystal modules. With the trend toward miniaturization of portable electronic devices, demand for B2B connectors is also increasing.

A B2B connector consists of a plug and a receptacle. The plug and the receptacle each include a plurality of terminals (contacts) spaced apart from each other in the longitudinal direction. Terminals provided in the plug and the receptacle may contact each other to form an energized state between the modules provided with the B2B connector.

As plugs and receptacles become smaller, the distance between a plurality of terminals disposed on the plug and receptacle decreases. Accordingly, the difficulty of soldering work to connect a plurality of terminals to the module board increases, and there is a risk that electrical interference may occur as the soldered portions of each terminal come into contact with each other.

Accordingly, in order to miniaturize plugs and receptacles, there is a need for a connector that can improve manufacturing convenience and electricity supply reliability while reducing the distance between a plurality of terminals.

Korean Registered Patent Document No. 10-0906079B1 (2009.07.06.) Korean Registered Patent Document No. 10-0937009B1 (2010.01.15.)

The present invention is intended to solve the above problems, and the purpose of the present invention is to provide a connector with a structure that can be reduced in size.

Another object of the present invention is to provide a connector with a structure that can reduce the gap between terminals.

Another object of the present invention is to provide a connector with a structure that can prevent a situation where each terminal is arbitrarily energized.

Another object of the present invention is to provide a connector with a structure that can improve manufacturing convenience.

Another object of the present invention is to provide a connector with a structure that allows easy inspection of manufacturing results.

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

According to one aspect of the present invention, a plug insulator 100 having a length in a first direction and a width in a second direction perpendicular to the first direction; and a plurality of plug contacts ( 300), and one of each pair of plug contacts 300 disposed adjacent to each other has a first receptacle contact portion 711 movably provided on the receptacle contact 700 on one side in the second direction. ), and the other connector is in contact with the first receptacle contact portion 711 on the other side in the second direction.

Additionally, according to one aspect of the present invention, a receptacle insulator 500 having a length in a first direction and a width in a second direction perpendicular to the first direction; and a plurality of receptacle contacts 700 coupled to the receptacle insulator 500, each coupled and electrically connected to the plug contact 300 provided on the plug member 10, and spaced apart from each other along the first direction. ), and the first receptacle contact portion 711 movably provided on any one of the pair of receptacle contacts 700 disposed adjacent to each other is connected to the plug contact 300 on one side in the second direction. A connector is provided in which the first receptacle contact portion 711 is in contact with the plug contact portion 310 and is movably provided on the other side and is in contact with the plug contact portion 310 on the other side in the second direction.

According to the above configuration, the connector according to the embodiment of the present invention can be miniaturized in size.

Additionally, according to the above configuration, the connector according to an embodiment of the present invention can reduce the gap between terminals.

Additionally, according to the above configuration, the connector according to an embodiment of the present invention can prevent a situation where each terminal is arbitrarily energized.

Additionally, according to the above configuration, the manufacturing convenience of the connector according to the embodiment of the present invention can be improved.

In addition, according to the above configuration, the manufacturing results of the connector according to the embodiment of the present invention can be easily inspected.

The effects of the present invention are not limited to the effects described above, and should be understood to include all effects that can be inferred from the configuration of the invention described in the detailed description or claims of the present invention.

1 is a perspective view showing a plug member provided in a connector according to an embodiment of the present invention.
Fig. 2 is a front view showing the plug member of Fig. 1;
FIG. 3 is a plan view showing the plug member of FIG. 1.
Fig. 4 is a bottom view showing the plug member of Fig. 1;
FIG. 5 is an exploded perspective view showing the configuration of the plug member of FIG. 1.
FIG. 6 is a perspective view showing the configuration of the plug member of FIG. 1.
FIG. 7 is a plan view showing the configuration of the plug member of FIG. 1.
FIG. 8 is a bottom view showing the configuration of the plug member in FIG. 1.
FIG. 9 is a cross-sectional view taken along AA showing the configuration of the plug member of FIG. 1.
FIG. 10 is a perspective view showing a plug contact provided in the plug member of FIG. 1.
11 and 12 are plan views showing the plug contact of FIG. 10 and its arrangement structure.
FIG. 13 is a plan view showing a plug PCB pattern provided on the plug member of FIG. 1.
Figure 14 is a perspective view showing a receptacle member provided in a connector according to an embodiment of the present invention.
Fig. 15 is a front view showing the receptacle member of Fig. 14;
Fig. 16 is a plan view showing the receptacle member of Fig. 14;
Fig. 17 is a bottom view showing the receptacle member of Fig. 14;
Fig. 18 is an exploded perspective view showing the receptacle member of Fig. 14;
FIG. 19 is a perspective view showing the configuration of the receptacle member of FIG. 14.
FIG. 20 is a plan view showing the configuration of the receptacle member of FIG. 14.
FIG. 21 is a bottom view showing the configuration of the receptacle member in FIG. 14.
FIG. 22 is a BB cross-sectional view showing the configuration of the receptacle member of FIG. 14.
FIG. 23 is a cross-sectional view taken along line CC showing the configuration of the receptacle member of FIG. 14.
FIG. 24 is a perspective view showing a receptacle contact provided in the receptacle member of FIG. 14.
FIGS. 25 and 26 are plan views showing the receptacle contact of FIG. 24 and its arrangement structure.
FIG. 27 is a plan view showing a receptacle PCB pattern provided on the receptacle member of FIG. 14.

Hereinafter, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. The present invention may be implemented in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention, parts not related to the description have been omitted in the drawings, and identical or similar components are given the same reference numerals throughout the specification.

In the following description, in order to clarify the characteristics of the present invention, descriptions of some components may be omitted.

The term “communication” used in the following description means that one or more members are connected to each other in fluid communication. In one embodiment, the communication channel may be formed by a member such as a conduit, pipe, or piping. In the following description, communication may be used in the same sense as one or more members being “fluidly connected” to each other.

The term “conducting” used in the following description means that one or more members are connected to each other to transmit current or electrical signals. In one embodiment, electricity may be formed in a wired form using a conductor member, or in a wireless form such as Bluetooth, Wi-Fi, or RFID. In one embodiment, electrification may include the meaning of “communication.”

As used in the following description, the terms "upper", "lower", "left", "right", "anterior side" and "posterior side" will be understood with reference to the coordinate system shown throughout the accompanying drawings.

Specifically, “left” and “right” can be defined in the X-axis direction, “front side” and “rear side” can be defined in the Y-axis direction, and “top” and “bottom” can be defined in the Z-axis direction.

1 to 13, a plug member 10 provided in a connector according to an embodiment of the present invention is shown. Additionally, referring to FIGS. 14 to 27, a receptacle member 20 provided in a connector according to an embodiment of the present invention is shown.

The plug member 10 may be coupled to any one module board (not shown). Additionally, the receptacle member 20 may be combined with another module board (not shown). The plug member 10 and the receptacle member 20 may be coupled to each other and electrically connected. Accordingly, one module substrate (not shown) and the other module substrate (not shown) may be electrically connected.

Specifically, the plug member 10 may be turned over in the state shown in FIG. 1 and then coupled to the receptacle member 20. Since the joining process of the plug member 10 and the receptacle member 20 is a well-known technology, detailed description will be omitted.

It is assumed that the connector according to the embodiment of the present invention described below is a B2B connector. However, the technical features of the plug member 10 and the receptacle member 20 provided in the connector according to the embodiment of the present invention to be described below include a plurality of plug contacts 300 or a plurality of receptacle contacts 700. It will be understood that it can be applied to any type of connector.

1 to 13 , the plug member 10 includes a plug insulator 100, a plug holddown 200, a plug contact 300, and a plug PCB pattern 400.

The plug insulator 100 forms the outer shape of the plug member 10. The plug insulator 100 is coupled to and supports other components of the plug member 10. The plug insulator 100 is made of an electrically insulating material, so that random conduction of electricity between components coupled to the plug insulator 100 can be prevented.

The plug insulator 100 is coupled with the plug holddown 200. The plug insulator 100 is partially surrounded by the plug holddown 200.

The plug insulator 100 is coupled to the plug contact 300. The plurality of plug contacts 300 may be spaced apart from each other and coupled to the plug insulator 100 .

In the illustrated embodiment, plug insulator 100 includes a plug insulating body 110, a plug support wall 120, and a plug through hole 130.

The plug insulating body 110 forms the body of the plug insulator 100. The plug insulating body 110 extends in the longitudinal direction of the plug member 10, in the left and right directions in the illustrated embodiment. In other words, the plug insulating body 110 is formed to have a length in the X-axis direction.

The plug insulating body 110 is formed to have a width in the Y-axis direction, in the front-to-back direction in the illustrated embodiment. At this time, the plug insulating body 110 has a length in the left and right directions longer than the width in the front and rear directions.

A space is formed inside the plug insulating body 110. The receptacle support wall 520 provided on the receptacle member 20 is accommodated in the space. The space may be formed to correspond to the shape of the plug insulating body 110. In the illustrated embodiment, the space is formed to have a length in the X-axis direction and a width in the Y-axis direction.

Among the corners of the plug insulating body 110, each end in the Y-axis direction, that is, each corner located at the front end and the rear end, may be defined as the plug support wall 120.

Plug support wall 120 forms part of plug insulating body 110. The plug support wall 120 may be defined as each edge of the plug insulating body 110 in the longitudinal direction. In the illustrated embodiment, the plug support wall 120 constitutes the front and rear side edges of the plug insulating body 110.

The plug support wall 120 may be formed in a shape corresponding to the shape of the plug insulating body 110. In the illustrated embodiment, the plug support wall 120 extends long in the X-axis direction, that is, in the left and right directions.

Plug support wall 120 is coupled with plug contact 300. Plug support wall 120 supports plug contact 300. The plurality of plug contacts 300 may be arranged to be spaced apart from each other in the longitudinal direction of the plug support wall 120, that is, in the X-axis direction. The plurality of plug contacts 300 coupled to the plug support wall 120 are electrically spaced from each other, so that arbitrary conduction of electricity between them can be prevented.

The plug support wall 120 may have a shape that corresponds to the shape of the plug contact 300 . In the illustrated embodiment, the plug support wall 120 is formed to have a width in the Y-axis direction and a height in the Z-axis direction corresponding to the shape of the plug coupling space 330 formed inside the plug contact 300. (See Figures 9 and 10).

A plurality of plug support walls 120 may be provided. The plurality of plug support walls 120 may be arranged to be spaced apart from each other in the width direction of the plug insulating body 110, that is, in the Y-axis direction. The plurality of plug support walls 120 may be respectively coupled to the plurality of plug contacts 300 to support them.

In the illustrated embodiment, there are two plug support walls 120, including a first plug support wall 121 and a second plug support wall 122. The first plug support wall 121 and the second plug support wall 122 are arranged to face each other across a space formed inside the plug insulating body 110.

The first plug support wall 121 is located on one side in the width direction of the plug insulating body 110, biased toward the front side in the illustrated embodiment. The first plug support wall 121 is coupled with a plurality of plug contacts 300 located on the front side.

The second plug support wall 122 is located biased on the other side in the width direction of the plug insulating body 110, in the illustrated embodiment, on the rear side. The second plug support wall 122 is coupled with a plurality of plug contacts 300 located on the rear side.

A plug through hole 130 is formed between the first plug support wall 121 and the second plug support wall 122.

The plug through hole 130 is defined as an opening formed inside the plug insulator 100. The plug through hole 130 is formed through the plug insulating body 110 in the height direction, that is, in the Z-axis direction in the illustrated embodiment. The plug through hole 130 extends in the longitudinal direction of the plug insulating body 110, that is, in the X-axis direction in the illustrated embodiment.

Plug through hole 130 partially receives plug contact 300 coupled to plug support wall 120. That is, as best shown in FIGS. 6 to 9 , one end of the plug contact 300 facing inward is accommodated in the plug through hole 130 .

The plug through hole 130 functions as a window for checking the connection state between the one end of the plug contact 300 and the plug PCB pattern 400.

That is, an operator or an inspection device can check the connection state of one end of the plug contact 300 and the plug PCB pattern 400 through the plug through hole 130. Additionally, an operator or an inspection device can check the manufacturing results of the plug member 10, such as whether or not the plug PCB pattern 400 coupled to the plurality of plug contacts 300 is in contact, through the plug through hole 130.

The plug holddown 200 is combined with the plug insulator 100 to reinforce the rigidity of the plug insulator 100. Additionally, the plug holddown 200 is configured to be coupled to the plug PCB pattern 400 while being coupled to the plug insulator 100 to increase the coupling force between the plug member 10 and the module substrate (not shown).

Furthermore, the plug holddown 200 may be in contact with the receptacle holddown 600 to conduct electricity. A current of greater intensity may be passed through the plug holddown 200 than the current passed through the plug contact 300.

The plug holddown 200 may be formed of an electrically conductive material. Additionally, the plug hold down 200 may be made of a high-rigidity material. In the above embodiment, the plug holddown 200 is energized with the receptacle holddown 600, while simultaneously increasing the rigidity of the plug insulator 100 and the coupling force between the plug member 10 and the module substrate (not shown). .

In one embodiment, the plug holddown 200 may be formed of a metal material such as copper (Cu) or an alloy containing it.

A plurality of plug hold downs 200 may be provided. The plurality of plug holddowns 200 may be spaced apart from each other and coupled to the plug insulating body 110 at different positions. In the illustrated embodiment, two plug holddowns 200 are provided, including a first plug holddown 200a and a second plug holddown 200b.

The first plug holddown 200a is coupled to one end in the longitudinal direction, that is, the X-axis direction, of the plug insulating body 110, to the left end in the illustrated embodiment. The second plug holddown 200b is coupled to the other end of the plug insulating body 110 in the longitudinal direction, that is, the X-axis direction, or to the right end in the illustrated embodiment.

The first plug holddown 200a is in contact with the first receptacle holddown 600a and is energized. The second plug holddown 200b is in contact with the second receptacle holddown 600b and is energized.

In the illustrated embodiment, the plug holddown 200 includes a plug holddown inner surface 210, a plug holddown outer surface 220, and a plug holddown coupling portion 230.

The plug holddown inner surface 210 constitutes a portion of the plug holddown 200. The inner surface of the plug holddown 210 may be defined as a portion of the plug holddown 200 accommodated in a space formed inside the plug insulating body 110. The plug holddown inner surface 210 is configured to surround the longitudinal inner surface of the plug insulating body 110.

The plug holddown inner surface 210 is continuous with the plug holddown outer surface 220.

Plug holddown outer surface 220 constitutes another portion of plug holddown 200. The plug holddown outer surface 220 may be defined as a portion of the plug holddown 200 that covers the outer surface of the plug insulating body 110. The plug holddown outer surface 220 is configured to surround the outer surface in the width direction and the outer surface in the longitudinal direction of the plug insulating body 110, respectively.

The plug holddown coupling portion 230 is a portion where the plug holddown 200 is coupled to the plug PCB pattern 400. The plug holddown coupling portion 230 may be exposed to the outside on one side of the plug insulating body 110 in the Z-axis direction, or the lower side in the illustrated embodiment, and be coupled to the plug holddown PCB pattern 430 .

A plurality of plug hold-down coupling portions 230 may be provided. The plurality of plug holddown coupling portions 230 may be respectively coupled to the plurality of plug holddown PCB patterns 430. In the illustrated embodiment, the plug hold-down coupling portion 230 consists of a pair spaced apart in the Y-axis direction and a pair located between the pair.

The plug contact 300 is in contact with the receptacle contact 700 and conducts electricity. The plug contact 300 substantially performs the function of electrically connecting a module substrate (not shown) coupled to the plug member 10 and a module substrate (not shown) coupled to the receptacle member 20. The plug contact 300 may exchange an electrical signal or current with the receptacle contact 700.

The plug contact 300 may be formed of an electrically conductive material. Additionally, the plug contact 300 may be formed of a material having a certain elasticity. In one embodiment, the plug contact 300 may be formed of a metal material such as copper or an alloy containing it.

The plug contact 300 is coupled to the plug insulator 100. The plug contact 300 may be supported by being coupled to the plug support wall 120 .

A plurality of plug contacts 300 may be provided. The plurality of plug contacts 300 may be arranged side by side and spaced apart from each other in the longitudinal direction of the plug support wall 120, or in the illustrated embodiment, in the X-axis direction.

In the plug member 10 according to an embodiment of the present invention, a plurality of plug contacts 300 may be arranged to be spaced apart by a minimum distance. Accordingly, the length of the plug member 10, that is, the length in the X-axis direction in the illustrated embodiment, may be reduced.

In addition, the plug member 10 according to an embodiment of the present invention can prevent unintentional contact and energization between a plurality of plug contacts 300 arranged adjacent to each other or plug PCB patterns 400 respectively coupled to them. there is. To this end, as will be described later, the plurality of plug contacts 300 may be coupled to the plug PCB pattern 400 at different positions along the arrangement direction.

At this time, as will be described later, the plurality of plug contacts 300 include a first plug contact 300a and a second plug contact where the first plug contact mounting portion 321 is located on one side of the Y-axis direction, that is, the front side. The mounting unit 322 may include a second plug contact 300b located on one side in the Y-axis direction, that is, on the front side. The first and second plug contacts 300a and 300b are alternately arranged along the direction in which the plurality of plug contacts 300 are spaced apart from each other in parallel, that is, along the X-axis direction.

Accordingly, when viewed from the perspective of the plug contact mounting portion 320, it will be understood that the first plug contact mounting portion 321 and the second plug contact mounting portion 322 are alternately arranged along the X-axis direction.

The first plug contact 300a and the second plug contact 300b are different in the direction in which they are coupled to the plug support wall 120 and the positions in which they are coupled to the plug PCB pattern 400, but their structures are the same. Accordingly, in the following description, common parts will be described by referring to the first and second plug contacts 300a and 300b as the plug contact 300.

In the illustrated embodiment, the plug contact 300 includes a plug contact portion 310, a plug contact mounting portion 320, and a plug coupling space 330.

The plug contact portion 310 is a portion where the plug contact 300 is coupled to the receptacle contact 700. The plug contact portion 310 is in contact with the receptacle contact portion 710 of the receptacle contact 700 to conduct electricity. Plug contact portion 310 constitutes a portion of plug contact 300.

The plug contact portion 310 is coupled to the plug support wall 120. The plug contact portion 310 is configured to cover a portion of the plug support wall 120 in the height direction and a portion in the width direction. In the embodiment shown in FIG. 9 , the plug contact portion 310 is configured to cover the top, front, and rear sides of the plug support wall 120 .

The plug contact portion 310 partially surrounds the plug engagement space 330. In the depicted embodiment, plug contact portion 310 surrounds the top, front, and rear sides of plug engagement space 330. Accordingly, the plug support wall 120 accommodated in the plug coupling space 330 may also be surrounded by the plug contact portion 310 on its upper, front, and rear sides.

In the illustrated embodiment, the plug contact portion 310 includes a first plug contact portion 311, a second plug contact portion 312, and a plug contact connection portion 313.

The first plug contact portion 311 constitutes a portion where the plug contact portion 310 is in contact with the receptacle contact portion 710. The first plug contact portion 311 contacts the first receptacle contact portion 711 or the second receptacle contact portion 712 and conducts electricity.

The first plug contact portion 311 is formed to be round and convex toward the outside. In other words, the first plug contact portion 311 extends curvedly.

The first plug contact portion 311 is continuous with the first plug contact mounting portion 321. The first plug contact portion 311 is continuous with the second plug contact portion 312 through the plug contact connection portion 313.

The second plug contact portion 312 constitutes another portion where the plug contact portion 310 contacts the receptacle contact portion 710. The second plug contact portion 312 contacts the first receptacle contact portion 711 or the second receptacle contact portion 712 and conducts electricity.

The second plug contact portion 312 is formed to be round and convex toward the outside. In other words, the second plug contact portion 312 extends curvedly.

The second plug contact portion 312 is continuous with the second plug contact mounting portion 322. The second plug contact portion 312 is continuous with the first plug contact portion 311 through the plug contact connection portion 313.

Plug contact connection 313 forms another configuration of plug contact 310 . The plug contact connection 313 extends between the first plug contact 311 and the second plug contact 312 . The plug contact connection portion 313 is continuous with the first plug contact portion 311 and the second plug contact portion 312, respectively.

The plug contact connection portion 313 may be formed to have different widths along its extension direction. In the illustrated embodiment, the plug contact connection portion 313 extends along the Y-axis direction, and its length in the X-axis direction changes along the extension direction.

That is, as shown in FIGS. 10 to 12, the portion of the plug contact connection portion 313 that is continuous with the first plug contact portion 311, that is, the front side, is formed to have a width of the first plug width pw1. . At this time, the first plug width (pw1) may be defined as the width of the first plug contact portion 311 or the first plug contact mounting portion 321.

In addition, the portion of the plug contact connection portion 313 that is continuous with the second plug contact portion 312, that is, the rear side, is formed to have a width equal to the second plug width pw2. At this time, the second plug width (pw2) may be defined as the width of the second plug contact portion 312 or the second plug contact mounting portion 322.

At this time, as shown, the first plug width (pw1) is formed shorter than the second plug width (pw2). Accordingly, the width of the plug contact connection portion 313 of the first plug contact 300a increases toward the rear, and the width of the plug contact connection portion 313 of the second plug contact 300b decreases toward the rear.

Accordingly, even if the separation distance between the first and second plug contacts 300a and 300b located adjacent to each other is reduced, contact between the plug contact portions 310 can be prevented. Accordingly, the plurality of plug contacts 300 can be electrically insulated while being spaced apart by a minimum distance.

The plug contact mounting portion 320 is a portion where the plug contact 300 is coupled to the plug PCB pattern 400. The plug contact mounting portion 320 is exposed to the outside of the plug insulating body 110 or to the plug through hole 130.

The plug contact mounting portion 320 is continuous with the plug contact portion 310. In the illustrated embodiment, the end of the plug contact mounting portion 320 in the Y-axis direction is in contact with the plug contact portion 310.

A plurality of plug contact mounting units 320 may be provided. The plurality of plug contact mounting portions 320 may be continuous with the first and second plug contact portions 312, respectively. In the illustrated embodiment, the plug contact mounting portion 320 includes a first plug contact mounting portion 321 continuous with the first plug contact portion 311 and a second plug contact mounting portion continuous with the second plug contact portion 312. Includes (322).

The first plug contact mounting portion 321 of the first plug contact 300a is located on one side in the width direction of the plug insulating body 110, that is, on the front side in the illustrated embodiment, in the Y-axis direction. Accordingly, the second plug contact mounting portion 322 of the first plug contact 300a is located on the other side of the plug insulating body 110 in the width direction, that is, the Y-axis direction, in the illustrated embodiment, on the rear side.

Likewise, the first plug contact mounting portion 321 of the second plug contact 300b is located on the other side of the plug insulating body 110 in the width direction, that is, on the rear side in the illustrated embodiment, in the Y-axis direction. Accordingly, the second plug contact mounting portion 322 of the second plug contact 300b is located on one side in the width direction of the plug insulating body 110, that is, on the front side in the illustrated embodiment. .

Any one of the first and second plug contact portions 311 and 312 may be combined with the plug PCB pattern 400. Additionally, the other one of the first and second plug contact portions 311 and 312 may be maintained in a state not coupled to the plug PCB pattern 400. In other words, only one of the first and second plug contact portions 311 and 312 provided in the single plug contact 300 is coupled to the plug PCB pattern 400.

As shown in FIGS. 3 and 4, the first plug contact 300a has a second plug contact mounting portion 322 located on the rear side with the first and second plug contact PCB patterns 410 and 420, respectively. are combined. In addition, the first plug contact mounting portion 321 located on the front side of the second plug contact 300b is coupled to the first and second plug contact PCB patterns 410 and 420, respectively.

Therefore, along the longitudinal direction of the plug member 10, that is, the X-axis direction, the plug contact mounting portion 320 coupled to the plug PCB pattern 400 and the plug contact mounting portion not coupled to the plug PCB pattern 400 320) are arranged alternately.

In other words, one of the plug contact mounting portions 320 arranged close to each other along the X-axis direction is coupled to the plug PCB pattern 400, and the other is not coupled to the plug PCB pattern 400.

Accordingly, the first and second plug contact PCB patterns 410 and 420 are arranged to face each other along the X-axis direction with the plug contact mounting portion 320 interposed therebetween. Accordingly, the adjacent first and second plug contact PCB patterns 410 and 420 can be sufficiently spaced apart, and any contact or conduction of electricity between them can be prevented. A detailed description of this will be provided later.

The first plug contact mounting portion 321 of the first plug contact 300a coupled to the first plug support wall 121 is exposed to the front side of the plug insulating body 110. The second plug contact mounting portion 322 of the first plug contact 300a coupled to the first plug support wall 121 is exposed to the plug through hole 130.

The first plug contact mounting portion 321 of the second plug contact 300a coupled to the second plug support wall 122 is exposed to the rear side of the plug insulating body 110. The second plug contact mounting portion 322 of the second plug contact 300b coupled to the second plug support wall 122 is exposed to the plug through hole 130.

The plug coupling space 330 is a portion where the plug contact 300 is coupled to the plug support wall 120. The plug engagement space 330 is defined by being partially surrounded by the plug contact portion 310. In the illustrated embodiment, the top, front, and bottom sides of the plug engagement space 330 are surrounded by the plug contact portion 310 . The lower side of the plug engagement space 330 is open so that the plug support wall 120 can be accommodated.

As shown in FIGS. 10 to 12 , the first and second plug contacts 300a and 300b may be alternately arranged along the X-axis direction. Additionally, the first and second plug contacts 300a and 300b may be alternately arranged along the Y-axis direction.

As the first and second plug contacts 300a and 300b are alternately arranged along the X-axis and Y-axis directions, the first and second plug contact portions 311 and 312 and the first and second plug contacts are mounted. The parts 321 and 322 are also arranged alternately along the X-axis and Y-axis directions. Furthermore, the first and second plug contact PCB patterns 410 and 420 coupled to the first and second plug contact mounting portions 321 and 322 may also be alternately arranged along the X-axis direction and the Y-axis direction. there is.

As a result, the first and second plug contacts 300a and 300b adjacent to each other can be separated by a minimum distance while maintaining electricity supply reliability. Accordingly, the size of the plug member 10, particularly the length in the X-axis direction, may be reduced.

Meanwhile, as shown in FIG. 9, the first and second plug contacts 300a and 300b arranged side by side along the Y-axis direction may be spaced apart by a predetermined distance.

At this time, the second plug contact mounting portion 322 located on the rear side of the first plug contact 300a coupled to the first plug support wall 121, and the second plug contact mounting portion 322 coupled to the second plug support wall 122. The distance between the first plug contact mounting portions 321 located on the front side of the plug contact 300b may be defined as the first plug distance pd1. Additionally, the length of the plug through hole 130 in the Y-axis direction may be defined as the second plug distance (pd2).

The first plug distance (pd1) is the first and second plug contact PCB patterns (410, 420) coupled with any one of the first and second plug contact mounting portions (321, 322) facing each other along the Y-axis direction. It is desirable that it be formed long enough so that it does not come into contact with the other one. In addition, the first plug distance (pd1) is formed to be less than or equal to the second plug distance (pd2), so that the first and second plug contact mounting portions 321 and 322 are at least partially exposed through the plug through hole 130. It is desirable.

The plug PCB pattern 400 couples the plug member 10 to a module substrate (not shown). Specifically, the plug PCB pattern 400 couples the plug holddown 200 and the plug contact 300 with a module substrate (not shown).

The plug PCB pattern 400 may be formed in any shape capable of coupling the plug holddown 200 and the plug contact 300 to a module substrate (not shown). In one embodiment, the plug PCB pattern 400 may be configured in the form of soldering.

A plurality of plug PCB patterns 400 may be formed. The plurality of plug PCB patterns 400 may be combined with the plug holddown 200 and the plug contact 300, respectively. In the illustrated embodiment, the plug PCB pattern 400 includes a first plug contact PCB pattern 410, a second plug contact PCB pattern 420, and a plug holddown PCB pattern 430.

The first plug contact PCB pattern 410 is combined with the first and second plug contacts 300a and 300b. The first plug contact PCB pattern 410 is coupled to a portion of the plurality of first and second plug contacts 300a and 300b located in the plug through hole 130.

A plurality of first plug contact PCB patterns 410 may be provided. The plurality of first plug contact PCB patterns 410 may be alternately coupled to the plurality of plug contact mounting portions 320 along the X-axis direction. In other words, along the are arranged alternately.

Additionally, the plurality of first plug contact PCB patterns 410 may be alternately coupled to the plurality of plug contact mounting portions 320 along the Y-axis direction. In other words, along the Y-axis direction, the plug contact mounting portion 320 is coupled to the first plug contact PCB pattern 410 and the plug contact mounting portion 320 is not coupled to the first plug contact PCB pattern 410. are placed alternately

Therefore, as best shown in FIG. 13, the plurality of first plug contact PCB patterns 410 may be arranged to be spaced apart from each other along the X-axis and Y-axis directions. As a result, any contact or conduction of electricity between the first plug contact PCB patterns 410 located adjacent to each other can be prevented.

The second plug contact PCB pattern 420 is combined with the first and second plug contacts 300a and 300b. The second plug contact PCB pattern 420 is coupled to another portion of the plurality of first and second plug contacts 300a and 300b located outside the plug insulating body 110.

A plurality of second plug contact PCB patterns 420 may be provided. The plurality of second plug contact PCB patterns 420 may be alternately coupled to the plurality of plug contact mounting portions 320 along the X-axis direction. In other words, along the are arranged alternately.

Additionally, the plurality of second plug contact PCB patterns 420 may be alternately coupled to the plurality of plug contact mounting portions 320 along the Y-axis direction. In other words, along the Y-axis direction, the plug contact mounting portion 320 is coupled to the second plug contact PCB pattern 420 and the plug contact mounting portion 320 is not coupled to the first plug contact PCB pattern 410. are placed alternately

Therefore, as best shown in FIG. 13, the plurality of second plug contact PCB patterns 420 may be arranged to be spaced apart from each other along the X-axis and Y-axis directions. As a result, any contact or conduction of electricity between the second plug contact PCB patterns 420 located adjacent to each other can be prevented.

At this time, a single number of first and second plug contact PCB patterns 410 and 420 may be arranged to be spaced apart from each other along the Y-axis direction.

The plug holddown PCB pattern 430 is combined with the plug holddown 200. The plug holddown PCB pattern 430 is combined with the plug holddown coupling portion 230 to increase the coupling force between the plug insulator 100 and the plug holddown 200.

A plurality of plug hold-down PCB patterns 430 may be provided. The plurality of plug holddown PCB patterns 430 may be respectively coupled to the plug holddown coupling portion 230 provided in the plurality of plug holddowns 200a and 200b.

In the illustrated embodiment, the plug holddown PCB pattern 430 includes first and second plug holddown PCB patterns 431 and 432. The first plug holddown PCB pattern 431 is the plug holddown coupling portion 230 of the first plug holddown (200a), and the second plug holddown PCB pattern 432 is the plug holddown coupling portion 230 of the first plug holddown (200b). Each is coupled to the plug hold-down coupling portion 230.

The plug holddown PCB pattern 430 may be spaced apart from the first and second plug contact PCB patterns 410 and 420. In the illustrated embodiment, the plug holddown PCB pattern 430 is arranged to be spaced apart from the first and second plug contact PCB patterns 410 and 420 along the X-axis direction.

14-27, the receptacle member 20 includes a receptacle insulator 500, a receptacle holddown 600, a receptacle contact 700, and a receptacle PCB pattern 800.

The receptacle insulator 500 forms the outline of the receptacle member 20. The receptacle insulator 500 is coupled to and supports other components of the receptacle member 20. The receptacle insulator 500 is formed of an electrically insulating material, so that random conduction of electricity between components coupled to the receptacle insulator 500 can be prevented.

The receptacle insulator 500 is coupled with the receptacle holddown 600. Receptacle insulator 500 is partially surrounded by receptacle holddown 600.

The receptacle insulator 500 is coupled to the receptacle contact 700. The plurality of receptacle contacts 700 may be spaced apart from each other and coupled to the receptacle insulator 500.

In the depicted embodiment, receptacle insulator 500 includes a receptacle insulating body 510, a receptacle support wall 520, a receptacle through hole 530, and a receptacle connection wall 540.

Receptacle insulator body 510 forms the body of receptacle insulator 500. The receptacle insulating body 510 extends in the longitudinal direction of the receptacle member 20, in the left and right directions in the illustrated embodiment. In other words, the receptacle insulating body 510 is formed to have a length in the X-axis direction.

The receptacle insulating body 510 is formed to have a width in the Y-axis direction, in the front-to-back direction in the illustrated embodiment. At this time, the length of the receptacle insulating body 510 in the left-right direction is formed to be longer than the width in the front-back direction.

A space is formed inside the receptacle insulating body 510. A receptacle support wall 520 and a receptacle connection wall 540 are located in the space. The space may be formed to correspond to the shape of the receptacle insulating body 510. In the illustrated embodiment, the space is formed to have a length in the X-axis direction and a width in the Y-axis direction.

Among the corners of the receptacle insulating body 510, each end in the Y-axis direction, that is, each corner located at the front end and the rear end, may be defined as a receptacle support wall 520.

Receptacle support wall 520 forms part of receptacle insulating body 510. The receptacle support wall 520 may be defined as a configuration disposed at each edge in the longitudinal direction of the receptacle insulating body 510 and in the internal space of the receptacle insulating body 510. In the illustrated embodiment, the receptacle support wall 520 constitutes a wall disposed at the front and rear side edges of the receptacle insulating body 510 and the interior space of the receptacle insulating body 510 .

The receptacle support wall 520 may be formed in a shape corresponding to the shape of the receptacle insulating body 510. In the illustrated embodiment, the receptacle support wall 520 extends long in the X-axis direction, that is, in the left and right directions.

Receptacle support wall 520 is coupled with receptacle contact 700. Receptacle support wall 520 supports receptacle contact 700. The plurality of receptacle contacts 700 may be arranged to be spaced apart from each other in the longitudinal direction of the receptacle support wall 520, that is, in the X-axis direction. The plurality of receptacle contacts 700 coupled to the receptacle support wall 520 may be electrically spaced apart from each other, thereby preventing random conduction of electricity between them.

Receptacle support wall 520 may have a shape that corresponds to the shape of receptacle contact 700 . In the illustrated embodiment, the receptacle support wall 520 is formed to have a width in the Y-axis direction and a height in the Z-axis direction corresponding to the shape of the receptacle coupling space 730 formed inside the receptacle contact 700. (See Figure 22).

A plurality of receptacle support walls 520 may be provided. The plurality of receptacle support walls 520 may be arranged to be spaced apart from each other in the width direction of the receptacle insulating body 510, that is, the Y-axis direction. The plurality of receptacle support walls 520 may be respectively coupled to the plurality of receptacle contacts 700 to support them.

In the depicted embodiment, receptacle support wall 520 includes a first receptacle support wall 521, a second receptacle support wall 522, a third receptacle support wall 523, and a fourth receptacle support wall 524. So four are provided.

The first receptacle support wall 521 and the second receptacle support wall 522 are arranged to face each other with the receptacle contact 700 located on one side in the Y-axis direction, that is, on the front side. The third receptacle support wall 523 and the fourth receptacle support wall 524 are arranged to face each other with the receptacle contact 700 located on the other side in the Y-axis direction, that is, on the rear side.

Additionally, the second receptacle support wall 522 and the third receptacle support wall 523 are disposed to face each other with the receptacle through hole 530 interposed therebetween.

Accordingly, it will be understood that the first to fourth receptacle support walls 521, 522, 523, and 524 are arranged to be spaced apart from each other along the width direction of the receptacle insulating body 510, that is, the Y-axis direction.

The first receptacle support wall 521 is located on one side in the width direction of the receptacle insulating body 510, biased toward the front side in the illustrated embodiment. The first receptacle support wall 521 is coupled with a portion of the plurality of receptacle contacts 700 located on the front side.

The second receptacle support wall 522 is spaced apart from the first receptacle support wall 521 in the Y-axis direction and surrounds the receptacle through hole 530 on one side, on the front side in the illustrated embodiment. The second receptacle support wall 522 is coupled with the remainder of the plurality of receptacle contacts 700 located on the front side.

The third receptacle support wall 523 is spaced apart from the second receptacle support wall 522 in the Y-axis direction and surrounds the receptacle through hole 530 on the other side, the rear side in the illustrated embodiment. The third receptacle support wall 523 is disposed to face the second receptacle support wall 522 with the receptacle through hole 5300 interposed therebetween. The third receptacle support wall 523 includes a plurality of receptacle contacts located on the rear side. Combined with part of 700.

The fourth receptacle support wall 524 is located on the other side in the width direction of the receptacle insulating body 510, in the illustrated embodiment, on the rear side. The fourth receptacle support wall 524 is coupled with the remainder of the plurality of receptacle contacts 700 located on the rear side.

A receptacle through-hole 530 is formed between the second receptacle support wall 522 and the third receptacle support wall 523.

The receptacle through hole 530 is defined as an opening formed inside the receptacle insulator 500. The receptacle through hole 530 is formed through the receptacle insulating body 510 in the height direction, that is, in the Z-axis direction in the illustrated embodiment. The receptacle through hole 530 extends in the longitudinal direction of the receptacle insulating body 510, that is, in the X-axis direction in the illustrated embodiment.

Receptacle through hole 530 partially receives receptacle contact 700 coupled to receptacle support wall 520. That is, as best shown in FIGS. 19 to 21 , one end of the portion of the receptacle contact 700 facing inward is received in the receptacle through hole 530 .

The receptacle through-hole 530 functions as a window for checking the coupling state of the one end of the receptacle contact 700 and the receptacle PCB pattern 800.

That is, an operator or an inspection device can check the coupling state of the one end of the receptacle contact 700 and the receptacle PCB pattern 800 through the receptacle through-hole 530. In addition, an operator or an inspection device can check the manufacturing results of the receptacle member 20, such as whether or not the plurality of receptacle contacts 700 and the receptacle PCB pattern 800 coupled to each other are in contact, through the receptacle through hole 530.

The receptacle holddown 600 is combined with the receptacle insulator 500 to reinforce the rigidity of the receptacle insulator 500. In addition, the receptacle holddown 600 is configured to be coupled to the receptacle PCB pattern 800 while being coupled to the receptacle insulator 500 to increase the coupling force between the receptacle member 20 and the module substrate (not shown).

Furthermore, the receptacle holddown 600 may be in contact with the plug holddown 200 to be energized. A current of greater intensity may be passed through the receptacle holddown 600 than the current passed through the receptacle contact 700.

Receptacle holddown 600 may be formed of an electrically conductive material. Additionally, the receptacle holddown 600 may be formed of a high-rigidity material. In the above embodiment, the receptacle holddown 600 is electrically connected to the receptacle holddown 600, and at the same time, the rigidity of the receptacle insulator 500 and the bonding force between the receptacle member 20 and the module substrate (not shown) can be increased. .

In one embodiment, the receptacle holddown 600 may be formed of a metal material such as copper (Cu) or an alloy containing it.

A plurality of receptacle holddowns 600 may be provided. The plurality of receptacle holddowns 600 may be spaced apart from each other and coupled to the receptacle insulating body 510 at different positions. In the illustrated embodiment, there are two receptacle holddowns 600, including a first receptacle holddown 600a and a second receptacle holddown 600b.

The first receptacle holddown 600a is coupled to one end of the receptacle insulating body 510 in the longitudinal direction, that is, the X-axis direction, in the illustrated embodiment, to the left end. The second receptacle holddown 600b is coupled to the other end of the receptacle insulating body 510 in the longitudinal direction, that is, the X-axis direction, or to the right end in the illustrated embodiment.

The first receptacle holddown 600a is in contact with the first receptacle holddown 600a and is energized. The second receptacle holddown 600b is in contact with the second receptacle holddown 600b and is energized.

In the depicted embodiment, receptacle holddown 600 includes a top receptacle holddown 610, a side receptacle holddown 620, and a receptacle holddown coupling 630.

Upper receptacle holddown 610 forms part of receptacle holddown 600. The upper receptacle holddown 610 may be defined as a portion of the receptacle holddown 600 accommodated in a space formed inside the receptacle insulating body 510. The upper receptacle holddown 610 is configured to partially surround the surface surrounding the space of the receptacle insulating body 510 from the lower side.

Top receptacle holddown 610 is continuous with side receptacle holddown 620.

Side receptacle holddown 620 constitutes another portion of receptacle holddown 600. The side receptacle holddown 620 may be defined as a portion of the receptacle holddown 600 that covers the inner surface of the receptacle insulating body 510. The side receptacle holddowns 620 are configured to respectively surround the inner surface of the receptacle insulating body 510 in the width direction.

The receptacle holddown coupling portion 630 is a portion where the receptacle holddown 600 is coupled to the receptacle PCB pattern 800. The receptacle holddown coupling portion 630 may be exposed to the outside on one side of the receptacle insulating body 510 in the Z-axis direction, or the lower side in the illustrated embodiment, and be coupled to the receptacle holddown PCB pattern 830.

A plurality of receptacle holddown coupling portions 630 may be provided. The plurality of receptacle holddown coupling portions 630 may be respectively coupled to the plurality of receptacle holddown PCB patterns 830. In the illustrated embodiment, the receptacle holddown coupling portion 630 consists of a pair spaced apart in the Y-axis direction and a pair located between the pair.

The receptacle contact 700 is in contact with the plug contact 300 and conducts electricity. The receptacle contact 700 substantially performs the function of electrically connecting a module substrate (not shown) coupled to the plug member 10 and a module substrate (not shown) coupled to the receptacle member 20. The receptacle contact 700 may exchange an electrical signal or current with the plug contact 300.

The receptacle contact 700 may be formed of an electrically conductive material. Additionally, the receptacle contact 700 may be formed of a material having a certain elasticity. In one embodiment, the receptacle contact 700 may be formed of a metal material such as copper or an alloy containing it.

The receptacle contact 700 is coupled to the receptacle insulator 500. Receptacle contact 700 may be coupled and supported with receptacle support wall 520 .

A plurality of receptacle contacts 700 may be provided. The plurality of receptacle contacts 700 may be arranged side by side and spaced apart from each other in the longitudinal direction of the receptacle support wall 520, or in the illustrated embodiment, in the X-axis direction.

In the receptacle member 20 according to an embodiment of the present invention, a plurality of receptacle contacts 700 may be arranged to be spaced apart by a minimum distance. Accordingly, the length of the receptacle member 20, that is, the length in the X-axis direction in the illustrated embodiment, may be reduced.

In addition, the receptacle member 20 according to an embodiment of the present invention can prevent unintentional contact and energization between a plurality of receptacle contacts 700 arranged adjacent to each other or the receptacle PCB patterns 800 respectively coupled to them. there is. To this end, as will be described later, the plurality of receptacle contacts 700 may be coupled to the receptacle PCB pattern 800 at different positions along the arrangement direction.

At this time, as will be described later, the plurality of receptacle contacts 700 include a first receptacle contact 700a and a receptacle contact mounting portion 740 in which the receptacle contact mounting portion 740 is located on one side in the Y-axis direction, that is, the front side. ) may include a second receptacle contact 700b located on the other side of the Y-axis direction, that is, the rear side.

The first and second receptacle contacts 700a and 700b are alternately arranged along the direction in which the plurality of receptacle contacts 700 are spaced apart from each other in parallel, that is, along the X-axis direction.

The first receptacle contact 700a and the second receptacle contact 700b have different directions in which they are coupled to the receptacle support wall 520 and positions in which they are coupled to the receptacle PCB pattern 800, but their structures are the same. Accordingly, common parts in the following description will be described by referring to the first and second receptacle contacts 700a and 700b as the receptacle contact 700.

In the illustrated embodiment, the receptacle contact 700 includes a receptacle contact portion 710, a receptacle contact support portion 720, a receptacle coupling space 730, and a receptacle contact mounting portion 740.

The receptacle contact portion 710 is a portion where the receptacle contact 700 is coupled to the receptacle contact 700 . The receptacle contact portion 710 is in contact with the receptacle contact portion 710 of the receptacle contact 700 to conduct electricity. Receptacle contact portion 710 constitutes a portion of receptacle contact 700.

The receptacle contact portion 710 provided in the first receptacle contact 700a is positioned toward one side of the Y-axis direction, toward the front side in the illustrated embodiment. Additionally, the receptacle contact portion 710 provided in the second receptacle contact 700b is positioned toward the other side of the Y-axis direction, or toward the rear side in the illustrated embodiment.

Accordingly, the receptacle contact portions 710 provided in each receptacle contact 700 are alternately positioned on one side and the other side of the Y-axis along the X-axis direction. As a result, the position of the receptacle contact portion 710 that contacts and conducts electricity with the plug contact portion 310 of the plug contact 300 is formed in a zigzag shape along the X-axis and Y-axis directions.

Therefore, the position where the plug contact portion 310 provided in each of the plurality of plug contacts 300 and the receptacle contact portion 710 provided in each of the plurality of receptacle contacts 700 are coupled are also located in the X-axis direction and the Y-axis direction. It is formed in a zigzag shape.

As will be described later, the receptacle contact portion 710 is positioned opposite to the receptacle contact mounting portion 740 along the Y-axis direction. Accordingly, it will be understood that the receptacle contact mounting portion 740 provided in each receptacle contact 700 and the receptacle contact PCB patterns 810 and 820 respectively coupled thereto are also formed in a zigzag shape along the X-axis and Y-axis directions. .

In the depicted embodiment, receptacle contact 710 includes a first receptacle contact 711, a second receptacle contact 712, and a receptacle contact connection 713.

The first receptacle contact portion 711 constitutes a portion where the receptacle contact portion 710 is in contact with the receptacle contact portion 710 . The first receptacle contact portion 711 contacts and conducts electricity with the first plug contact portion 311 or the second plug contact portion 312.

The first receptacle contact portion 711 is formed to be round and convex toward the outside. In other words, the first receptacle contact portion 711 extends curvedly. First receptacle contact 711 forms one end of receptacle contact 700. With respect to the first receptacle contact 700a, the first receptacle contact portion 711 forms the rear end of the receptacle contact 700.

The first receptacle contact portion 711 is continuous with the first receptacle contact support portion 721. The first receptacle contact portion 711 is continuous with the second receptacle contact portion 712 through a receptacle contact connection portion 713.

The second receptacle contact portion 712 constitutes another portion where the receptacle contact portion 710 is in contact with the receptacle contact portion 710 . The second receptacle contact portion 712 contacts the first plug contact portion 311 or the second plug contact portion 312 and conducts electricity.

The second receptacle contact portion 712 protrudes outward. In other words, the second receptacle contact portion 712 protrudes from the first receptacle contact support portion 721 toward the first receptacle contact portion 711.

Receptacle contact connection 713 forms another configuration of receptacle contact 710 . Receptacle contact connection 713 extends between first receptacle contact 711 and first receptacle contact support 721 . The receptacle contact connection portion 713 is continuous with the first receptacle contact portion 711 and the first receptacle contact support portion 721, respectively.

The receptacle contact connection portion 713 may be formed to have different widths along its extension direction. In the illustrated embodiment, the receptacle contact connection portion 713 extends along the Y-axis direction, and its length in the X-axis direction changes along the extension direction.

That is, as shown in FIGS. 24 to 26, the portion of the receptacle contact connection portion 713 that is continuous with the first receptacle contact portion 711, that is, the front side relative to the first receptacle contact 700a, has the first receptacle width ( It is formed to have a width of rw1). At this time, the first receptacle width rw1 may be defined as the width of the first receptacle contact portion 711.

Additionally, the portion of the receptacle contact connection portion 713 that is continuous with the second receptacle contact portion 712, that is, the rear side relative to the first receptacle contact 700a, is formed to have a width equal to the second receptacle width rw2. At this time, the second receptacle width rw2 may be defined as the width of the second receptacle contact support portion 722 or the receptacle support connection portion 723.

At this time, as shown, the first receptacle width (rw1) is formed shorter than the second receptacle width (rw2). Accordingly, the width of the receptacle contact connection portion 713 of the first receptacle contact 700a increases toward the rear, and the width of the receptacle contact connection portion 713 of the second receptacle contact 700b decreases toward the rear.

Accordingly, even if the separation distance between the first and second receptacle contacts 700a and 700b located adjacent to each other is reduced, contact between the receptacle contact portions 710 can be prevented. Accordingly, the plurality of receptacle contacts 700 can be electrically insulated while being spaced apart by a minimum distance.

The receptacle contact support portion 720 is a portion where the receptacle contact 700 is coupled to the receptacle support wall 520. Receptacle contact support 720 partially surrounds receptacle support wall 520. In the depicted embodiment, receptacle contact support 720 is configured to cover the front side, top, and bottom of receptacle support wall 520 .

Receptacle contact support 720 is continuous with receptacle contact 710. The receptacle contact support portion 720 is continuous with the second receptacle contact portion 712 and the receptacle contact connection portion 713, respectively.

Receptacle contact support 720 partially surrounds receptacle mating space 730. In the depicted embodiment, receptacle contact support 720 surrounds the top, front side, and back side of receptacle mating space 730. Accordingly, the receptacle support wall 520 accommodated in the receptacle coupling space 730 may also be surrounded on its upper, front, and rear sides by the receptacle contact support portion 720.

The receptacle contact support portion 720 is continuous with the receptacle contact mounting portion 740. Accordingly, the receptacle contact support portion 720 may be said to extend between the receptacle contact portion 710 and the receptacle contact mounting portion 740.

In the depicted embodiment, receptacle contact support 720 includes a first receptacle contact support 721, a second receptacle contact support 722, and a receptacle support connection 723.

First receptacle contact support 721 forms part of receptacle contact support 720. First receptacle contact support 721 surrounds a portion of receptacle support wall 520. In the depicted embodiment, first receptacle contact support 721 surrounds the front or rear side of receptacle support wall 520.

The first receptacle contact support 721 is continuous with the first receptacle contact 711 through a receptacle contact connection 713. The second receptacle contact portion 712 is located on one side of the first receptacle contact support portion 721 facing the first receptacle contact portion 711.

The first receptacle contact support 721 is continuous with the second receptacle contact support 722 via a receptacle support connection 723.

The second receptacle contact support 722 constitutes another portion of the receptacle contact support 720. The second receptacle contact support 722 surrounds another portion of the receptacle support wall 520. In the depicted embodiment, second receptacle contact support 722 surrounds the front or rear side of receptacle support wall 520.

The second receptacle contact support 722 is continuous with the first receptacle contact support 721 via a receptacle support connection 723. The second receptacle contact support portion 722 is continuous with the receptacle contact mounting portion 740. The second receptacle contact support portion 722 extends between the receptacle support connection portion 723 and the receptacle contact mounting portion 740.

Receptacle support connection 723 makes up the remainder of receptacle contact support 720. Receptacle support connection 723 surrounds another portion of receptacle support wall 520. In the depicted embodiment, receptacle support connection 723 surrounds the top of receptacle support wall 520.

The receptacle support connection 723 is continuous with the first and second receptacle contact supports 721 and 722, respectively. Receptacle support connection 723 extends between first and second receptacle contact supports 721, 722.

The receptacle coupling space 730 is a portion where the receptacle contact 700 accommodates the receptacle support wall 520. Receptacle coupling space 730 is defined as partially surrounded by receptacle contact support 720. In the depicted embodiment, the top, front, and bottom sides of the receptacle mating space 730 are surrounded by a receptacle contact support 720 . The lower side of the receptacle coupling space 730 is open to accommodate the receptacle support wall 520.

The receptacle contact mounting portion 740 is a portion where the receptacle contact 700 is coupled to the receptacle PCB pattern 800. The receptacle contact mounting portion 740 is exposed to the outside of the receptacle insulating body 510 or to the receptacle through hole 530.

The receptacle contact mounting portion 740 is continuous with the receptacle contact support portion 720. In the illustrated embodiment, the end of the receptacle contact mounting portion 740 in the Y-axis direction is continuous with the second receptacle contact support portion 722.

The receptacle contact mounting units 740 provided in each of the first receptacle contact 700a and the second receptacle contact 700b may be alternately arranged in the Y-axis direction along the X-axis direction.

That is, as best shown in FIGS. 20 to 23, the first and second receptacle contacts 700a and 700b are alternately arranged along the X-axis direction. The receptacle contact mounting portion 740 provided in the first receptacle contact 700a is located on one side in the Y-axis direction, at the rear side in the illustrated embodiment. The receptacle contact mounting portion 740 provided in the second receptacle contact 700b is located on the other side of the Y-axis direction, on the front side in the illustrated embodiment.

Additionally, a pair of first receptacle contacts 700a or a pair of second receptacle contacts 700b are arranged to be spaced apart from each other along the Y-axis direction. Accordingly, the receptacle contact mounting portions 740 provided in the pair of receptacle contacts 700 arranged along the Y-axis direction are all positioned biased toward one side or the other side of the Y-axis direction.

As described above, the receptacle support wall 520 includes first to fourth receptacle support walls 521, 522, 523, and 524. In the illustrated embodiment, the first receptacle contact 700a is coupled to the first and third receptacle support walls 521 and 523. Additionally, a second receptacle contact 700b is coupled to the second and fourth receptacle support walls 522 and 524.

Accordingly, the first and second receptacle contacts 700a and 700b are alternately disposed on the first and second receptacle support walls 521 and 522 along the X-axis direction. Likewise, the first and second receptacle contacts 700a and 700b are alternately disposed on the third and fourth receptacle support walls 523 and 524 along the

At this time, the receptacle contact mounting portion 740 of the first receptacle contact 700a is coupled to the first receptacle contact PCB pattern 810 located biased toward the front side. In addition, the receptacle contact mounting portion 740 of the second receptacle contact 700b is coupled to the second receptacle contact PCB pattern 820 located biased toward the rear side.

As a result, it will be understood that the receptacle contact mounting portion 740 provided in each receptacle contact 700 and the receptacle PCB pattern 800 coupled thereto are alternately biased toward the front and rear sides along the X-axis direction. .

Therefore, along the longitudinal direction of the receptacle member 20, that is, the 740) are arranged alternately.

In other words, one of the receptacle contact mounting units 740 arranged closely to each other along the X-axis direction is coupled to the receptacle PCB pattern 800, and the other is not coupled to the receptacle PCB pattern 800.

Accordingly, the first and second receptacle contact PCB patterns 810 and 820 are arranged to face each other along the X-axis direction with the receptacle contact mounting portion 740 interposed therebetween. Accordingly, the adjacent first and second receptacle contact PCB patterns 810 and 820 can be sufficiently spaced apart, and any contact or conduction of electricity between them can be prevented.

Additionally, a pair of first receptacle contacts 700a or a pair of second receptacle contacts 700b are disposed along the Y-axis direction. Accordingly, the receptacle contact mounting portion 740 provided on the pair of receptacle contacts 700 arranged side by side along the Y-axis direction is mounted on one side or the other side of the Y-axis direction, that is, on either the front side or the rear side. It is located biasedly.

Accordingly, the pair of receptacle contact mounting portions 740 can be sufficiently spaced apart along the Y-axis direction.

As a result, the first and second receptacle contacts 700a and 770b adjacent to each other can be separated by a minimum distance while maintaining electricity supply reliability. Accordingly, the size of the plug member 10, particularly the length in the X-axis direction, may be reduced.

Meanwhile, as shown in FIG. 26, the first and second receptacle contacts 700a and 700b arranged side by side along the Y-axis direction may be spaced apart by a predetermined distance, that is, the first receptacle distance rd1. there is.

Additionally, as shown in FIGS. 22 and 23 , the receptacle through hole 530 may be formed to have a width equal to the second receptacle distance rd2 along the Y-axis direction.

At this time, the first receptacle distance (rd1) is the first receptacle contact (700a) or second receptacle contact (700b) arranged to face each other along the Y-axis direction, and the first and second receptacle contact PCB patterns ( It is preferable that 810 and 820) are formed sufficiently long so that they do not contact each other. In addition, the first receptacle distance rd1 is formed to be less than or equal to the second receptacle distance rd2, so that one of the receptacle contact mounting portions 740 of the pair of receptacle contacts 700 is at least partially connected to the receptacle through hole 530. ) is desirable to be exposed through.

The receptacle PCB pattern 800 couples the receptacle member 20 to a module substrate (not shown). Specifically, the receptacle PCB pattern 800 couples the receptacle holddown 600 and the receptacle contact 700 with a module substrate (not shown).

The receptacle PCB pattern 800 may be formed in any shape capable of coupling the receptacle holddown 600 and the receptacle contact 700 to a module substrate (not shown). In one embodiment, the receptacle PCB pattern 800 may be configured in a soldered form.

A plurality of receptacle PCB patterns 800 may be formed. The plurality of receptacle PCB patterns 800 may be combined with the receptacle holddown 600 and the receptacle contact 700, respectively. In the depicted embodiment, receptacle PCB pattern 800 includes a first receptacle contact PCB pattern 810, a second receptacle contact PCB pattern 820, and a receptacle holddown PCB pattern 830.

The first receptacle contact PCB pattern 810 is coupled with the first receptacle contact 700a. The first receptacle contact PCB pattern 810 is located adjacent to the first receptacle support wall 521 and the third receptacle support wall 523 and is respectively coupled to the plurality of first receptacle contacts 700a.

A plurality of first receptacle contact PCB patterns 810 may be provided. The plurality of first receptacle contact PCB patterns 810 may be combined with the plurality of first receptacle contacts 700a along the X-axis direction. As described above, the first and second receptacle contacts 700a and 700b are alternately arranged along the X-axis direction.

Accordingly, it can be said that the first receptacle contact PCB pattern 810 is arranged alternately with a plurality of receptacle contacts 700 arranged in parallel along the X-axis direction. In other words, along the Second receptacle contacts 700b (coupled with the PCB pattern 820) are arranged alternately.

Additionally, the plurality of first receptacle contact PCB patterns 810 may be combined with a pair of first receptacle contacts 700a arranged side by side along the Y-axis direction.

Therefore, as best shown in FIG. 27, the plurality of first receptacle contact PCB patterns 810 may be arranged to be spaced apart from each other along the X-axis and Y-axis directions. As a result, any contact or conduction of electricity between the first receptacle contact PCB patterns 810 located adjacent to each other can be prevented.

The second receptacle contact PCB pattern 820 is coupled with the second receptacle contact 700b. The second receptacle contact PCB pattern 820 is located adjacent to the second receptacle support wall 522 and the fourth receptacle support wall 524 and is respectively coupled to a plurality of second receptacle contacts 700b.

A plurality of second receptacle contact PCB patterns 820 may be provided. The plurality of second receptacle contact PCB patterns 820 may be combined with the plurality of second receptacle contacts 700b along the X-axis direction. As described above, the first and second receptacle contacts 700a and 700b are alternately arranged along the X-axis direction.

Accordingly, it can be said that the second receptacle contact PCB pattern 820 is arranged alternately with a plurality of receptacle contacts 700 arranged in parallel along the X-axis direction. In other words, along the First receptacle contacts 700a (coupled with the PCB pattern 810) are arranged alternately.

Additionally, the plurality of second receptacle contact PCB patterns 820 may be combined with a pair of second receptacle contacts 700b arranged side by side along the Y-axis direction.

Therefore, as best shown in FIG. 27, the plurality of second receptacle contact PCB patterns 820 may be arranged to be spaced apart from each other along the X-axis and Y-axis directions. As a result, any contact or conduction of electricity between the second receptacle contact PCB patterns 820 located adjacent to each other can be prevented.

Receptacle holddown PCB pattern 830 is coupled with receptacle holddown 600. The receptacle holddown PCB pattern 830 is coupled to the receptacle holddown coupling portion 630 to increase the coupling force between the receptacle insulator 500 and the receptacle holddown 600.

A plurality of receptacle holddown PCB patterns 830 may be provided. The plurality of receptacle holddown PCB patterns 830 may be respectively coupled to the receptacle holddown coupling portion 630 provided in the plurality of receptacle holddowns 600a and 600b.

In the illustrated embodiment, the receptacle holddown PCB pattern 830 includes first and second receptacle holddown PCB patterns 831 and 832. The first receptacle holddown PCB pattern 831 is a receptacle holddown coupling portion 630 of the first receptacle holddown 600a, and the second receptacle holddown PCB pattern 832 is a connection between the receptacle holddown 600b and the second receptacle holddown 600b. Each is coupled to the receptacle hold-down coupling portion 630.

The receptacle holddown PCB pattern 830 may be spaced apart from the first and second receptacle contact PCB patterns 810 and 820. In the illustrated embodiment, the receptacle holddown PCB pattern 830 is arranged to be spaced apart from the first and second receptacle contact PCB patterns 810 and 820, respectively, along the X-axis direction.

Although the embodiments of the present invention have been described, the spirit of the present invention is not limited to the embodiments presented in this specification, and those skilled in the art who understand the spirit of the present invention can add or change components within the scope of the same spirit. , deletion, addition, etc., other embodiments can be easily proposed, but this will also be said to be within the scope of the present invention.

10: plug member 20: receptacle member
100: plug insulator 110: plug insulator body
120: Plug support wall 121: First plug support wall
122: second plug support wall 130: plug through hole
200: Plug holddown 200a: First plug holddown
200b: second plug holddown 210: inner side of plug holddown
220: Plug holddown outer surface 230: Plug holddown coupling part
300: plug contact 300a: first plug contact
300b: second plug contact 310: plug contact portion
311: first plug contact portion 312: second plug contact portion
313: Plug contact connection part 320: Plug contact mounting part
321: first plug contact mounting portion 322: second plug contact mounting portion
330: Plug mating space 400: Plug PCB pattern
410: First plug contact PCB pattern 420: Second plug contact PCB pattern
430: Plug holddown PCB pattern 431: First plug holddown PCB pattern
432: Second plug holddown PCB pattern 500: Receptacle insulator
510: Receptacle insulating body 520: Receptacle support wall
521: first receptacle support wall 522: second receptacle support wall
523: Third receptacle support wall 524: Fourth receptacle support wall
530: Receptacle through hole 540: Receptacle connection wall
600: Receptacle holddown 600a: First receptacle holddown
600b: second receptacle holddown 610: upper receptacle holddown
620: Side receptacle holddown 630: Receptacle holddown coupling portion
700: receptacle contact 700a: first receptacle contact
700b: second receptacle contact 710: receptacle contact portion
711: first receptacle contact portion 712: second receptacle contact portion
713: Receptacle contact connection 720: Receptacle contact support
721: first receptacle contact support 722: second receptacle contact support
723: Receptacle support connection 730: Receptacle coupling space
740: Receptacle contact mounting portion 800: Receptacle PCB pattern
810: First receptacle contact PCB pattern 820: Second receptacle contact PCB pattern
830: Receptacle holddown PCB pattern 831: First receptacle holddown PCB pattern
832: Second receptacle holddown PCB pattern
pd1: first plug distance pd2: second plug distance
pw1: first plug width pw2: second plug width
rw1: first receptacle width rw2: second receptacle width
rd1: first receptacle distance rd2: second receptacle distance

Claims (17)

a plug insulator 100 having a length in a first direction and a width in a second direction perpendicular to the first direction; and
A plurality of plug contacts 300 are coupled to the plug insulator 100, are respectively coupled and electrically connected to a plurality of receptacle contacts 700 provided in the receptacle member 20, and are spaced apart from each other along the first direction. ), including
One of each pair of plug contacts 300 disposed adjacent to each other is in contact with the first receptacle contact portion 711 movably provided in the receptacle contact 700 on one side in the second direction, and the other One is in contact with the first receptacle contact portion 711 on the other side in the second direction,
connector. According to paragraph 1,
One of each pair of plug contacts 300 disposed adjacent to each other is coupled to the plug PCB pattern 400 on one side in the second direction, and the other is coupled to the plug PCB pattern 400 on the other side in the second direction. Combined with pattern 400,
connector. According to paragraph 2,
The plug insulator 100,
a plug insulating body 110 having a length in the first direction and a width in the second direction; and
It includes a plug through hole 130 formed through the inside of the plug insulating body 110,
The plug contact 300 extends in the second direction, one end is exposed to the outside of the plug insulating body 110, and the other end is located in the plug through hole 130,
connector. According to paragraph 3,
The plug contact 300 is,
A plug contact portion 310 coupled to the plug insulator 100; and
Continuous with the plug contact portion 310 and comprising a plug contact mounting portion 320 coupled to the plug PCB pattern 400,
connector. According to paragraph 4,
The plug contact mounting unit 320,
a first plug contact mounting portion 321 located at one end in the second direction; and
It includes a second plug contact mounting portion 322 located at the other end in the second direction,
Among the plurality of plug contacts 300, any one of each pair of plug contacts 300 located adjacent to each other has the first plug contact mounting portion 321 aligned with the plug insulating body 110 along the second direction. ), and the other is disposed so that the first plug contact mounting portion 321 is located in the plug through hole 130,
connector. According to clause 5,
It further includes a plurality of plug PCB patterns 400 that are respectively coupled to the plurality of plug contacts 300 and conduct electricity,
The plug PCB pattern 400 is,
Alternately coupled to the first plug contact mounting portion 321 and the second plug contact mounting portion 322 of the plurality of plug contacts 300 spaced apart along the second direction,
connector. According to paragraph 4,
The plug contact portion 310 is,
a first plug contact portion 311 located on one side in the second direction, in contact with the external receptacle member 20, and formed to have a length equal to the first plug width pw1 along the first direction; and
It is located on the other side of the second direction, is in contact with the receptacle member 20, and includes a second plug contact portion 312 formed to have a length of the second plug width pw2 along the first direction. ,
connector. In clause 7,
The plug contact portion 310 is,
Comprising a plug contact connection portion (313) extending between the first plug contact portion (311) and the second plug contact portion (312),
The first plug contact portion 311 and the second plug contact portion 312 are formed to have different widths along the first direction, and the plug contact connection portion 313 is formed in the first direction along the second direction. Formed so that the width of
connector. a receptacle insulator 500 having a length in a first direction and a width in a second direction perpendicular to the first direction; and
A plurality of receptacle contacts 700 are coupled to the receptacle insulator 500, are respectively coupled and electrically connected to a plurality of plug contacts 300 provided on the plug member 10, and are spaced apart from each other along the first direction. ), including
The first receptacle contact portion 711 movably provided in one of each pair of receptacle contacts 700 disposed adjacent to each other is connected to the plug contact portion 310 of the plug contact 300 on one side in the second direction. ), and the first receptacle contact portion 711, which is movably provided on the other side, is in contact with the plug contact portion 310 on the other side in the second direction,
connector. According to clause 9,
One of each pair of receptacle contacts 700 disposed adjacent to each other is coupled to the receptacle PCB pattern 800 on one side in the second direction, and the other is coupled to the receptacle PCB pattern 800 on the other side in the second direction. Combined with pattern 800,
connector. According to clause 10,
The receptacle insulator 500,
a receptacle insulating body 510 having a length in the first direction and a width in the second direction; and
It includes a receptacle through hole 530 formed through the inside of the receptacle insulating body 510,
The receptacle contact 700 extends in the second direction, with one end facing the receptacle through hole 530 and the other end facing the outside of the receptacle insulating body 510 along the second direction. located,
connector. According to clause 11,
It includes a receptacle contact support portion 720 coupled to the receptacle insulator 500,
The receptacle contact support portion 720,
a first receptacle contact support portion 721 located on one side along the second direction; and
It is continuous with the first receptacle contact support part 721 and includes a second receptacle contact support part 722 located on the other side along the second direction,
Among the plurality of receptacle contacts 700, one of each pair of receptacle contacts 700 located adjacent to each other is disposed with the first receptacle contact support portion 721 facing the receptacle through hole 530, and the other In one, the second receptacle contact support 722 is disposed toward the receptacle through hole 530,
connector. According to clause 12,
The receptacle contact 700 is,
A receptacle contact mounting portion 740 is continuous with the receptacle contact support portion 720, coupled to the receptacle PCB pattern 800, and positioned adjacent to the second receptacle contact support portion 722,
The plurality of receptacle contacts 700 are,
The receptacle contact mounting part 740 is arranged to face the receptacle through hole 530, and the receptacle contact mounting part 740 is arranged to face the outside of the receptacle insulating body 510 in the second direction. The other one is arranged alternately along the first direction,
The receptacle PCB pattern 800 is,
The one disposed toward the receptacle through hole 530 and the other disposed toward the outside of the receptacle insulating body 510 in the second direction are alternately arranged along the first direction,
connector. According to clause 10,
The receptacle insulator 500,
a receptacle insulating body 510 having a length in the first direction and a width in the second direction; and
It has a length in the first direction, is coupled to the receptacle contact 700, and includes a plurality of receptacle support walls 520 spaced apart along the second direction,
The plurality of receptacle contacts 700 are respectively coupled to the plurality of receptacle support walls 520 and are spaced apart from each other along the first direction.
connector. According to clause 14,
The receptacle insulator 500,
It includes a receptacle through hole 530 formed through the inside of the receptacle insulating body 510,
The receptacle support wall 520 is,
a first receptacle support wall 521 and a second receptacle support wall 522 located on one side of the second direction and spaced apart from each other along the second direction; and
It is located on the other side of the second direction and includes a third receptacle support wall 523 and a fourth receptacle support wall 524 spaced apart from each other along the second direction,
The first and second receptacle support walls 521 and 522 are disposed to face the third and fourth receptacle support walls 523 and 524 along the second direction with the receptacle through hole 530 interposed therebetween. felled,
connector. According to clause 15,
Any one of the plurality of receptacle contacts 700 is alternately coupled to the first and second receptacle support walls 521 and 522, respectively, along the first direction,
Another one of the plurality of receptacle contacts 700 is alternately coupled to the third and fourth receptacle support walls 523 and 524, respectively, along the first direction,
The receptacle contact 700 coupled to the first and third receptacle support walls 521 and 523 is located on one side along the second direction,
The receptacle contact 700 coupled to the second and fourth receptacle support walls 522 and 524 is located on the other side along the second direction,
connector. According to clause 16,
It further includes a plurality of receptacle PCB patterns 800 that are respectively coupled to the plurality of receptacle contacts 700 and conduct electricity,
The receptacle PCB pattern 800 is,
a first receptacle contact PCB pattern (810) coupled to the receptacle contact (700) coupled to the first and third receptacle support walls (521, 523); and
a second receptacle contact PCB pattern (820) coupled with the receptacle contact (700) coupled with the second and fourth receptacle support walls (522, 524),
The first receptacle contact PCB pattern 810 and the second receptacle contact PCB pattern 820 are arranged alternately along the first direction,
connector.

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