JP2021082390A - Receptacle connector - Google Patents

Abstract

To provide a receptacle connector in which holding power can be easily improved even if the same has a connector fixture to a board.SOLUTION: A recessed part 203 of a housing 200 comprises: two lateral walls 202a extending in an alignment pitch direction Y; a bottom wall 201, located on a board mounting face side, which couples the lateral walls to each other; and two coupling walls 202b located on both ends in the alignment pitch direction Y. A signal contact 220S has: a first contact part which comes into contact with a plug connector formed in the vicinity of one free end side; a connection part which is mounted on a board formed on the other free end side; a second contact part which extends from the first contact part and is disposed in continuous with a recess shaped along the recessed part 203; and a curved elastic part formed between the second contact part and the connection part. The connection part of the signal contact 220S is disposed on one side of the two lateral walls 202a. A power supply contact 220P is a separate body from a fixture 230 and has a power supply structure. Further, the power supply contact 220P is wider than the signal contact 220S but has substantially the same structure to the signal contact, except for the width.SELECTED DRAWING: Figure 1B

Description

The present invention relates to a receptacle connector in a board-to-board connector that electrically connects both boards by fitting a receptacle connector mounted on one board and a plug connector mounted on the other board.

As a trend in recent years, as electrical / electronic devices and communication devices (for example, smartphones and smart watches) have become smaller, connectors have also become smaller and shorter. At the same time, it is required to improve the holding force (fitting force) at the time of fitting the connector while maintaining the miniaturization and the low profile. The following patent documents 1 and 2 are patent applications filed by the applicant prior to the filing of the present application. In each of the connectors described in Patent Documents 1 and 2, a portion having a power supply structure (power supply structure portion) is integrally formed with a fixture for fixing the connector to the substrate.

JP-A-2018-175189 Japanese Unexamined Patent Publication No. 2018-118613

In order to improve the holding force (fitting force) at the time of fitting in order to stably fit the connector, if the power supply structure portion is integrally configured with the fixing tool as in the above-mentioned technique, the size of the fixing tool is large. Due to the restrictions, there was a limit to the widening of the power supply structure. That is, if the power supply structure portion is integrally formed with the fixture, there is a problem that the holding force (fitting force) is not improved.

An object of the present invention is a substrate-to-board connector in which a holding force (fitting force) can be easily improved while maintaining miniaturization and low profile even if a fixture for fixing a connector to a substrate is provided. To provide a receptacle connector.

(1) The present invention is a substrate-to-board connector that electrically connects both boards by fitting a receptacle connector mounted on one board and a plug connector mounted on the other board. A housing in which a connector is formed, which is open on the opposite side of the board mounting surface and has a recess for receiving the plug connector, a required number of contacts arranged and held in the housing, and a housing in the arrangement pitch direction of the housing. In a receptacle connector including fixtures arranged at both ends, the recess of the housing extends in the arrangement pitch direction and connects two opposing side walls and the two side walls, a substrate mounting surface. It is composed of a bottom wall located on the side and two connecting walls located at both ends in the arrangement pitch direction, the contact having a signal contact and a power supply contact, and the signal contact is one of them. A first contact portion formed near the free end side and in contact with the plug connector, a connection portion mounted on the substrate formed on the other free end side, and a recess extending from the first contact portion. A second contact portion connected to a recess having a shape along the recess of the housing and an elastic portion formed between the second contact portion and the connection portion and curved at least once. The connector of the signal contact is arranged on one of the two side walls of the housing, and the power contact is separate from the fixture and has a power structure. Moreover, it is a receptacle connector characterized in that it is wider than the signal contact and has substantially the same structure except for the width.

(2) The connection portion of the power supply contact may be arranged on the side wall opposite to the side wall on which the connection portion of the signal contact is arranged.

(3) The width of the power supply contact may be 1.9 to 2.1 times the width of the signal contact.

(4) The fixture may be insert-molded into the housing.

According to the present invention, in a substrate-to-board connector, which has a fixture for fixing a connector to a substrate, it is easy to improve a holding force (fitting force) while maintaining miniaturization and low profile. Receptacle connectors can be provided.

It is a perspective view which shows the plug connector which is the mating connector of the receptacle connector of one Embodiment of this invention. It is a perspective view which shows the receptacle connector of one Embodiment of this invention. It is a perspective view which looked at the plug connector from the direction different from FIG. 1A. It is a perspective view which looked at the receptacle connector from the direction different from FIG. 1B. It is a perspective view of the board-to-board connector in the state where the receptacle connector and the plug connector are fitted. It is a top view of the receptacle connector. It is the bottom view of the receptacle connector. It is sectional drawing of AA in FIG. 4A. It is sectional drawing BB in FIG. 4A. FIG. 5 is a cross-sectional view taken along the line CC in FIG. 4A. FIG. 6 is a sectional view taken along line DD in FIG. 4A. It is a perspective view of the contact for a signal. It is a perspective view of the contact for a signal. It is a perspective view of a contact for a power source. It is a perspective view of a contact for a power source. It is a perspective view of the housing of a receptacle connector. It is a perspective view which looked at the housing of the receptacle connector from the direction different from FIG. 8A. It is a top view of the housing of the receptacle connector. FIG. 9 is a cross-sectional view taken along the line AA in FIG. FIG. 9 is a cross-sectional view taken along the line BB in FIG. FIG. 9 is a cross-sectional view taken along the line CC in FIG. FIG. 9 is a cross-sectional view taken along the line DD in FIG. It is a perspective view of the fixture of a receptacle connector. It is a perspective view of the fixture of a receptacle connector. It is a top view of the board-to-board connector shown in FIG. FIG. 12 is a cross-sectional view taken along the line AA in FIG. FIG. 12 is a cross-sectional view taken along the line BB in FIG. FIG. 2 is a cross-sectional view taken along the line CC in FIG. FIG. 2 is a sectional view taken along line DD in FIG.

Hereinafter, embodiments of the receptacle connector of the present invention will be described in detail with reference to the drawings. The receptacle connector of the embodiment constitutes a board-to-board connector in cooperation with a plug connector which is a mating connector. The board-to-board connector is an electrical connector that electrically connects both boards by fitting a receptacle connector mounted on one board and a plug connector mounted on the other board. The substrate is not particularly limited in its type and form as long as it can mount a receptacle connector or a plug connector, and may be, for example, a rigid substrate, a flexible substrate (FPC), a rigid flexible substrate (rigid FPC substrate), or the like. In the following description, the bottom surface or the bottom surface of the receptacle connector and the plug connector shall refer to the surface on the side to be mounted on the substrate, respectively, and the top surface shall refer to the surface on the opposite side of the bottom surface or the bottom surface. Further, the mounting method is not limited to the surface mounting method of soldering to the surface of the substrate, and may be, for example, a dip type of inserting into a through hole of the substrate and soldering, or a press fit by press fitting.

For convenience of explanation, the XYZ coordinate system is defined as follows. The XY plane is a plane substantially parallel to the board mounting surface. The Y direction is the arrangement pitch direction (parallel direction) of the required number of contacts, and is also referred to as the lateral direction (width direction). The X direction is a direction orthogonal to the Y direction. The X1 direction is the side of the connection portion 221 in the signal contact 220S. The X2 direction is the side of the connection portion 221 in the power supply contact 220P. The Y1 direction is the left side when the X1 direction is directed downward and the X2 direction is directed upward. The Y2 direction is also on the right side. The Z direction is a direction orthogonal to the XY plane and is also referred to as a height direction. With reference to the receptacle connector 20, the Z1 side is the board mounting surface side, and the Z2 side is the side away from the board mounting surface. It should be noted that this XYZ coordinate system is used for convenience of explanation of the embodiment, and is not strictly interpreted unless it is contrary to the gist of the present invention.

1A to 2B show a receptacle connector 20 or a plug connector 30 constituting a board-to-board connector 10. FIG. 3 shows the mated state of the receptacle connector 20 and the plug connector 30. The receptacle connector 20 and the plug connector 30 are detachable from each other by approaching or separating from each other in the Z direction. When the receptacle connector 20 shown in FIG. 1A and the plug connector 30 shown in FIG. 1B are brought close to each other, they can be fitted. Similarly, when the receptacle connector 20 shown in FIG. 2A and the plug connector 30 shown in FIG. 2B are brought close to each other, they can be fitted.

Before explaining the receptacle connector 20 according to the embodiment of the present invention, the plug connector 30 which is a mating connector will be described.
As shown in FIGS. 1A, 2A, and 3, the plug connector 30 has a substantially rectangular parallelepiped shape, and is mainly made of an electrically insulating synthetic resin and a required number held in the plug block 300. The plug contact 320 and the plug fixtures 330 provided at both ends of the plug block 300 in the longitudinal direction (Y direction) are provided.

Examples of the material of the plug block 300 include, but are not limited to, liquid crystal polymer (LCP), polyphenylene sulfide (PPS), polybutylene terephthalate (PBT), polyamide (PA), and the like. The material of the plug block 300 may contain an inorganic filler, reinforcing fibers, and the like. The plug block 300 has a shape that fits into the recess 203 (described later) of the housing 200.

The plug contact 320 includes a narrow signal plug contact 320S and a wide power supply plug contact 320P. However, all plug contacts 320 may be signal plug contacts 320S. When both the signal plug contact 320S and the power supply plug contact 320P are provided, both may have the same shape and dimensions. The plug contact 320 is made of a conductive metal such as copper or a copper alloy.

As shown in FIGS. 12 to 13, each plug contact 320 stands up from each of the two connecting portions 321 mounted on the substrate and the two connecting portions 321 in the height direction of the plug block 300, and is the first contact 220. It has two contact portions 325 that come into contact with the contact portion 225 or the second contact portion 224, respectively, and a connecting portion 326 that connects the two contact portions 325. The plug contact 320 may come into contact with the contact 220 of the receptacle connector 20, and its structure is not limited to the illustrated example.

The plug contact 320 and the plug fixture 330 are integrally molded with the plug block 300.
The plug contact 320 and the plug fixture 330 are formed with a recess into which the connection portion 221 of the signal contact 220S of the counterpart of the receptacle connector 20 or the connection portion 221 of the power supply contact 220P is inserted. The recess is appropriately designed so that the connection portion 221 of the signal contact 220S or the connection portion 221 of the power supply contact 220P can be inserted. The connection portion of the plug contact 320 and the connection portion of the plug fixture 330 are surface mount type.

The plug fixture 330 is integrated during injection molding of the plug block 300. That is, the plug fixing tool 330 is held (set) as an insert body in a mold (not shown), and the synthetic resin material of the plug block 300 is injected (filled) into the space forming the wall thickness of the plug block 300 to fix the plug. The tool 330 is fixed (held) to the plug block 300. Instead of this, the plug fixture 330 may be fixed by inserting (press-fitting) and / or adhering into the plug block 300 after the plug block 300 is formed.

Next, the receptacle connector 20 will be described. As shown in FIGS. 1B and 2B to 13, the receptacle connector 20 mainly includes a housing 200, a required number of contacts 220, and a fixture 230.

The housing 200 is manufactured by injection molding or the like using an electrically insulating synthetic resin as a material. The synthetic resin material is appropriately selected in consideration of dimensional stability, processability, cost, etc., for example, liquid crystal polymer (LCP), polyphenylene sulfide (PPS), polybutylene terephthalate (PBT), polyamide (PA), polycarbonate ( PC) and synthetic materials thereof, but are not limited to these. The material of the housing 200 may contain an inorganic filler, reinforcing fibers, and the like.

The housing 200 has a flat, substantially rectangular parallelepiped outer shape. The housing 200 is formed with a recess 203 having a size for inserting the plug connector 30. More specifically, the housing 200 has a bottom wall 201 and a peripheral wall 202 that rises from the periphery of the bottom wall 201. The bottom wall 201 and the peripheral wall 202 partition the recess 203. The recess 203 opens on the opposite side of the board mounting surface (in the Z2 direction) to receive the plug connector 30. The size of the recess 203 may be such that the plug connector 30 can be inserted, and is appropriately designed in consideration of connectivity, workability, and the like. The recess 203 extends in the arrangement pitch direction Y and connects the two side walls 202a and 202a facing each other with the two side walls 202a, and the bottom wall 201 located on the board mounting surface side (on the Z1 side) and the arrangement pitch direction. It is composed of two connecting walls (end walls) 202b and 202b located at both ends of Y.

The peripheral wall 202 has side walls 202a extending along the parallel direction Y of the contacts 220 and facing each other, and connecting walls 202b extending along the lateral direction X and facing each other. As shown in FIGS. 10A and 10B, the inner surface of the side wall 202a has a substantially T-shaped accommodation groove in a plan view that accommodates a portion of each contact 220 in the vicinity of the first contact portion 225 or a portion in the vicinity of the second contact portion 224. 204 is formed. The accommodating groove 204 penetrates the housing 200 in the height direction (thickness direction) Z. When the contact 220 is assembled by insertion into the accommodating groove 204, the accommodating groove 204 preferably has a dimension of pressure contact with the contact. Alternatively, the contacts 220 can be integrated during injection molding of the housing 200. That is, each contact 220 is held (set) as an insert body in a mold (not shown), and an electrically insulating synthetic resin material forming the housing 200 is injected (filled) into the space forming the wall thickness of the housing 200. , The contact 220 may be fixed (held) to the housing 200. The holding mode may be any mode as long as the contact 220 can be held, and may be hooking, welding, welding, or integral molding. The holding mode is appropriately designed in consideration of connection stability, holding strength, workability, and the like.

The required number of contacts 220 are arranged and held in the housing 200. The arrangement direction of the contacts 220 is also referred to as an arrangement pitch direction Y and a parallel direction Y. The contact 220 is made of a conductive metal, preferably copper or a copper alloy (brass, beryllium copper, phosphor bronze, Corson copper alloy, etc.) from the viewpoint of springiness, and is manufactured by pressing according to a known technique. The contact 220 includes a narrow signal contact 220S shown in FIGS. 6A and 6B and a wide power supply contact 220P shown in FIGS. 7A and 7B.

As shown in FIGS. 4A to 7B, each contact 220 (220S, 220P) is convexly curved inward in the X direction (toward the first contact portion 225) with the connection portion 221 mounted on the substrate. A second contact portion 224, a first contact portion 225 facing the second contact portion 224 and curved inward in the X direction (toward the second contact portion 224), and a U-shaped cross section. It has a connecting portion 226 that connects the two contact portions 224 and the first contact portion 225, and an elastic portion 223 that is provided between the second contact portion 224 and the connecting portion 221 and is curved at least once. More specifically, the signal contact 220S has a first contact portion 225 that contacts a plug connector 30 formed near one free end side and a connection portion 221 mounted on a substrate formed on the other free end side. The second contact portion 224, which is a recess 227 extending from the first contact portion 225 and is continuously provided in the recess 207 having a shape along the recess 203 of the housing 200, and the second contact portion 224 and the connecting portion 221. It has an elastic portion 223 that is formed between the two and is curved at least once. The contact 220 only needs to be in contact with the plug contact 320 of the plug connector 30, and its structure is not limited to the illustrated example.

The first contact portion 225 has a curved shape so as to easily come into contact with the plug contact 320 of the plug connector 30, and is chamfered on both sides in the width direction thereof. In this embodiment, the connection portion 221 is a surface mount type (SMT). The mounting mode is not limited as long as it can be mounted on a substrate, and may be an L-shaped dip type or a press fit. The mounting mode is appropriately designed in consideration of board specifications, board mounting density, and the like.

The contact 220 is formed with a recess 227 having a shape along the recess 203 of the housing 200 extending from the first contact portion 225. The concave 227 is a portion into which the plug connector 30 having a substantially rectangular parallelepiped shape is inserted, similarly to the concave 203 of the housing 200. The size of the concave 227 is not limited as long as the plug connector 30 is inserted (if it can be fitted). The concave 227 is appropriately designed in consideration of connection stability, holding force, and workability so that the plug connector 30 can be inserted.

The second contact portion 224 is continuously provided in the concave 227. By providing the second contact portion 224, the plug connector 30 can be sandwiched between the first contact portion 225 and the second contact portion 224, whereby a stable connection can be obtained. The first contact portion 225 and the second contact portion 224 enter the recess of the plug contact 320 of the plug connector 30. Like the first contact portion 225, the second contact portion 224 is also curved so as to easily come into contact with the plug contact 320 of the plug connector 30, and is chamfered on both sides in the width direction.

The elastic portion 223 is provided between the second contact portion 224 and the connecting portion 221 and has a shape of being curved at least once. By providing the elastic portion 223, a stable connection can be obtained.

The connection portion 221 of the signal contact 220S is arranged on either one of the two side walls 202a and 202a of the housing 200. In the present embodiment, as shown in FIGS. 2B and 4B, the connection portion 221 of the signal contact 220S is arranged only on the X1 side.

The power supply contact 220P is separate from the fixture 230, has a power supply structure, is wider than the signal contact 220S, and has substantially the same structure except for the width. "The structure is substantially the same except for the width" is widely interpreted and includes a wide range of cases where the structure can be regarded as the same except for the width. For example, the shape when viewed in the arrangement pitch direction Y is the same for the power supply contact 220P and the signal contact 220S.

The width of the power supply contact 220P is, for example, about 0.05 to 0.15 mm wider than the width of the signal contact 220S. Further, the width of the power supply contact 220P is, for example, 1.9 to 2.1 times the width of the signal contact 220S.

The connection portion 221 of the power contact 220P is arranged on the other side of the two side walls 202a and 202a of the housing 200. In the present embodiment, as shown in FIGS. 2B and 4B, the connection portion 221 of the power supply contact 220P is arranged only on the X2 side. That is, the connection portion 221 of the power supply contact 220P is arranged on the side wall 202a (side wall 202a on the X2 side) opposite to the side wall 202a (side wall 202a on the X1 side) where the connection portion 221 of the signal contact 220S is arranged. To.

In the case of the power supply contact 220P, since the gold plating thickness may be required to be 0.5 μm or more, a complicated structure cannot be adopted (gold plating cannot be performed if the structure is complicated), and the power supply contact 220P. Has substantially the same structure as the signal contact 220S except for the width, and meets the demand for securing the gold plating thickness.

Next, the fixture will be described. Fixtures 230 are arranged at both ends of the housing 200 in the arrangement pitch direction Y, respectively. The fixture 230 is made of a conductive metal, preferably copper or a copper alloy (brass, beryllium copper, phosphor bronze, Corson copper alloy, etc.) from the viewpoint of springiness, and is manufactured by pressing according to a known technique. As shown in FIGS. 1B, 2B, etc., the fixture 230 partially covers both ends of the housing 200 in the longitudinal direction Y. As a result, both ends of the housing 200 in the longitudinal direction Y are reinforced. The fixture 230 also functions as a fixing bracket (fixing tab) for fixing the housing 200 to the substrate.

The fixture 230 is shown alone in FIGS. 11A and 11B. The fixture 230 has a substantially U-shape when viewed from the opposite side of the substrate (when viewed in the Z1 direction). In the state of being fixed to the housing 200, two connecting portions 235 protruding toward the substrate side (in the Z1 direction) are formed on both sides in the lateral direction X (short direction). In this embodiment, it is a surface mount type (SMT). The connection portion 235 is not limited as long as it can be mounted, and may be a dip type or a press fit.

The fixture 230 is integrated with the housing 200 during injection molding of the housing 200. That is, the fixture 230 is insert-molded into the housing 200. Specifically, the fixture 230 is held (set) as an insert body in a mold (not shown), and the synthetic resin material of the housing 200 is injected (filled) into the space forming the wall thickness of the housing 200 to form the fixture 230. Is fixed (held) to the housing 200. Alternatively, the fixture 230 may be fixed by insertion (press fitting) and / or adhesion into the housing 200 after the housing 200 is formed.

The fixture 230 will be described in more detail. The fixture 230 mainly includes a top wall 231, a pair of hanging side walls 232 facing the lateral direction X of the housing 200, a hanging lower end wall 233, and a hanging piece 234, and is made of a metal plate, for example, by stamping. It is formed by bending an intermediate piece cut to a predetermined shape and size. The connecting portion 235 is composed of a part of the lower end portion of the hanging side wall 232.

The top wall 231 has a substantially C-shaped plan view extending along the upper surface of the side wall 202a of the peripheral wall 202 and the upper surface of the connecting wall 202b (the surface opposite to the substrate mounting surface) at the end portion of the housing 200 in the longitudinal direction Y. It has a shape.

The hanging side wall 232 hangs down from the outer side edge of the top wall 231 along the outer surface of the side wall 202a of the peripheral wall 202, and is mounted and fixed to the substrate at the connecting portion 235 at the lower end thereof. The hanging lower end wall 233 hangs down from the outer edge of the top wall 231 in the X direction along the outer surface of the connecting wall 202b of the peripheral wall 202. The hanging side wall 232 and the hanging lower end wall 233 are flush with the outer surface of the peripheral wall 202.

The hanging piece 234 hangs from the inner edge of the top wall 231 in the X direction along the inner surface of the connecting wall 202b of the peripheral wall 202, and sandwiches the connecting wall 202b with the hanging lower end wall 233. The hanging piece 234 is flush with the inner surface of the peripheral wall 202.

In the state of being fixed to the housing 200, the hanging lower end wall 233 and the hanging piece 234 can increase the fixing strength when held by the housing 200 by integral molding.

Next, the mating state will be described. As shown in FIGS. 3 and 12 to 13D, the fitting state is formed by the plug connector 30 entering the recess 203 of the housing 200 of the receptacle connector 20. In the mated state, the plug contact 320 comes into contact with the contact 220 of the receptacle connector 20, and the plug fixture 330 of the plug connector 30 comes into contact with the first contact portion 225 and the second contact portion 224 of the power supply contact 220P of the receptacle connector 20. Contact at one place.

[Effect of Embodiment]
(1) In the receptacle connector 20 of the embodiment, the recess 203 of the housing 200 extends in the arrangement pitch direction Y and connects the two side walls 202a and 202a and the two side walls 202a and 202a, which are mounted on a substrate. It is composed of a bottom wall 201 located on the surface side (Z1 side) and two connecting walls 202b and 202b located at both ends in the arrangement pitch direction Y, and the contact 220 includes a signal contact 220S and a power supply contact 220P. The signal contact 220S has a first contact portion 225 that contacts a plug connector 30 formed near one free end side, and a connection portion 221 mounted on a substrate formed on the other free end side. The second contact portion 224, which is a concave 227 extending from the first contact portion 225 and is continuously provided in the concave 227 having a shape along the concave portion 203 of the housing 200, and the second contact portion 224 and the connecting portion 221. The connecting portion 221 of the signal contact 220S is arranged on either one of the two side walls 202a and 202a of the housing 200 and has an elastic portion 223 formed between the two, which is curved at least once, and is used for a power source. The contact 220P is a separate body from the fixture 230, has a power supply structure, is wider than the signal contact 220S, and has substantially the same structure except for the width.

Therefore, according to the receptacle connector 20 of the embodiment, the fixture 230 and the power supply contact 220P having a power supply structure are separate bodies. Further, the power supply contact 220P is wider than the signal contact 220S and has substantially the same structure except for the width. Therefore, the width of the power supply contact 220P can be widened without being restricted by the size of the fixture 230. As a result, even if the fixture 230 for fixing the connector to the substrate is provided, the holding force (fitting force) can be easily improved while maintaining the miniaturization and the low profile.

(2) In the receptacle connector 20 of the embodiment, the connection portion 221 of the power supply contact 220P is arranged on the side wall 202a opposite to the side wall 202a where the connection portion 221 of the signal contact 220S is arranged. Therefore, the signal contact 220S and the power supply contact 220P are separately arranged on one and the other of both side walls 202a. Therefore, it is easy to make the balance of mounting strength by contacts more even.

(3) In the receptacle connector 20 of the embodiment, the width of the power supply contact 220P is 1.9 to 2.1 times the width of the signal contact 220S. Therefore, it is possible to secure a sufficiently large conductivity as the power supply contact 220P. Since the width of the power supply contact 220P is excessively wide, it is possible to prevent the size of the entire receptacle connector 20 in the arrangement pitch direction Y from becoming large.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments and can be appropriately modified. The connection portion 221 of the power supply contact 220P and the connection portion 221 of the signal contact 220S may be arranged on the side wall 202a on the same side.

10 Board-to-board connector 20 Receptacle connector 200 Housing 201 Bottom wall 202 Peripheral wall 202a Side wall 202b Connecting wall 203 Recessed 204 Accommodating groove 220 contact 220P Power supply contact 220S Signal contact 221 Connection part 223 Elastic part 224 Second contact part 225 First contact Part 226 Connecting part 227 Concave 230 Fixture 231 Top wall 232 Hanging side wall 233 Hanging lower end wall 234 Hanging piece 235 Connection part 30 Plug connector 300 Plug block 320 Flag contact 320P Power plug contact 320S Signal plug contact 321 Connection part 325 Contact part 326 Connector 330 Fixture

Claims (4)

It is a receptacle connector in a board-to-board connector that electrically connects both boards by fitting a receptacle connector mounted on one board and a plug connector mounted on the other board.
A housing having a recess opened on the opposite side of the board mounting surface to receive the plug connector, and a housing.
With the required number of contacts arranged and held in the housing,
In a receptacle connector including fixtures arranged at both ends in the arrangement pitch direction of the housing.
The recesses of the housing extend in the arrangement pitch direction and are located on two side walls facing each other, a bottom wall located on the substrate mounting surface side connecting the two side walls, and both ends in the arrangement pitch direction. Consists of two connecting walls
The contact has a signal contact and a power supply contact.
The signal contact includes a first contact portion formed near one free end side and in contact with the plug connector, a connection portion formed on the other free end side and mounted on the substrate, and the first one. At least one formed between the second contact portion, which is a recess extending from the contact portion and is continuously provided in the recess having a shape along the recess of the housing, and the second contact portion and the connection portion. It has an elastic part that bends more than once,
The connection of the signal contact is located on either side of one of the two side walls of the housing.
The power supply contact is separate from the fixture, has a power supply structure, is wider than the signal contact, and has substantially the same structure except for the width. Receptacle connector. The receptacle connector according to claim 1, wherein the connection portion of the power supply contact is arranged on the side wall opposite to the side wall on which the connection portion of the signal contact is arranged. The receptacle connector according to claim 1 or 2, wherein the width of the power supply contact is 1.9 to 2.1 times the width of the signal contact. The receptacle connector according to any one of claims 1 to 3, wherein the fixture is insert-molded into the housing.

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