KR102494410B1 - Socket connector - Google Patents

Abstract

mold unit 400; metal fittings (500); A socket connector including a first type of socket terminal 600A is provided.
The first type of socket terminal 600A is
(a) an outer end 600A-1 exposed from the sidewall of the mold part and spaced upward from the bottom surface of the mold part;
(b) an upper curved portion 600A-2 that is convexly bent upward while extending from the outer end to the inside of the socket connector in the width direction;
(c) extending convexly downward from the upper curved portion in the width direction of the socket connector, and at least a portion of the convexly bent portion is exposed when viewed from the bottom surface of the mold portion, , and the lower surface thereof is a mounting portion mounted on the substrate, a lower curved portion 600A-3, and
(d) an inner end portion 600A-4 extending from the lower curved portion toward the inside of the socket connector in the width direction and facing upward, and engaged with a terminal of the mating connector of the socket connector;
includes

Description

socket connector {SOCKET CONNECTOR}

The present invention relates to socket connectors. More specifically, the present invention relates to a socket connector that includes signal terminals at different positions between mounting parts, and includes a support part for supporting the terminals when the socket mold part is operated so as to form a contact pressure.

In general, when boards are connected to each other, two connectors connected to each board are used by a method such as soldering, and the two connectors may be connected to each other. Here, one of the two connectors is a plug connector, and the other is a socket connector. A socket connector is also called a receptacle connector. These plug connectors and socket connectors may be formed by arranging terminals in a mold unit. A plug connector and a socket connector may be mated to each other to form an electrical connector assembly.

According to the miniaturization trend of electronic devices, miniaturization and low profile of connectors are also required. However, there is a limit to some extent in reducing the size and miniaturization of the connector by reducing the pitch or reducing the parts.

In addition, there is always a demand for improvement in durability against contact pressure or deformation of socket terminals.

A technical problem to be solved by the present invention is to implement a low profile (length reduction) of a connector without reducing a pitch or reducing a component, and also to improve durability against contact pressure or deformation of a terminal.

For example, in conventional socket connectors, it is typical that all mounting parts are lined up on the same line at regular intervals. The problem in that case is to make the spacing between the mounting parts small in order to make the connector small (ie, to reduce the height), and the solder (solder) that attaches the mounting part to the board is in contact with the adjacent mounting part. is that it occurs.

That is, a plurality of socket terminals (particularly, signal terminals) must be electrically insulated from each other so that desired signals can be distinguished and transmitted. However, if the distance (pitch) between signal terminals is reduced in the process of reducing the connector height, as described above, some signal terminals may be electrically connected undesirably in the process of mounting the connector on the board. . This is because even if the signal terminals are precisely arranged at a predetermined small pitch, the solder may spread sideways undesirably without following such a precise pitch during the mounting process.

In addition, when the plug connector and the socket connector are coupled, the contact pressure is insufficient, or when the coupled state is maintained for a long time, the contact pressure may be weakened because the terminal of the socket connector remains deformed for a long time.

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

According to the present invention, a socket connector soldered and mounted on a board includes a base portion, a first wall portion protruding from the upper surface of the base portion, a second wall portion protruding from the top surface of the base portion and intersecting the first wall portion, and an upper surface of the base portion. A third wall portion protruding from and intersecting the second wall portion and facing the first wall portion, and a fourth wall portion protruding from the upper surface of the base portion and intersecting the first and third wall portions and facing the second wall portion. Mold part to do; Even a metal fitting installed on the first wall portion; and a plurality of socket terminals installed on at least the second wall, wherein the plurality of socket terminals include at least a first type of socket terminal, the first type of socket terminal having (a) a width of the socket connector an outer end positioned on the outer side of the socket connector exposed from the sidewall of the mold part and spaced upward from the bottom surface of the mold part, (b) extending from the outer end toward the inside of the socket connector in the width direction and convex upward. A bent upper curved portion, (c) extending from the upper curved portion to the inside of the socket connector in the width direction and being bent convexly downward, and at least a part of the bent convexly downward portion is formed in the mold part. A lower curved portion exposed when viewed from the bottom, and (d) an inner end extending upward from the lower curved portion in the width direction of the socket connector toward the top and coupled to a terminal of a mating connector of the socket connector; , The portion exposed when viewed from the bottom of the lower curved portion of the first type socket terminal is a mounting portion mounted on the substrate, the socket connector is provided.

Preferably, the plurality of socket terminals further include at least a second type of socket terminal, and the second type of socket terminal is (a') located on an outer side of the socket connector in the width direction and is located on a sidewall of the mold part. an outer end exposed at a height of the bottom surface of the mold part, (b') an upper curved part extending from the outer end to an inner side in the width direction of the socket connector and convexly bent upward, (c') the A lower curved portion that extends from the upper curved portion to the inside of the socket connector in the width direction and is bent convexly downward, and the portion bent convexly toward the lower portion is not exposed when viewed from the bottom surface of the mold portion, and ( d') extends from the lower curved portion to the inside of the socket connector in the width direction and faces upward, and includes an inner end engaged with a terminal of a mating connector of the socket connector, and an outer end of the second type socket terminal. Is a mounting unit mounted on the board.

Preferably, the first type socket terminal and the second type socket terminal are disposed facing each other in a width direction of the socket connector.

Preferably, the first type socket terminal and the second type socket terminal are alternately arranged one by one in the longitudinal direction of the socket connector.

Preferably, a support part, which is a part of the mold part, is formed below the connection part connecting the lower curved part and the inner end of the socket terminal, and the socket connector is coupled with the terminal of the mating connector so that the inner end is inside the socket connector. When operated, the connection portion is supported in contact with the support portion.

Preferably, when the socket connector is viewed from the upper or lower surface, there is a vertically penetrating space on a side surface of the inner end.

Preferably, when the socket connector is viewed from a top or bottom surface, a space penetrated vertically also exists inside the inner end.

Preferably, an upper portion of the mounting portion of the first type socket terminal is covered by the mold portion, and when the socket connector is engaged with the terminal of the mating connector and the inner end is moved to the inside of the socket connector. , the upper part of the mounting part is supported in contact with the mold part.

Preferably, the socket terminal of the first type and the socket terminal of the second type are disposed in a mixed manner.

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

According to the present invention, the pitch of the second socket terminal 600 is the distance from the terminal next to it, but when the second socket terminal 600 is viewed only by the same type, which mounting part ( 600A-m) and the adjacent mounting portion 600A-m, the distance is twice the pitch. Similarly, in the B-type terminal 600B, the distance between a certain mounting portion 600B-m and another adjacent real portion 600B-m is twice the pitch.

That is, when the pitch between the second socket terminals 600 is m, the pitch between the mounting portions 600B-m of the B-type terminal 600B is 2 m. Also in the A-type terminal 600A, the pitch between the mounting portions 600A-m is similarly 2m.

Further, since the mounting portion 600B-m of the B-type terminal 600B (immediately adjacent to the outer end 600B-1) and the outer end 600A-1 of the A-type terminal 600A have a height difference from each other, Concern that solder (solder) to be used for the mounting portion 600B-m of the B-type terminal 600B will smear or spread to other parts (eg, outer end 600A-1, etc.) of the A-type terminal 600A is significantly reduced. .

When solder cream or solder paste invades adjacent terminals, there is a problem in that terminals to be electrically separated are short-circuited, but according to the present invention, the pitch between the plurality of second socket terminals 600 remains narrow However, since only the pitch between terminals of substantially the same type (that is, between A-type terminals 600A or between B-type terminals 600B) is required, such concerns can be greatly reduced. This is because a margin is created in the spacing of the mounting parts.

As such, the pitch between the mounting parts can be virtually doubled while the pitch between the second socket terminals 600 (for example, signal terminals) is left as it is, which is a great help in reducing the size of the connector. The pitch of the socket terminals 600 can be made closer, so that the overall length direction of the connector can be reduced.

In addition, conventionally, when the contact pressure is insufficient at the moment the plug connector and the socket connector are coupled, or when the coupled state is maintained for a long time, the contact pressure is weakened because the terminal of the socket connector remains deformed for a long time. According to the present invention, there is a support portion 400-s supporting portions 600A-c and 600B-c where the lower curved portion 600A-3 and the end portion 600A-4 (inner end) meet. The support portion 400-s is a part of the socket mold portion 400, and serves to improve contact pressure by supporting the terminals 600A and 600B when the terminals 600A and 600B are operated.

The support portion 400-s, which is a part of the socket mold portion 400, supports the connection portions 600A-c and 600B-c that receive the most stress, so that the contact pressure is improved. In addition, if the coupling state continues for a long time, the connection part 600A-c, 600B-c can compensate for the fact that it is easy to lose elasticity to some extent.

In addition, the mold part 400 of the upper part (+Z direction) of the mounting part 600A-m of the A-type terminal 600A is a filled part (ie, the upper surface fixing part 400-u), and this mounting part ( 600A-m) (ie, the lower curved portion 600A-3) and the upper fixing portion 400-u provide higher fixing force. That is, when the inner end portion 600A-4 is operated, the upper surface fixing portion 400-u, which is part of the mold portion 400, supports the mounting portion 600A-m from above, thereby assisting with contact pressure. , it also helps improve durability.

In addition, the mold part 400 of the lower part (-Z direction) of the lower curved part 600B-3 of the B-type terminal 600B is a filled part (ie, the bottom fixing part 400-d). The relative arrangement relationship between the curved portion 600B-3 and the bottom fixing portion 400-d provides a higher fixing force. That is, when the inner end portion 600B-4 is operated, the lower surface fixing portion 400-d, which is a part of the mold portion 400, supports the lower curved portion 600B-3 from the bottom, thereby assisting the contact pressure. , it also helps improve durability.

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

1 is a view showing a socket connector 20 according to the present invention.
FIG. 2 is a top view of the socket connector 20 of FIG. 1 .
FIG. 3 is an enlarged view of a part of FIG. 2 .
4 is a cross-sectional side view of a cross-section in the direction ab of FIG. 3 seen from the side.
5 is a bottom view of the socket connector 20 of the present invention viewed from the bottom.
6 is a view showing a side cross-section of an A-type terminal 600A in an operating state and a side cross-section of a B-type terminal 600B in an operating state superposed.
FIG. 7 is a bottom view of the top view shown in FIG. 2 .
FIG. 8 is a side view of the socket connector 20 of FIG. 1 .

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, only these embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs. It is provided to fully inform the holder of the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numbers designate like elements throughout the specification.

1 is a view showing a socket connector 20 according to the present invention.

The socket connector 20 will be described as follows.

The socket connector 20 may include, for example, a socket mold part 400 , a first socket terminal 500 and a second socket terminal 600 .

The socket mold part 400 (molding part of the socket connector) may have a shape to accommodate a mold part (plug mold part) of a plug connector (not shown). For example, the mold part of the plug connector may have a shape inserted into a space defined by the mold part 400 of the socket connector.

The socket mold unit 400 may be formed of an insulator including resin and epoxy, but is not limited thereto.

The first socket terminal 500 and the second socket terminal 600 may be disposed on a wall portion of the socket mold part 400 . Also, a plurality of first socket terminals 500 and a plurality of second socket terminals 600 may be disposed on the wall portion of the socket mold part 400 .

In FIG. 1 , two first socket terminals 500 are shown, and although not necessarily, they are preferably formed in a symmetrical shape with facing walls.

In addition, the socket mold part 400 has a base. The socket mold part 400 includes a base portion, a first wall portion 110 protruding from the top surface of the base portion, a second wall portion 120 protruding from the top surface of the base portion and crossing the first wall portion 110, and protruding from the top surface of the base portion. and crosses the second wall portion 120 and faces the first wall portion 110, the third wall portion 130 protrudes from the upper surface of the base portion, intersects the first wall portion 110 and the third wall portion 130, and the second wall portion 130 A fourth wall portion 140 facing the wall portion 120 is included.

For example, the first socket terminal 500 is formed on the first wall portion 110, and a plurality of second socket terminals 600 are formed side by side on the second wall portion 120 adjacent to the first wall portion at an angle of about 90 degrees. , Another first socket terminal 500 is formed on the third wall portion 130 adjacent to the second wall portion 120 at an angle of about 90 degrees, and the fourth wall portion adjacent to the third wall portion 130 at an angle of about 90 degrees ( 140), a plurality of other second socket terminals 600 are formed side by side. Also, the fourth wall portion 140 and the first wall portion 110 are adjacent to each other at an angle of about 90 degrees.

Therefore, the first wall portion 110 and the third wall portion 130 face each other and have a symmetrical shape, and the second wall portion 120 and the fourth wall portion 140 face each other and have a symmetrical shape.

The first socket terminal 500 and the second socket terminal 600 may include a conductive material.

For example, the first socket terminal 500 and the second socket terminal 600 may be formed of a metal material including copper, but are not limited thereto.

Accordingly, when the unshown plug connector is fastened to the socket connector 20, the first plug terminal and the second plug terminal (not shown) are electrically connected to the first socket terminal 500 and the second socket terminal 600. can be connected

For example, a first plug terminal (not shown) may be electrically connected to the first socket terminal 500 and a second plug terminal (not shown) may be electrically connected to the second socket terminal 600 .

For example, when the first plug terminal is a power terminal, the first socket terminal 500 may input/output a power electrical signal. Depending on circumstances, the first socket terminal 500 may simply be referred to as a metal fitting, if only paying attention to the fact that a certain structure exists without paying special attention to the fact that it is a power terminal.

For example, when the second plug terminal is a signal terminal, the second socket terminal 600 may input/output data electrical signals.

The socket connector 20 may be an exemplary socket connector to which a plug connector not shown according to an embodiment is fastened. The socket connector 20 may include, for example, a socket mold part 400 , a first socket terminal 500 and a second socket terminal 600 .

The mold part 400 of the socket connector may have a shape to accommodate a mold part (plug mold part) of a plug connector (not shown). For example, the plug mold part may have a shape inserted into a space defined by the socket mold part 400 .

The socket mold unit 400 may be formed of an insulator including resin and epoxy, but is not limited thereto.

The first socket terminal 500 and the second socket terminal 600 may be disposed on a wall portion of the socket mold part 400 . Also, a plurality of first socket terminals 500 and a plurality of second socket terminals 600 may be disposed on the wall portion of the socket mold part 400 .

In the socket connector 20 of FIG. 1 , each first socket terminal 500 at both ends covers a plastic housing (socket mold part 400). That is, there is no part where the plastic housing covers the first socket terminal 500, and the first socket terminal 500 covers the plastic housing and the first socket terminal 500 is exposed. As a conventional example, there is a case where a part of the first socket terminal 500 (for example, a part corresponding to a corner portion of the socket connector 20) is covered with a plastic housing. Since the metal of the whole is covered, cracking of the housing is prevented and an easier coupling operation is possible.

Meanwhile, as an example, the signal terminal as the second socket terminal 600 may be composed of 32 PINs allowing a current of 0.3A, and the power terminal as the first socket terminal 500 may allow a current of 5A. there is. However, in the example of FIG. 1, the number of PINs is 8. The socket mold part 400 of the socket connector 20 is preferably made of a plastic material, and may be, for example, LCP (Liquid Crystal Polymer). The first socket terminal 500 and the second socket terminal 600 of the socket connector 20 are preferably made of metal, and may be, for example, copper alloy plated with gold (nickel under layer).

FIG. 2 is a top view of the socket connector 20 of FIG. 1 .

The second socket terminal 600 may be a mixture of a plurality of types (eg, two types). 2 shows that the A-type terminal 600A and the B-type terminal 600B are alternately arranged. A-type terminals 600A and B-type terminals 600B are alternately disposed along the longitudinal direction (X direction) of the connector 20, and A-type terminals 600A along the width direction (Y direction) of the connector 20. ) and the B-type terminal 600B face each other. That is, the A-type terminals 600A are arranged in a zigzag pattern, and the B-type terminals 600B are also arranged in a zigzag pattern engaged therewith. However, this is a preferred embodiment, and the arrangement is not necessarily limited as shown in FIG. 2 .

FIG. 3 is an enlarged view of a part of FIG. 2 .

In FIG. 3, the A-type terminal 600A includes an outer end 600A-1 (outer cutout), an upper curved portion 600A-2; It includes a lower curved portion 600A-3 (see FIG. 4) and an inner end portion 600A-4. The B-type terminal 600B includes an outer end 600B-1 (outer end), an upper curved portion 600B-2, a lower curved portion 600B-3, and an inner end 600B-4.

The inner side in the width direction refers to a central position in the width of the socket connector 20. The outside in the width direction refers to both ends in the width of the socket connector 20 . In the example of Fig. 3, both the left and right sides are outside in the width direction, and the middle portion is inside in the width direction.

Since it is difficult to grasp the three-dimensional shape only with the top view of FIG. 3 , the cross-section ab of FIG. 3 will be described below with reference to FIG. 4 which is a side view of the cross-section ab of FIG.

4 is a cross-sectional side view of a cross-section in the direction ab of FIG. 3 seen from the side.

A side cross section obtained by cutting the A-type socket terminal 600A along a plane (YZ plane) orthogonal to the longitudinal direction (X-axis direction) of the socket connector 20 is shown on the left side of FIG. 4 .

Similarly, a side cross section obtained by cutting the B-type socket terminal 600B along a plane (YZ plane) orthogonal to the longitudinal direction (X-axis direction) of the socket connector 20 is shown on the right side of FIG. 4 .

Looking at the schematic configuration, the A-type socket terminal 600A is

The outer end portion 600A- is located outside the socket connector 20 in the width direction (Y direction), exposed at the sidewall of the mold part 400 (socket mold part), and is spaced upward from the bottom surface of the mold part 400. 1; end),

An upper curved portion 600A-2 extending convexly toward the top (+Z direction) while extending from the outer end portion 600A-1 to the inside of the socket connector 20 in the width direction (Y direction);

It extends from the upper curved portion 600A-2 to the inside of the socket connector 20 in the width direction (Y direction) and is bent convexly toward the bottom (-Z direction), and is bent convexly toward the bottom (-Z direction). A lower curved portion 600A-3, at least a part of which is exposed when viewed from the bottom surface of the mold portion 400, and

It extends from the lower curved portion 600A-3 to the inside in the width direction (Y direction) of the socket connector 20 and faces the top (+Z direction), and is a mating connector (plug connector not shown) of the socket connector 20. The inner end (600A-4) coupled with the terminal (P) of

includes

Also, a portion exposed when viewed from the bottom of the lower curved portion 600A-3 of the A-type socket terminal 600A functions as a mounting portion 600A-m mounted on a substrate.

The plug terminal (signal terminal) of the plug connector (not shown) is engaged by being sandwiched between the inner side (inner side in the width direction) of the upper curved portion 600A-2 and the outer side (outer side in the width direction) of the inner end portion 600A-4. .

In addition, looking at the schematic configuration, the B-type socket terminal 600B is

An outer end 600B-1 (end), which is located outside the socket connector 200 in the width direction (Y direction) and is exposed from the sidewall of the mold part 400 and is located at the height of the bottom surface of the mold part 400,

An upper curved portion 600B-2 that is convexly bent toward the top (+Z direction) while extending from the outer end portion 600B-1 to the inside of the socket connector 20 in the width direction;

It extends from the upper curved portion 600B-2 to the inside of the socket connector 20 in the width direction (Y direction) and is bent convexly toward the bottom (-Z direction), and the portion bent convexly toward the bottom is molded. A lower curved portion 600B-3 that is not exposed when viewed from the bottom of the portion 400, and

It extends from the lower curved portion 600B-3 to the inside in the width direction (Y direction) of the socket connector 20 and faces the upper part (+Z direction), and the terminal of the mating connector (not shown) of the socket connector 20 ( Inner end 600B-4 coupled with P)

includes

And, the outer end 600B-1 of the B-type socket terminal 600B functions as a mounting portion 600B-m mounted on a board.

The plug terminal (signal terminal) of the plug connector (not shown) is engaged by being sandwiched between the inner side (inner side in the width direction) of the upper curved portion 600B-2 and the outer side (outer side in the width direction) of the inner end portion 600B-4. .

As in FIG. 3, also in FIG. 4, the inner side in the width direction refers to a central position in the width of the socket connector 20. The outside in the width direction refers to both ends in the width of the socket connector 20 . In the example of Fig. 4, both the left and right sides are outside in the width direction, and the middle portion is inside in the width direction.

That is, the inner side in the width direction in FIG. 4 refers to the middle portion. In FIG. 4, the part indicated by arrow a is the outer side, and the part indicated by arrow b is also the other outer side.

Bending around the lower curved portion 600A-3 of the A-type socket terminal 600A is different from bending around the lower curved portion 600B-3 of the B-type socket terminal 600B.

Specifically, the bend around the lower curved portion 600A-3 of the A-type socket terminal 600A protrudes further downward than the periphery of the lower curved portion 600B-3 of the B-type socket terminal 600B. , the periphery of the lower curved portion is easily exposed through the space cut out between the base portions of the socket mold portion 400 .

Also through FIG. 5 to be described later, it can be seen that the periphery of the mounting portion 600A-m is exposed.

Although the difference in the bending state around the lower curved portions (ie, 600A-3 and 600B-3) shown on the left and right sides of FIG. 4 is not essential, if they are bent as shown on the left and right sides of FIG. 4, A The mounting portion 600A-m of the type terminal 600A is exposed to the space between the base of the socket mold portion 400, and the lower curved portion 600B-3 of the B type terminal 600B is of the socket mold portion 400. It becomes easier to make it covered by the base (that is, covered when viewed from the bottom to the top as shown in FIG. 5 to be described later).

In FIG. 4 , it can be seen that the A-type terminal 600A and the B-type terminal 600B have different shapes.

The heights of the outer ends 600A-1 and 600B-1 of the second socket terminal 600 are different depending on the type of terminal 600. That is, although commonly referred to as the second socket terminal 600, referring to FIGS. 1 and 4, there is a terminal 600A having a high height of the outer end 600A-1 and a height of the outer end 600B-1. There is a low terminal 600B. Higher height means more in the +Z-axis direction in FIGS. 1 to 4 .

Looking back to FIG. 1 , it can be seen that the outer end 600A-1 having a high height and the outer end 600B-1 having a low height are mixed even though they are in contact with the socket mold part 400 .

As shown in FIG. 4 , a high outer end 600A-1 and a low outer end 600B-1 are mixed.

The second socket terminal 600 having the taller outer end 600A-1 is referred to as an A-type terminal 600A, and the second socket terminal 600 having the lowerer outer end 600B-1 is called B It can be classified as a type terminal (600B).

In the conventional socket connector, the terminals corresponding to the second socket terminal of the present invention are of one type, and even if the shape is somewhat different, the height of the outer ends 600A-1 and 600B-1 as shown in FIGS. 1 and 4 is The other two types of terminals were not mixed.

In FIG. 4 , in the A-type second socket terminal 600A and the B-type second socket terminal 600B, it has been described that the heights of the outer ends 600A-1 and 600B-1 are different. However, the A-type terminal 600A and the B-type terminal 600B differ not only in the heights of the outer ends 600A-1 and 600B-1, but also in the positions of the mounting parts.

The mounting part means that a part of the second socket terminal 600 is bonded to the board by means such as soldering, so that the second socket terminal 600 (600A, 600B) is fixed to the board.

As shown in FIG. 4 , the lower side immediately adjacent to the outer end 600B-1 of the B-type second socket terminal 600B becomes the mounting portion 600B-m. However, in the A-type second socket terminal 600A, the lower side directly adjacent to the outer end 600A-1 is not a mounting portion, but the lower curved portion 600A-3 is more inclined towards the center of the socket connector 20. The lower side of becomes the mounting portion 600A-m.

That is, when viewed from FIG. 3 , a plurality of mounting units 600A-m and 600B-m are not lined up on one line in the X-axis direction, but are lined up across two lines in the X-direction.

Therefore, considering only the mounting portion 600A-m of the A-type terminal 600A, one line is formed sequentially at regular intervals in the X-axis direction, and the mounting portion 600B-m of the B-type terminal 600B is formed. ), another line is formed sequentially at regular intervals in the X-axis direction. That is, these two lines are parallel to each other. And these two lines are spaced apart from each other in the Y-axis direction.

In the conventional socket connector, it is common that all mounting parts are lined up on the same line at regular intervals. The problem in that case is that when the spacing between the mounting parts is reduced in order to make the connector smaller (ie, to reduce the height), the solder (solder) that attaches the mounting part to the board comes into contact with the adjacent mounting part. is that it occurs.

That is, a plurality of socket terminals (signal terminals) must be electrically insulated from each other so that desired signals can be distinguished and transmitted. However, if the distance (pitch) between signal terminals is reduced in the process of reducing the connector height, as described above, some signal terminals may be electrically connected undesirably in the process of mounting the connector on the board. It is. This is because even if signal terminals are precisely arranged to have a certain pitch, in the process of mounting on a board, such a precise pitch cannot be followed and solder may spread sideways undesirably.

However, looking at FIGS. 1 and 2, it is easy to see that, for example, when the pitch between adjacent second socket terminals 600 is m, the pitch between mounting parts of the second socket terminals 600 is not m but 2m. You will be able to.

That is, according to the present invention, the pitch of the second socket terminal 600 is the distance to the adjacent terminal, but the distance between one mounting unit 600A-m and another adjacent mounting unit 600A-m is 2 of the pitch. it doubles

Also, the distance between one mounting portion 600B-m and another mounting portion 600B-m is twice the pitch.

When solder cream or solder paste invades adjacent terminals, there is a problem in that terminals to be electrically separated are short-circuited, but according to the present invention, the pitch between the plurality of second socket terminals 600 remains narrow However, since only the pitch between terminals of substantially the same type (that is, between A-type terminals 600A or between B-type terminals 600B) is required, such concerns can be greatly reduced. This is because a margin is created in the spacing of the mounting parts.

1 to 4, when the A-type terminal 600A and the B-type terminal 600B are alternately disposed, the outer end 600A-1 of the A-type terminal and the outer end 600B of the B-type terminal -1) is different in height. Further, only the B-type terminal 600B is formed with a mounting portion adjacent to the outer end. As shown in FIG. 4, in the A-type terminal 600A, a portion 600A-m spaced a predetermined distance in the Y-axis direction from the surface adjacent to the outer end becomes a mounting portion.

Then, when the pitch between the second socket terminals 600 is m, the pitch between the mounting portions 600B-m of the B-type terminal 600B is 2 m. Also in the A-type terminal 600A, the pitch between the mounting portions 600A-m is similarly 2m.

Further, since the mounting portion 600B-m of the B-type terminal 600B (immediately adjacent to the outer end 600B-1) and the outer end 600A-1 of the A-type terminal 600A have a height difference from each other, Concern that solder (solder) to be used for the mounting portion 600B-m of the B-type terminal 600B will smear or spread to other parts (eg, outer end 600A-1, etc.) of the A-type terminal 600A is significantly reduced. . This height difference can be clearly seen in FIGS. 1 and 4 .

As shown in the cross-sectional side view of FIG. 4 , the arch shape of the vicinity of the lower curved portion 600A-3 of the A-type terminal 600A is different from the arch shape of the lower curved portion 600B-3 of the B-type terminal 600B.

Due to this difference, when viewed from the bottom as shown in FIG. 5 described later, the lower curved portion 600A-3 (the bottom surface becomes the mounting portion 600A-m) of the A-type terminal 600A is exposed, and B The lower curved portion 600B-3 of the type terminal 600B is hidden by the socket mold portion 400 and is not visible. That is, whether or not it is covered by the socket mold part 400 is different.

On the other hand, FIG. 4 shows a cross section of the socket mold part 400, and hatched portions in the cross section indicate a surface that is directly cut when cut in the ab direction. Incidentally, in the socket mold portion 400 in FIG. 4, portions not shaded indicate that they are retracted backward from the cut surface (i.e., they are retracted in the -X direction in FIG. 4). That is, an empty space S is shown in FIG. 3, and referring to the existence of the empty space S of FIG. 3, the structure of the same empty space S of FIG. 4 can be easily understood. As described above, the hatched portion of the socket mold part 400 in FIG. 4 is a portion directly cut by the ab-direction cutting surface in FIG. It can be understood that the part is penetrated up and down.

Due to the existence of the empty space S, the operation of the terminals (particularly, the ends 600A-4 and 600B-4) is more free, and if the support part 400-s of the mold provides support to some extent, the terminal 600A, 600B) (particularly, the section extending from the connecting portions 600A-c and 600B-c to the inner ends 600A-4 and 600B-4) can be moved while freely exerting elastic force upward and sideways.

Particularly, in the hatched cross section of the socket mold part 400, a support part ( 400-s) exist. The support portion 400-s is a part of the socket mold portion 400, and serves to improve the contact pressure by supporting the terminals 600A and 600B when the terminals 600A and 600B are operated (described later in FIG. 6). box).

In addition, when viewed from the side cross-sectional view of FIG. 4 , the mold part 400 of the upper part (+Z direction) of the mounting part 600A-m of the A-type terminal 600A is filled (that is, the upper surface fixing part 400). -u)). Even through FIG. 3 (top view), it can be confirmed that the upper surface fixing part 400-u covers a part of the A-type terminal 600A from the upper surface. The relative arrangement relationship between the mounting portion 600A-m (ie, the lower curved portion 600A-3) and the upper fixing portion 400-u provides a higher fixing force. For reference, this structure can be implemented by insert molding or the like.

That is, the upper part of the mounting part 600A-m of the A-type socket terminal 600A is covered by a part 400-u of the socket mold part 400, and the socket connector 20 is a mating connector (not shown). When the inner end 600A-4 is moved to the inside of the socket connector 20 by being coupled with the terminal of (refer to P in FIG. 6 to be described later), the upper part of the mounting part 600A-m is molded part 400 It is supported in contact with the upper surface fixing part 400-u, which is a part of.

4, the mold part 400 of the lower part (-Z direction) of the lower curved part 600B-3 of the B-type terminal 600B is filled (that is, the bottom fixing part ( 400-d)). Even through FIG. 5 (bottom view), it can be confirmed that the lower surface fixing part 400-d covers a part of the B-type terminal 600B from the lower surface. The relative arrangement relationship between the lower curved portion 600B-3 and the bottom fixing portion 400-d provides a higher fixing force.

That is, when the inner end portion 600B-4 is operated, the lower surface fixing portion 400-d, which is a part of the mold portion 400, supports the lower curved portion 600B-3 from the bottom, thereby assisting the contact pressure. , it also helps improve durability.

5 is a bottom view of the socket connector 20 of the present invention viewed from the bottom.

In FIG. 5, the lower curved portion 600A-3 of the A-type terminal 600A (the bottom thereof becomes the mounting portion 600A-m) is exposed, and the lower curved portion 600B-3 of the B-type terminal 600B is exposed. ) can be confirmed that it is hidden by the socket mold part 400 and is not visible. As shown in the cross-sectional side view of FIG. 4 , the arch shape of the A-type terminal 600A and the arch shape of the B-type terminal 600B are different. If the arch shape is so different, as shown in FIG. 5, the lower curved portion 600B-3 of the B-type terminal 600B is covered by the socket mold part 400 (when viewed from the bottom to the top), and the A-type terminal The lower curved portion 600A-3 of the 600A (the bottom of which is the mounting portion 600A-m) is easy to expose.

However, it is not limited to this illustration, and the arch shape when the vicinity of the mounting portion 600A-m of the A-type terminal 600A is cut along the YZ plane and the lower curved portion 600B-3 of the B-type terminal 600B Even if the shape of the arch when cut in the YZ plane is not different, depending on the shape of the socket mold part 400, the lower curved part 600B-3 of the B type terminal 600B is covered by the socket mold part 400 and the A type terminal The mounting portion 600A-m of 600A may be formed to be exposed.

In the above example, it has been described that the A-type second socket terminal 600A and the B-type second socket terminal 600B are alternately arranged one by one. Although this embodiment is preferred, the present invention is not limited thereto.

That is, if the A-type terminal (600A), B-type terminal (600B), A-type terminal (600A), B-type terminal (600B), etc. are arranged side by side in the order, the pitch between mounting parts is effectively doubled. It is preferable in that it can be stretched and the ease of molding the socket mold part 400, but it is not necessarily limited thereto.

For example, it is also possible to repeat in the order of A-type terminal (600A), B-type terminal (600B), B-type terminal (600B), .... Alternatively, it is also possible to repeat in the order of A-type terminal (600A), A-type terminal (600A), B-type terminal (600B), ....

Alternatively, it is also possible to be mixed without a certain rule.

Alternatively, in a certain section, the A-type terminal 600A, B-type terminal 600B, B-type terminal 600B, ... are repeated in the order, and then the edge portion of the second socket terminal 600 (ie, the first socket It is also possible to arrange in a different way only in the portion close to the terminal 500).

In this way, the arrangement order of the A-type terminal 600A and the B-type terminal 600B is not limited. The reason is that the pitch between the mounting parts can be effectively reduced by arranging the A-type terminal (600A), B-type terminal (600B), A-type terminal (600A), B-type terminal (600B) in the order of... Although it is the most efficient in that it can be doubled, even if the pitch is increased in some sections, even if not in all sections, the efficiency of mounting increases accordingly.

6 is a view showing a side cross-section of an A-type terminal 600A in an operating state and a side cross-section of a B-type terminal 600B in an operating state superposed.

However, unlike FIG. 4 showing only a specific cross-section, in FIG. 6 , side cross-sections of the terminals 600A and 600B extending along the X direction are overlapped. In addition, FIG. 4 shows a state in which the plug connector is not coupled to the socket connector 20 (that is, a state in which the terminals 600A and 600B are not operated), but FIG. 6 shows that the plug terminal P is the second socket terminal. There is a difference in that it indicates a state coupled to (600; 600A, 600B) (ie, a state in which the terminals 600A, 600B are actuated). In FIG. 6, the plug terminal P of the plug socket (not shown) is shown in an arbitrary shape for convenience in order to show the operating state of the second socket terminals 600 (600A, 600B), and the plug terminal P is It is not limited to the shape shown in FIG. 6 . Rather, the plug terminals (signal terminals) of the plug connector not shown are located on the inner side (inside in the width direction) of the upper curved portions 600A-2 and 600B-2 and the outer side (widthwise) of the inner ends 600A-4 and 600B-4. outside of the direction) will be more common in the form of being clamped and coupled.

In FIG. 6 , the supporting part 400-s of the socket mold part 400 includes lower curved parts 600A-3 and 600B-3, which are lower curved parts of the second socket terminals 600A and 600B, and end parts 600A-, which are inner ends. 4, 600B-4) are supported by the parts 600A-c and 600B-c.

As shown in FIG. 6 , when the socket connector 20 and the plug connector are coupled, both the terminal 600A and the terminal 600B receive the most stress at their connection portions 600A-c and 600B-c. Also, since the support portion 400-s, which is a part of the socket mold portion 400 shown in FIG. 6, supports the connection portions 600A-c and 600B-c that receive the most stress, the contact pressure is improved. In addition, if the coupling state continues for a long time, the connection part 600A-c, 600B-c can compensate for the fact that it is easy to lose elasticity to some extent.

FIG. 7 is a bottom view of the top view shown in FIG. 2 .

In addition, FIG. 5 shows part of FIG. 7 .

A hatched portion in FIG. 7 is a mounting portion. Specifically, the terminal 600A is the mounting portion 600A-m, which is the bottom surface of the lower curved portion 600A-3, and the terminal 600B is the mounting portion 600B-m, which is the bottom surface of the outer end 600B-1. 1) is.

When central points of the mounting portions 600A-m of the A-type terminals 600A are connected in the X direction, one imaginary line (line A for convenience) is formed.

In addition, another virtual line (line B for convenience) is formed by connecting the center points of the mounting portions 600B-m of the B-type terminals 600B.

Lines A and B are parallel and do not overlap.

The center point may be a center of gravity or a center of area. However, although it is said that the center points are connected, the center point does not have to be the center of gravity in the strict sense or the center of area in the strict sense. That is, the same is true even if a specific point of the mounting portion 600A-m of the A-type terminal 600A is selected and the selected specific point is connected in the plurality of A-type terminals 600A arranged. The same is true for the B-type terminal 600B.

For example, in FIG. 7, a line B was obtained by selecting and connecting the center of the plurality of mounting units 600B-m in terms of area or weight, but at positions corresponding to each other in the plurality of mounting units 600B-m (for example, As long as it is the upper left corner point in FIG. 7), it can be seen that a new line B parallel to the line A is obtained even if the corresponding points are connected. In other words, a virtual line A connecting the same points of the plurality of mounting parts 600A-m for mounting the A-type socket terminal 600A on the board and the B-type socket terminal 600B on the board It may be said that the imaginary lines B connecting the same points of the plurality of mounting parts 600B-m for mounting are parallel without overlapping each other.

At this time, since the A-type terminals 600A and B-type terminals 600B are alternately arranged, a plurality of second socket terminals 600 (A-type terminals 600A and B-type terminals 600B) are provided. Assuming that the pitch of (commonly referred to) is m, the pitch between the mounting portions 600A-m of the A-type terminals 600A is 2 m, and the mounting portions 600B-m of the B-type terminals 600B are connected to each other. It will be easy to figure out that the pitch of is also 2m.

Of course, many variations can be made. For example, even if the A-type terminal 600A and the B-type terminal 600B are alternately arranged as shown in FIG. 7 for the second wall portion 120, the fourth wall portion 140 opposite thereto is differently arranged (eg, , it is also possible to place only B-type terminals).

Alternatively, even if the terminals 600A and 600B are mixed without a certain rule, the line A connecting the mounting parts 600A-m and the line B connecting the mounting parts 600B-m are separate parallel lines that do not overlap each other. The points that form the line will remain unchanged.

Of course, in terms of efficiency, the form shown in FIG. 7 would be the best, but even if several second socket terminals 600 deviate from the rule, the effect of increasing the pitch between the mounting parts is generally exhibited.

The right side of FIG. 7 is similar to the left side of FIG. 7, but from a different perspective.

In FIG. 7 , it can be seen that when the mounting parts of the adjacent second socket terminals 600 are connected to each other, a zigzag shape is obtained. If the A-type terminal 600A and the B-type terminal 600B are alternately arranged one by one, an accurate zigzag arrangement will be obtained.

This is a difference in expression from what was described in the lines A and B on the left side of FIG. 7 . Due to this zigzag arrangement, the pitch between socket terminals (600A or 600B, respectively) of the same type is doubled compared to the pitch between the plurality of second socket terminals 600.

However, as described above, the arrangement may be slightly changed. That is, if the A-type terminal 600A and B-type terminal 600B are alternately arranged one by one, an accurate zigzag arrangement will be obtained, but in the order of terminal 600A, terminal 600A, terminal 600B, ... Even if it is repeatedly arranged as , approximate zigzag arrangement is obtained even if not exact zigzag arrangement.

Alternatively, even if the terminal 600A and the terminal 600B are mixed without a certain rule, it may also be referred to as an approximate zigzag arrangement even if it is not an exact zigzag arrangement. Of course, in terms of efficiency, the form shown in FIG. 7 would be the best, but even if several second socket terminals 600 deviate from the rule, the effect of increasing the pitch between the mounting parts is generally exhibited.

In FIG. 7, the case where four terminals are disposed in the X direction has been described, but the number of terminals is not limited thereto and may be any number (eg, 8 or 16). In addition, the arrangement of the second wall portion 120 and the fourth wall portion 140 is shown as regular, although this is preferable, it is not necessarily limited thereto, and the second socket terminal on the fourth wall portion 140 The arrangement state of (600; 600A, 600B) may be independent of the arrangement state of the second socket terminal (600; 600A, 600B) on the second wall portion 120. That is, in the second wall portion 120, the terminal 600A and the terminal 600B are alternately arranged one by one, and in the fourth wall portion 140, only the terminal 600A exists, and various modifications are possible.

In addition, although the A-type terminal 600A and the B-type terminal 600B have been described, a case in which a C-type terminal having a different shape with a different mounting portion may also be assumed. Of course, considering ease of manufacturing, ease of arrangement, etc., it is most preferable to alternately arrange the A-type terminals 600A and B-type terminals 600B one by one, but the present invention provides another third type (e.g. C type) terminals are not excluded.

FIG. 8 is a side view of the socket connector 20 of FIG. 1 .

The outer end 600A-1 of the A-type terminal 600A is present at a slightly higher position from the bottom surface, and the outer end 600B-1 of the B-type terminal 600B is positioned equal to or slightly lower than the bottom surface. It can be seen that the presence of

In the B-type terminal 600B, the bottom surface of the outer end 600B-1 functions as a mounting portion 600B-m, which is a portion mounted on a board by soldering or the like.

In the A-type terminal 600A, the outer end 600A-1 does not function as a mounting portion, and instead, the bottom surface of the lower curved portion 600A-3 is mounted on the board by soldering or the like, and the mounting portion 600A-m ) function as

Although the embodiments of the present invention have been described with reference to the accompanying drawings, the present invention is not limited to the above embodiments and can be manufactured in a variety of different forms, and those skilled in the art in the art to which the present invention belongs A person will understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential features. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting.

20: socket connector
110: first wall
120: second wall
130: third wall
140: fourth wall
400: socket mold part
400-s: support
400-u: upper surface fixing part
400-d: bottom fixing part
500: first socket terminal
600: second socket terminal
600A: A type terminal among the second socket terminals
600A-1: outer end of A-type terminal 600A
600A-2: upper curved portion of the A-type terminal 600A
600A-3: lower curved portion of the A-type terminal 600A
600A-4: Inner end of A-type terminal 600A
600A-m: Mounting portion of the A-type terminal 600A (bottom of the lower curved portion)
600A-c: connection between the lower curved portion 600A-3 and the inner end 600A-4 of the A-type terminal
600B: B type terminal among the second socket terminals
600B-1: outer end of B-type terminal 600B
600A-2: upper curved portion of the B-type terminal 600B
600B-3: lower curved portion of the B-type terminal 600B
600B-4: Inner end of B-type terminal 600B
600B-m: mounting portion (bottom surface of outer end) of B-type terminal 600B
600B-c: connection between the lower curved portion 600B-3 and the inner end 600B-4 of the B-type terminal

Claims (9)

A socket connector soldered and mounted on a board,
A base portion, a first wall portion protruding from the top surface of the base portion, a second wall portion protruding from the top surface of the base portion and intersecting the first wall portion, and protruding from the top surface of the base portion and intersecting the second wall portion, the first wall portion a mold unit including a third wall portion facing the base portion and a fourth wall portion protruding from an upper surface of the base portion, intersecting the first and third wall portions, and facing the second wall portion;
A bracket installed at least on the first wall portion; and
A plurality of socket terminals installed at least on the second wall portion
Including,
The plurality of socket terminals include a first type socket terminal and a second type socket terminal,
The first type of socket terminal is
(a) an outer end located outside the socket connector in the width direction, exposed from a sidewall of the mold part, and spaced upward from the bottom surface of the mold part;
(b) an upper curved portion that extends from the outer end to the inside of the socket connector in the width direction and is convexly bent upward;
(c) extending convexly downward from the upper curved portion in the width direction of the socket connector, and at least a portion of the convexly bent portion is exposed when viewed from the bottom surface of the mold portion, a lower curvature, and
(d) an inner end extending from the lower curved portion toward the inside of the socket connector in the width direction toward the top, and coupled with the terminal of the mating connector of the socket connector
Including,
The second type of socket terminal,
(a') an outer end positioned outside the socket connector in the width direction and exposed from a sidewall of the mold part, and positioned at a height of a bottom surface of the mold part;
(b') an upper curved portion that extends from the outer end to the inside of the socket connector in the width direction and is convexly bent upward;
(c') extending from the upper curved portion to the inside of the socket connector in the width direction and convexly bent downward, and the portion bent convexly downward is not exposed when viewed from the bottom surface of the mold portion. lower curve, and
(d') an inner end extending from the lower curved portion toward the inside of the socket connector in the width direction toward the top, and coupled with a terminal of the mating connector of the socket connector
Including,
The exposed portion of the lower curved portion of the first type socket terminal when viewed from the bottom is a mounting portion mounted on the board, and the outer end of the second type socket terminal is a mounting portion mounted on the board. ,
An upper portion of the mounting portion of the first type socket terminal is covered by the mold portion;
When the socket connector is coupled to the terminal of the mating connector and the inner end is moved to the inside of the socket connector, the upper part of the mounting part is supported in contact with the mold part;
The socket connector according to claim 1, wherein the socket terminal of the first type and the socket terminal of the second type are mixed and disposed. delete According to claim 1,
The socket connector according to claim 1 , wherein the socket terminal of the first type and the socket terminal of the second type face each other in the width direction of the socket connector. According to claim 1 or 3,
The socket connector of claim 1, wherein the socket terminal of the first type and the socket terminal of the second type are alternately arranged one by one in the longitudinal direction of the socket connector. According to claim 1 or 3,
A support part, which is a part of the mold part, is formed below the connection part connecting the lower curved part and the inner end of the socket terminal,
When the socket connector is coupled to the terminal of the mating connector and the inner end is moved to the inside of the socket connector, the connection portion is supported by contacting with the support portion. According to claim 1 or 3,
When the socket connector is viewed from a top or bottom surface, a space penetrated vertically exists on a side surface of the inner end. According to claim 6,
When the socket connector is viewed from a top or bottom surface, a space penetrated vertically also exists inside the inner end. delete delete

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