Terminal of electrical connector having spring durability

Abstract

In a small connector including a plurality of contact portions in an insertion direction of an object to be connected, increasing the effective fitting length with the object and eliminating the risk of bucking of a terminal caused by the object being caught by the terminal. A first contact portion and a second contact portion can be extended in directions opposing each other with a first bent-back portion of a first terminal piece and a third bent-back portion of a second terminal piece, and can be close to each other compared with a known connector in which a first contact portion and a second contact portion extend in opposite directions. An effective fitting length of the first contact portion or the second contact portion with respect to the plug terminal can be increased.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present disclosure relates to a connector that is mounted on a printed board or the like and that conductively connects a substrate and an object to be connected to each other, for example.

2. Description of the Related Art

There is known a connector that increases the connection reliability by providing a plurality of contact portions in a single terminal to remove foreign substances adhered to an object to be connected. The applicant has proposed a connector that can, in addition to the wiping function and the configuration including a plurality of contact portions, be reduced in size in a direction in which the object to be connected is inserted into and removed from a housing (Japanese Patent No. 5993475, FIG. 6).

The connector described in Japanese Patent No. 5993475 includes a terminal that has features not seen in known connectors. In other words, socket terminals 4 each include a first terminal piece 4c and a second terminal piece 4d that are metal pieces having a bent shape that is bent in a plate thickness direction. The first terminal piece 4c is provided with a first elastic piece portion 4c1 that extends in a direction in which the object to be connected is unplugged from a socket housing 5, and a first contact portion 4c2 that comes in contact with the object to be connected. Furthermore, the second terminal piece 4d includes a bent-back portion 4d7 that, after extending from the base portion 4b in the unplugging direction, bends back towards the opposite direction that is a direction in which the object to be connected is inserted. A second elastic piece portion 4d1 that extends in the insertion direction, and a second contact portion 4d2 that comes in contact with the object to be connected are provided in the second terminal piece 4d. Furthermore, the second elastic piece portion 4d1 includes two spring portions arranged parallel to each other, and a joining portion 4d4 connected to distal ends of the two spring portions. The second contact portion 4d2 is structured to protrude from the joining portion 4d4.

Such a connector described in Japanese Patent No. 5993475 includes two contact portions 4c2 and 4d2 in a single socket terminal 4 so that conductive contact can be established through contact with at least either one of the contact portions 4c2 and 4d2 in a case in which a foreign substance is adhered to the object to be connected; accordingly, the connector described in Japanese Patent No. 5993475 is advantageous in that the connection reliability can be increased. Furthermore, since the second elastic piece portion 4d1 includes the bent-back portion 4d7, compared with a case in which the second elastic piece portion 4d1 extends in only one direction, the overall connector can be reduced in size in the direction in which the object to be connected is inserted and removed, while obtaining a long spring length in the second elastic piece portion 4d1 and while providing spring durability.

SUMMARY OF THE INVENTION

Incidentally, in the known connector described above, since the first terminal piece 4c and the second terminal piece 4d extend in opposite directions, although the size has been reduced in the direction in which the object to be connected is inserted and removed, there are problems in that the distance between the contact portions 4c2 and 4d2 are large and, in particular, the effective fitting length between the contact portion 4d2 of the second terminal piece 4d and the object to be connected is small.

Furthermore, in the known connector, there is a risk of the second terminal piece 4d becoming buckled due to the object to be connected being caught by the joining portion 4d4 of the second terminal piece 4d positioned further inside in the insertion direction after the object to be connected has pushed in and displaced the first contact portion 4c2 towards the base portion 4b, and by continuing insertion of the object to be connected.

The present disclosure has been made in the content of the above conventional technique. An object thereof is, in a small connector including a plurality of contact portions in the direction in which the object to be connected is inserted, to increase the effective fitting length between the object to be connected. Furthermore, another object thereof is to eliminate the risk of buckling of the terminal caused by the object to be connected being caught.

In order to achieve the above objects, the present disclosure is configured to have the following characteristics.

The present disclosure is a connector including a terminal including a first terminal piece and a second terminal piece that is in conductive conduct with an object to be connected, and a housing that holds the terminal. In the connector, the first terminal piece includes a first spring piece portion that extends in a first direction, a first bent-back portion that is bent in a second direction opposite to the first direction from an end portion of the first spring piece portion, and a first contact portion that becomes displaced by being pressed and contacted by the object to be connected. In the connector, the second terminal piece includes a base end spring piece that is arranged with the first spring piece portion of the first terminal piece and that extends in the first direction, a second bent-back portion that is bent in the second direction from an end portion of the base end spring piece, an intermediate spring piece that extends past the first contact portion of the first terminal piece in the second direction, a third bent-back portion that is bent in the first direction from an end portion of the intermediate spring piece, and a second contact portion positioned between the third bent-back portion and the first contact portion of the first terminal piece, the second contact portion becoming displaced by being pressed and contacted by the object to be connected.

According to the present disclosure, the first terminal piece includes the first bent-back portion that is bent in the second direction opposite to the first direction from the end portion of the first spring piece portion, and the first contact portion that becomes displaced by being pressed and contacted by the object to be connected, and the second terminal piece includes the intermediate spring piece that extends past the first contact portion of the first terminal piece in the second direction, the third bent-back portion that is bent in the first direction from the end portion of the intermediate spring piece, and the second contact portion positioned between the third bent-back portion and the first contact portion of the first terminal piece, the second contact portion becoming displaced by being pressed and contacted by the object to be connected. With the first bent-back portion of the first terminal piece and the third bent-back portion of the second terminal piece, the first contact portion and the second contact portion extend so as to oppose each other. With the above, compared with the known connector in which the first contact portion and the second contact portion extend in opposite directions, the first contact portion and the second contact portion can be arranged close to each other. Accordingly, the effective fitting length between the object to be connected and the first contact portion or the second contact portion can be increased.

Furthermore, in the present disclosure, as described above, since the first contact portion and the second contact portion can be arranged close to each other, the sizes of the first contact portion and the second contact portion can be reduced in the first direction and in the second direction, and the housing that houses the above can be reduced in size as well.

Furthermore, in the present disclosure, since the first terminal piece includes the first bent-back portion, and the second terminal piece includes the second bent-back portion, the intermediate spring piece, and the third bent-back portion, compared with a case in which the terminal piece is merely extended in one direction, the spring length of the first terminal piece and the second terminal piece can be long and stress can be dispersed; accordingly, spring durability can be provided.

A distal end portion of the second contact portion of the second terminal piece of the present disclosure may be positioned closer to the first spring piece portion of the first terminal piece with respect to a distal end portion of the first contact portion of the first terminal piece in a direction in which the second contact portion is displaced when pressed and contacted by the object to be connected. According to the present disclosure, since the distal end portion of the second contact portion is positioned closer to the first spring piece portion than the distal end portion of the first contact portion, the distal end portion of the second contact portion is hidden by the first contact portion, and bucking and braking caused by the object to be connected being caught by the contact portion of the second contact portion can be prevented.

In the present disclosure, the housing may include a displacement restriction wall against which the second bent-back portion displaced towards the object to be connected abuts, and the second bent-back portion may serve as a spring fulcrum of the intermediate spring piece, the third bent-back portion, and the second contact portion when the second bent-back portion abuts against the displacement restriction wall. In a case in which there is no displacement restriction wall in the housing, when the second contact portion pressed by and in contact with the object to be connected is displaced, the third bent-back portion is pushed in and is displaced as well. In such a case, the second bent-back portion that elastically supports the second contact portion and the third bent-back portion is rotated and displaced about the base end side of the base end spring piece, serving as a spring fulcrum, in a direction approaching the object to be connected that is a direction opposite to the third bent-back portion. However, if the second bent-back portion is rotated and displaced in the above manner, the contact pressure of the second contact portion to the object to be connected decreases. Conversely, the present disclosure is capable of stopping the rotation and the displacement of the second bent-back portion with the displacement restriction wall in the housing. With the above, the second bent-back portion functions as the main spring fulcrum that elastically supports the second contact portion and the third bent-back portion that come in contact with the object to be connected, such that the second bent-back portion exerts a contact pressure that the second contact portion reliably presses and contacts the object to be connected. As described above, according to the present disclosure, the second contact portion can be in conductive contact with the object to be connected in a reliable manner when in a fitted and connected state.

The base end spring piece of the present disclosure may include a narrow width portion on a base end side that is on an opposite side of the second bent-back portion, the narrow width portion having a plate width narrower than that on a distal end side connected to the second bent-back portion. With the above, the narrow width portion becomes soft, such that the second bent-back portion can be rotated and displaced with little force. Accordingly, the second bent-back portion that is rotated and displaced comes in contact with the displacement restriction wall at an early stage in the fitting and connecting process. With the above, the second contact portion can be in conductive contact with the object to be connected in a reliable manner at an early stage in the fitting and connecting process with the second bent-back portion as the spring fulcrum.

The second terminal piece of the present disclosure may include the base end spring piece, the second bent-back portion, and the intermediate spring piece, and may include two spring portions arranged parallel to each other, and a joining portion connected to distal ends of the two spring portions. Since the present disclosure includes two spring portions arranged parallel to each other, and the joining portion connecting the distal ends of the two spring portions, the rigidity against the load applied to the second terminal piece in the direction in which the spring portions are arranged can be increased. Furthermore, in the present disclosure, the second contact portion may protrude from the joining portion. With the above, the second contact portion is elastically supported by the two spring portions, and second contact portion can be in contact with the object to be connected in a reliable manner.

The first terminal piece of the present disclosure may be arranged between the two spring portions of the second terminal piece. According to the present disclosure, the range in which the first terminal piece can elastically deform in a direction in which the two spring portions are arranged can be limited to the area in which the first terminal piece is interposed between the two spring portions; accordingly, the first terminal piece can be protected from being plastically deformed due to displacement in the direction in which the two spring portions are arranged.

The first contact portion and the second contact portion of the present disclosure can each be formed as a curved surface that is curved in the plate thickness direction of the metal piece that forms the terminal. According to the present disclosure, for example, compared with a case in which each contact portion comes in contact with the object to be connected at an edge portion, the contact portion can be in contact with the object to be connected in a smooth manner and the contact surface of the object to be connected can be made to not easily be damaged.

According to the present disclosure, since the terminal includes the plurality of contact portions, connection reliability can be increased. Furthermore, since the first contact portion of the first terminal piece and the second contact portion of the second terminal piece can be arranged close to each other, the effective fitting length between the first contact portion or the second contact portion and the object to be connected can be made longer than the effective fitting length of the known connector, and the size of the connector can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an external perspective view illustrating the front side, the right side, and the top side of a socket connector according to an exemplary embodiment.

FIG. 2 is a front view of the socket connector in FIG. 1.

FIG. 3 is a plan view of the socket connector in FIG. 1.

FIG. 4 is a cross-sectional view taken along line IV-IV in FIG. 2.

FIG. 5 is a cross-sectional view taken along line V-V in FIG. 2.

FIG. 6 is a cross-sectional view taken along line VI-VI in FIG. 3.

FIG. 7 is an external perspective view illustrating the front side, the right side, and the top side of a socket terminal in FIG. 1.

FIG. 8 is a front view of the socket terminal in FIG. 7.

FIG. 9 is a right side view of the socket terminal in FIG. 7.

FIG. 10 is a rear view of the socket terminal in FIG. 7.

FIG. 11 is an external perspective view illustrating the front side, the right side, and the top side of a plug connector according to an exemplary embodiment.

FIG. 12 is an external perspective view illustrating the front side, the left side, and the bottom side of the plug connector in FIG. 11.

FIG. 13 is a plan view of the plug connector in FIG. 11.

FIG. 14 is a right side view of the plug connector in FIG. 11.

FIG. 15 is a front view of the plug connector in FIG. 11.

FIG. 16 is a cross-sectional view taken along line XVI-XVI in FIG. 13.

FIG. 17 is a cross-sectional view taken along line XVII-XVII in FIG. 15.

FIG. 18 is an external perspective view illustrating the front side, the right side, and the top side of the plug terminal in FIG. 11.

FIG. 19 is a cross-sectional view taken along line corresponding to IV-IV in FIG. 2 and illustrates a state in which the socket connector and the plug connector are fitted to each other.

FIG. 20 illustrates explanatory drawings comparing a known socket terminal and the socket terminal of the present exemplary embodiment.

FIG. 21 is an explanatory drawing illustrating movements of displacement of the socket terminal in FIG. 7.

FIG. 22 is an explanatory drawing of an area A in FIG. 17 and illustrates a movement of an inclined piece portion of the plug terminal.

FIG. 23 is an explanatory drawing of an area B in FIG. 16 and illustrates a movement of a displacement restricting protrusion.

FIG. 24 is an explanatory drawing of the area B in FIG. 16 and illustrates another movement of the displacement restricting protrusion.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Hereinafter, a preferable exemplary embodiment of a connector of the present disclosure will be described with reference to the drawings. In the present exemplary embodiment, a socket connector 1 mounted on a substrate P1 is exemplified as a “connector”. Furthermore, a plug connector 2 that is a floating connector mounted on a substrate P2 is exemplified as a “movable connector”. Plug terminals 3 are “objects to be connected” to the socket connector 1, and socket terminals 4 are “objects to be connected” to the plug connector 2. By connecting and fitting the socket connector 1 and the plug connector 2 to each other, the socket terminals 4 and the plug terminals 3 come in conductive contact with each other, and the substrate P1 and the substrate P2 come in conductive contact with each other.

Furthermore, the present specification is described while a width direction (a longitudinal direction) of the socket connector 1 is referred to as an X direction, a front-rear direction (a short direction) of the socket connector 1 is referred to as a Y direction, and a height direction (up-down direction) of the socket connector 1 is referred to as a Z direction. Furthermore, in a state in which the socket connector 1 and the plug connector 2 are fitted and connected to each other, the socket connector 1 side in the height direction Z is referred to as a “lower side”, and the plug connector 2 side is referred to as an “upper side”. However, the above does not limit the mounting method and the use method of the socket connector 1 and the plug connector 2.

Exemplary Embodiment [FIG. 1 to FIG. 24]

Socket Connector

As illustrated in FIGS. 1 to 10, the socket connector 1 includes a socket housing 5 and the socket terminals 4.

Socket Housing

The socket housing 5 is a molded body formed of insulating resin and includes leg portions 5a and a fitting portion 5b.

The leg portions 5a each have a substantially rectangular parallelepiped shape and are formed at the lower ends of both sides of the socket housing 5 in the width direction X. A fixing metal fitting 5c is fixed to each of the ends of the leg portions 5a in the front-rear direction Y. The socket housing 5 is soldered to the substrate P1 with the fixing metal fittings 5c interposed therebetween.

The fitting portion 5b is formed in a box shape serving as a housing main body portion positioned between the two leg portions 5a. The fitting portion 5b includes a fitting chamber 5b1 and terminal accommodating portions 5b2. The fitting portion 5b includes a front wall portion 5d and a rear wall portion 5e provided in the width direction X, and side wall portions 5f and 5f that are provided in the front-rear direction Y and that connect the front wall portion 5d and the rear wall portion 5e to each other.

The fitting chamber 5b1 is formed by being surrounded by the front wall portion 5d, the rear wall portion 5e, and the side wall portions 5f and 5f, and a fitting hole 5g into which the plug connector 2 is inserted is provided on the upper end thereof. Openings 5i that communicate the fitting chamber 5b1 and the terminal accommodating portions 5b2 to each other are provided in inner walls 5h that, in the front wall portion 5d and the rear wall portion 5e, form the fitting chamber 5b1.

A single socket terminal 4 is accommodated inside each terminal accommodating portion 5b2. The socket connector 1 of the present exemplary embodiment includes six socket terminals 4 and is provided with six terminal accommodating portions 5b2. Three terminal accommodating portions 5b2 are provided in each of the front wall portion 5d and the rear wall portion 5e. The three terminal accommodating portions 5b2 are arranged in the width direction X. The terminal accommodating portions 5b2 are each formed as a recess in which the width extends in the X direction, the depth extends in the Y direction, and the height extends in the Z direction. In other words, the terminal accommodating portions 5b2 each include a rear surface 5b3 serving as a bottom of the recess, a pair of lateral surfaces 5b4 extending in the Y direction towards the fitting chamber 5b1 from two end portions of the rear surface 5b3 in the longitudinal direction, and a top surface 5b5 that closes the upper end portions of the rear surface 5b3 and the lateral surfaces 5b4.

Terminal insertion holes 5b6 for inserting the socket terminals 4 from a bottom surface side of the socket housing 5 into the terminal accommodating portions 5b2 are formed in lower portions of the terminal accommodating portions 5b2. The terminal insertion holes 5b6 are formed in a front side and a rear side in the front-rear direction Y with a center partition wall 5b7 that extends in the width direction X on a bottom surface of the socket housing 5.

Displacement restriction walls 5b8 that partition the terminal accommodating portions 5b2 with respect to the fitting chamber 5b1 are provided in the lateral surfaces 5b4 of the terminal accommodating portions 5b2. The openings 5i described above are each formed between a pair of displacement restriction walls 5b8. A first contact portion 4c2 and a second contact portion 4d2 of each socket terminal 4 accommodated in the corresponding terminal accommodating portion 5b2 protrudes from the corresponding opening 5i towards the fitting chamber 5b1.

Furthermore, terminal fixing grooves 5b9 of the socket terminal 4 are formed in the two end portions of the rear surface 5b3 of each terminal accommodating portion 5b2. During assembling of the socket connector 1, the socket terminal 4 is inserted into the terminal accommodating portion 5b2 through the terminal insertion hole 5b6 at the bottom surface of the socket housing 5 and is press-fitted and fixed to the terminal fixing grooves 5b9.

Socket Terminal

The socket terminal 4 is formed by bending a metal piece provided by punching a metal plate.

As illustrated in FIGS. 4 to 10, the socket terminal 4 includes a substrate fixed portion 4a, a base portion 4b, a first terminal piece 4c, and a second terminal piece 4d.

The substrate fixed portion 4a is provided at the lower end of the socket terminal 4 and is soldered to the substrate P1 while in contact thereto; accordingly, the socket terminal 4 is fixed to the substrate P1.

The base portion 4b is substantially rectangular, and the surface thereof is a flat plate surface. A lock protrusion 4b1 is provided in the two edges of the base portion 4b in the width direction X. The socket terminal 4 can be fixed by press-fitting the lock protrusions 4b1 into the terminal fixing grooves 5b9 such that the lock protrusions 4b1 bite the terminal fixing grooves 5b9 when the socket terminal 4 is inserted into the terminal accommodating portion 5b2 of the socket housing 5. A base end portion of a first elastic piece portion 4c1 and base end portions of a second elastic piece portion 4d1 are formed continuously from the base portion 4b. Spring length and contact pressures of the first terminal piece 4c and the second terminal piece 4d can be adjusted and can be made different from each other by extending the first elastic piece portion 4c1 and the second elastic piece portion 4d1 at different positions in the base portion 4b.

First Terminal Piece

The first terminal piece 4c is a metal piece having a bent shape that is bent in a plate thickness direction, and includes the first elastic piece portion 4c1 and the first contact portion 4c2.

The first elastic piece portion 4c1 includes, in order from the base portion 4b side, a first spring piece portion 4c3 and a first bent-back portion 4c4. The first elastic piece portion 4c1 is arranged at substantially the middle of the upper end of the base portion 4b in the width direction X, and in substantially the middle of two spring portions 4d3 and 4d3 of the second terminal piece 4d described later. With the above, the range in which the first elastic piece portion 4c1 can elastically deform in a direction in which the two spring portions 4d3 are arranged can be limited to the area in which the first elastic piece portion 4c1 is interposed between the two spring portions 4d3.

A base end of the first spring piece portion 4c3 is connected to the base portion 4b, and the first spring piece portion 4c3 is formed so as to extend in a cantilevered manner in a “first direction” that is a direction (a height direction Z(+)) in which the plug connector 2 is unplugged from the fitting chamber 5b1. The first spring piece portion 4c3 is bent at a bend portion 4c8 at a base end side of the first spring piece portion 4c3 arranged inside the terminal accommodating portion 5b2 and along the rear surface 5b3, and extends in the height direction Z from the bend portion 4c8 to a distal end side of the first spring piece portion 4c3 while inclining obliquely towards the opening 5i of the socket housing 5. Furthermore, as illustrated in FIG. 10, the first spring piece portion 4c3 is formed such that a plate width on the base end side connected to the base portion 4b is wider than a plate width on the distal end side connected to the first bent-back portion 4c4. With the above, the first terminal piece 4c is configured so that the spring is hard (so that the contact pressure is high).

The first bent-back portion 4c4 is formed from an upper end of the first spring piece portion 4c3 so as to be bent in a “second direction” that is a direction that is opposite to the first direction and that is a direction (a height direction Z(−)) in which the plug connector 2 is inserted into the fitting chamber 5b1. If one were to obtain a sufficient spring length without such a first bent-back portion 4c4 by extending the first spring piece portion 4c3 in the first direction Z(+), the socket terminal 4 becomes large in the height direction Z. However, in the present exemplary embodiment, the socket terminal 4 is bent in the second direction Z(−) at the first bent-back portion 4c4 and the first contact portion 4c2 is formed from there on; accordingly, while obtaining a sufficient spring length of the first terminal piece 4c, the socket terminal 4 can be reduced in size in the height direction Z.

The first contact portion 4c2 includes a front contact guide portion 4c5, a front contact portion 4c6, and a distal end portion 4c7.

As illustrated in FIG. 4, the front contact guide portion 4c5 protrudes into the fitting chamber 5b1 through the opening 5i of the socket housing 5, and is an area in the socket terminal 4 where the plug terminal 3 inserted through the fitting hole 5g comes in contact first. The front contact guide portion 4c5 is positioned on a “front side” with respect to the inserted plug terminal 3, and a rear contact guide portion 4d11 described later is positioned on a “rear side”. The front contact guide portion 4c5 pressed and contacted by the plug terminal 3 slides against and comes in contact with the plug terminal 3 while receiving the plug terminal 3 on the flat contact surface thereof in a smooth manner, and is displaced towards the terminal accommodating portion 5b2. The first bent-back portion 4c4 does not protrude into the fitting chamber 5b1 and is positioned inside the terminal accommodating portions 5b2 at all times; accordingly, there is no concern of the plug connector 2 abutting against the first bent-back portion 4c4 and the socket terminal 4 becoming buckled.

The front contact portion 4c6 is formed so as to be curved in a mountain shape in the plate thickness direction of the metal plate. The front contact portion 4c6 is arranged in substantially the middle of the socket terminal 4 in the width direction X. The contact surface of the front contact portion 4c6 is provided as a roll face that is the first terminal piece 4c bent in the plate thickness direction. Normally, there is a fine unevenness in the cutout surface (the plate thickness surface) of the punched terminal created in the punching process, and in a case in which the portion in contact with the mating terminal is, for example, formed as a cutout surface of the punched terminal, there is a concern that the contact surface of the mating terminal may become damaged. Conversely, since the front contact portion 4c6 is a roll face, the plug terminal 3 is not easily damaged even if insertion and removal are repeated between the connectors, and the plug terminal 3 undergoes repeated sliding and contact.

The distal end portion 4c7 is formed at an end portion of the front contact portion 4c6 on the distal end side. The distal end portion 4c7 will be further described later.

Second Terminal Piece

The second terminal piece 4d is a metal piece having a bent shape that is bent in a plate thickness direction, and includes the second elastic piece portion 4d1 and the second contact portion 4d2.

The second elastic piece portion 4d1 includes two spring portions 4d3, a joining portion 4d4, and a third bent-back portion 4d5.

Each spring portion 4d3 includes, in order from the base portion 4b side, a base end spring piece 4d6, a second bent-back portion 4d7, and an intermediate spring piece 4d8, which are formed symmetrically in the width direction X. The spring portion 4d3 is connected to an end portion of the base portion 4b that is an upper end in the width direction X and is formed so as to extend in a cantilevered manner in the “first direction” that is the direction (the height direction Z(+)) in which the plug connector 2 is unplugged from the fitting chamber 5b1.

The base end spring piece 4d6 extends inside the terminal accommodating portion 5b2 in a linear manner towards the top surface 5b5 along the rear surface 5b3. As illustrated in FIG. 10, each base end spring piece 4d6 is shaped so that the width becomes larger from the base end side connected to the base portion 4b towards the distal end side connected to the second bent-back portion 4d7. In the present exemplary embodiment, narrow width portions 4d9 that each have a plate width narrower than a plate width W2 on the distal end side connected to the second bent-back portion 4d7 are formed on the base end side that is a side opposite to the second bent-back portion 4d7. The area of each base end spring piece 4d6 on the base end side has the narrowest plate width W1. Each base end spring piece 4d6 having such a narrow width portion 4d9 is configured in such a manner that the spring becomes soft and elastic deformation is facilitated. Furthermore, while the first terminal piece 4c is formed so that the plate width of the first spring piece portion 4c3 on the base end side is large, each narrow width portion 4d9 is formed so that the plate width is narrow by forming the area of the plate edge adjacent to the first terminal piece 4c in an oblique manner from the distal end side connected to the second bent-back portion 4d7 towards the base end side. Accordingly, compared with a case in which the plate edge not adjacent to the first terminal piece 4c is formed in an oblique manner, the width of the socket terminal 4 in the width direction X where the first terminal piece 4c and the second terminal piece 4d are connected to each other can be reduced.

Each second bent-back portion 4d7 is formed from an upper end of base end spring piece 4d6 in an inverted U-shape that is bent in the “second direction” that is the direction that is opposite to the first direction and that is the direction (the height direction Z(−)) in which the plug connector 2 is inserted into the fitting chamber 5b1. The second bent-back portion 4d7 is formed at a position overlapping the first bent-back portion 4c4 in the width direction X. With the above, the height of the socket terminal 4 is lowered without the second terminal piece 4d protruding in the height direction Z with respect to the first terminal piece 4c.

Each intermediate spring piece 4d8 extends parallel to the base end spring piece 4d6 from the corresponding second bent-back portion 4d7 in the second direction Z(−). Each intermediate spring piece 4d8 is formed so that the length thereof exceeds the length of the first contact portion 4c2 of the first terminal piece 4c. Owing to the base end spring pieces 4d6, the second bent-back portions 4d7, and the intermediate spring pieces 4d8, the second terminal piece 4d configured in the above manner is capable of obtaining a long spring length even in the small inner space of the terminal accommodating portion 5b2.

The joining portion 4d4 is a portion that connects the distal ends of the two spring portions 4d3 (the distal ends of the intermediate spring pieces 4d8) in the width direction X. The joining portion 4d4 is accommodated inside the terminal accommodating portion 5b2 and is formed at a position overlapping the displacement restriction wall 5b8 in the front-rear direction Y. Accordingly, even if the joining portion 4d4 is about to protrude into the fitting chamber 5b1 from the terminal accommodating portion 5b2, the joining portion 4d4 is blocked by the displacement restriction wall 5b8; accordingly, no trouble, such as the joining portion 4d4 coming in contact with the inserted plug terminal 3, will occur. Furthermore, since the distal ends of the two spring portions 4d3 are connected to the joining portion 4d4, the spring elastic force of the two spring portions 4d3 can be exerted as contact force of a rear contact portion 4d10 against the plug terminal 3. Furthermore, even in a case in which a load is applied to the second elastic piece portion 4d1 in the direction in which the spring portions 4d3 are arranged, since the spring portions 4d3 fix the second elastic piece portion 4d1 to the base portion 4b, a deformation to the extent causing plastic deformation does not easily occur.

The third bent-back portion 4d5 is formed in a protruding manner so as to be bent in the first direction Z(+) from the joining portion 4d4. The third bent-back portion 4d5 is formed in an intermediate position of the joining portion 4d4 in the width direction X. With the above, as illustrated in FIG. 8, the first contact portion 4c2 and the second contact portion 4d2 are arranged on a straight line extending in the height direction Z.

The second contact portion 4d2 includes the rear contact portion 4d10, the rear contact guide portion 4d11, and a distal end portion 4d12.

The rear contact portion 4d10 is formed so as to be curved in a mountain shape in the plate thickness direction of the metal plate. The rear contact portion 4d10 is arranged in substantially the middle of the socket terminal 4 in the width direction X. The contact surface of the rear contact portion 4d10 is provided as a roll face that is the second terminal piece 4d bent in the plate thickness direction. With the above, similar to the front contact portion 4c6 of the first terminal piece 4c, the plug terminal 3 is not easily damaged even when sliding and contact is repeated.

Furthermore, the rear contact portion 4d10 is arranged on the same straight line extending along the front contact portion 4c6 and in an insertion direction of the plug connector 2 (FIG. 8). Accordingly, each plug terminal 3 of the plug connector 2 comes in contact in the order of the front contact portion 4c6 and the rear contact portion 4d10. In so doing, the front contact portion 4c6 can remove the foreign substance adhered on the plug terminal 3, and the rear contact portion 4d10 can come in contact with the plug terminal 3 from which the foreign substance has been removed; accordingly, connection reliability can be increased.

Moreover, by arranging the front contact portion 4c6 and the rear contact portion 4d10 at positions different from each other in the insertion direction Z of the plug terminal 3, the insertion force can be dispersed so that the load to the hand of the operator through the contact portions is not all applied at the same time when inserting the plug terminals 3. Accordingly, insertion of the plug terminal 3 is facilitated for the operator.

As illustrated in FIG. 4, the rear contact guide portion 4d11 obliquely extends into the opening 5i from an end portion of the third bent-back portion 4d5 positioned in the fitting chamber 5b1 of the socket housing 5, and is an area in the second terminal piece 4d where the plug terminal 3 inserted through the fitting hole 5g comes in contact first. The rear contact guide portion 4d11 pressed and contacted by the plug terminal 3 slides against and comes in contact with the plug terminal 3 while receiving the plug terminal 3 on the flat contact surface thereof in a smooth manner, and is displaced towards the terminal accommodating portion 5b2. The rear contact guide portion 4d11 is formed with a length that reaches the extended line of the distal end portion 4c7 of the first terminal piece 4c.

The distal end portion 4d12 is formed at an end portion of the rear contact guide portion 4d11. As illustrated in FIG. 4, the distal end portion 4d12 not extending into the fitting chamber 5b1 is positioned inside the opening 5i (inside the thickness of the displacement restriction wall 5b8). Accordingly, the plug terminal 3 inserted in the fitting chamber 5b1 is not caught by the distal end portion 4d12. However, according to the terminal structure of the present embodiment, the inserted plug terminal 3 does not become caught by the distal end portion 4d12 even in a case in which there is no displacement restriction wall 5b8, due to the following reason. Regarding the positional relationship between the distal end portion 4c7 of the first terminal piece 4c and the distal end portion 4d12 of the second terminal piece 4d, the distal end portion 4d12 is positioned in an area between the distal end portion 4c7 and the first spring piece portion 4c3 in the front-rear direction Y. Accordingly, the distal end portion 4d12 of the second terminal piece 4d is hidden in the insertion direction Z(−) of the plug connector 2 from the inserted plug terminal 3 with the first contact portion 4c2 of the first terminal piece 4c, such that buckling of the second terminal piece 4d caused by the plug terminal 3 abutting against the distal end portion 4d12 does not occur. Furthermore, as described above, by forming the socket terminal 4 so that the distal end portion 4d12 is positioned between the distal end portion 4c7 and the first spring piece portion 4c3 in the front-rear direction Y, the first contact portion 4c2 and the second contact portion 4d2 can be arranged close to each other and, as a result, the rear contact portion 4d10 can be positioned close to the front contact portion 4c6 in the height direction Z. With the above, in a state in which the connectors are fitted and connected to each other, the effective fitting length of the rear contact portion 4d10 with respect to the plug terminal 3 can be increased, and the connection reliability can be increased. Furthermore, by arranging the second contact portion 4d2 close to the first contact portion 4c2, the size of the socket terminal 4 in the height direction Z can be reduced, and the terminal accommodating portion 5b2 can also be formed in a compact manner in the height direction Z as well.

Plug Connector

The plug connector 2 is a floating connector including a plug housing 6 and the plug terminals 3.

Plug Housing

As illustrated in FIGS. 11 to 14, the plug housing 6 includes fixed housing 7 and a movable housing 8.

Fixed Housing

The fixed housing 7 is a molded body formed of insulating resin, and includes fixing metal fittings 7j to solder the fixed housing 7 to the substrate P2. The fixed housing 7 is formed in a box shape that includes a front wall portion 7a, a rear wall portion 7b, and side wall portions 7c and 7c. An accommodation portion 7d that accommodates the movable housing 8 is formed inside the fixed housing 7, and movable spaces 7e are formed between the fixed housing 7 and the movable housing 8. An upper surface opening 7f is formed in an upper surface of the fixed housing 7, and a bottom surface opening 7g is formed in a bottom surface. Accordingly, the movable housing 8 is exposed to the outside through the upper surface opening 7f and the bottom surface opening 7g.

The front wall portion 7a and the rear wall portion 7b each include three terminal accommodating portions 7h each in which a plug terminal 3 is accommodated. The terminal accommodating portions 7h are provided as recesses formed in the inner surfaces of the front wall portion 7a and the rear wall portion 7b that oppose the accommodation portion 7d, and three terminal accommodating portions 7h are arranged in the width direction X in the front wall portion 7a and in the rear wall portion 7b. The terminal accommodating portions 7h are formed as spaces that allow displacement of movable pieces 3c of the plug terminals 3 described later. A terminal fixing portion 7i that fixes the plug terminal 3 is formed in each terminal accommodating portion 7h.

The side wall portions 7c are provided on both end sides in the width direction X, and connect the front wall portion 7a and the rear wall portion 7b to each other. Furthermore, two locking recesses 7c1 are formed in each of the side wall portion 7c so as to be arranged therein.

Movable Housing

The movable housing 8 is a molded body formed of insulating resin, and is disposed in the accommodation portion 7d of the fixed housing 7. The movable housing 8 is capable of being displaced with respect to the fixed housing 7 in the area of the movable spaces 7e of the fixed housing 7. The movable housing 8 includes a fitting portion 8a including a square frame-shaped peripheral wall, and displacement restricting protrusions 8b.

The fitting portion 8a includes a front wall portion 8a1 and a rear wall portion 8a2 that extend in the width direction X, and side wall portions 8a3 and 8a3 that are provided in the front-rear direction Y and that connect the front wall portion 8a1 and the rear wall portion 8a2 to each other. A fitting hole 8a4 in which the socket connector 1 is fitted is formed in an upper surface of the fitting portion 8a. A bottom wall portion 8a5 is formed in a bottom surface of the fitting portion 8a.

Terminal accommodating portions 8a10 that allow displacement of the movable pieces 3c of the plug terminals 3 described later are formed as recesses in outer surfaces of the front wall portion 8a1 and the rear wall portion 8a2 opposing the fixed housing 7. The terminal accommodating portions 8a10 are positioned so as to oppose the terminal accommodating portions 7h of the fixed housing 7 described above. The two members, that is, each terminal accommodating portions 7h and the corresponding terminal accommodating portion 8a10 disposed together function as a displacement space of the corresponding movable piece 3c. As described later, the movable housing 8 of the present exemplary embodiment allows a large displacement amount to be obtained in case of tilting. The large displacement of the movable pieces 3c is allowed by the two members, that is, each terminal accommodating portions 7h and the corresponding terminal accommodating portion 8a10. Furthermore, the size of the plug housing 6 in the front-rear direction Y is reduced by forming the terminal accommodating portions 7h and 8a10 as recesses.

A middle wall 8a6 that protrude from the bottom wall portion 8a5 into the fitting portion 8a is formed inside the fitting portion 8a. Furthermore, the front wall portion 5d, the rear wall portion 5e, and the side wall portions 5f of the socket housing 5 are inserted between an inner peripheral surface and the middle wall 8a6 of the fitting portion 8a, and the middle wall 8a6 is inserted in the fitting chamber 5b1 of the socket housing 5.

The middle wall 8a6 includes plate surfaces that extend in the width direction X and the height direction Z, and a fitting recess 8a7 to which the plug contact portion 3e of the plug terminal 3 described later is attached is formed in each of the plate surfaces. Furthermore, terminal fixing holes 8a8 in which the plug terminals 3 are fixed and that penetrate the bottom wall portion 8a5 in the wall thickness direction are formed in the bottom wall portion 8a5.

Inclined surface portions 8a9 are formed on the bottom surface (the surface opposing the substrate) of the bottom wall portion 8a5 from the middle side towards the outer edge side of the bottom wall portion 8a5. The inclined surface portions 8a9 are formed in an inclined manner from the middle side towards the outer edge side so that the gaps between the front surface of the substrate P2, serving as “opposing surfaces”, gradually increase. The inclined surface portions 8a9 are formed in bottom surfaces of recesses 8a11 formed in the bottom wall portion 8a5. The recesses 8a11 are formed so as to be recessed in the height direction Z(+) in FIG. 12. As illustrated in FIG. 17, by accommodating inclined piece portions 3c5 of the movable pieces 3c of the plug terminals 3 described later in the recesses 8a11, the height of the movable housing 8 can be reduced compared to a case in which no recess 8a11 is provided.

The displacement restricting protrusions 8b are formed so as to protrude outwardly from the side wall portions 8a3 of the fitting portion 8a in the width direction X. Two displacement restricting protrusions 8b are provided in the front-rear direction Y in each side wall portion 8a3. Furthermore, the displacement restricting protrusions 8b are arranged inside the locking recesses 7c1 and 7c1 provided in the side wall portions 7c of the fixed housing 7. Furthermore, for example, in a case in which the movable housing 8 is about to become excessively displaced in the height direction Z with respect to the fixed housing 7, the excessive displacement of the movable housing 8 with respect to the fixed housing 7 is restricted by the displacement restricting protrusions 8b being in contact with the locking recesses 7c1. Furthermore, since two displacement restricting protrusions 8b are provided in the front-rear direction Y, compared with a case in which only one is provided, the movable housing 8 is less easily inclined with respect to the fixed housing 7 in the front-rear direction Y.

Upper portion inclined surfaces 8b1 each serving as a “corner edge absent portion” are provided on the upper surfaces of the displacement restricting protrusions 8b in the height direction Z. On the other hand, lower portion inclined surfaces 8b2 each serving as a “corner edge absent portion” are also provided on the bottom surfaces that are on the opposite side with respect to the upper surfaces. The upper portion inclined surfaces 8b1 and the lower portion inclined surfaces 8b2 are formed by obliquely removing the corner edges on the outer edge side of the displacement restricting protrusions 8b in a case in which the displacement restricting protrusions 8b have rectangular parallelepiped shapes. With the above, the gaps between the end portions of the displacement restricting protrusions 8b and the locking recesses 7c1 of the fixed housing 7 or the substrate P2 can be increased, and compared with a case in which no upper portion inclined surface 8b1 and no lower portion inclined surface 8b2 are provided, displacement amount of the inclination of the movable housing 8 can be increased.

Plug Terminal

Three plug terminals 3 are disposed between one surface of the middle wall 8a6 and the front wall portion 7a, and between the other surface of the middle wall 8a6 and the rear wall portion 7b. Each plug terminal 3 is formed by bending a metal plate, and includes a substrate connection 3a, a fixed housing fixing portion 3b, the movable piece 3c, a movable housing fixing portion 3d, and the plug contact portion 3e.

The substrate connection 3a has a substantially rectangular plate surface. The plug terminal 3 is soldered while the substantially rectangular plate surface is in contact with the substrate surface of the substrate P2.

The fixed housing fixing portion 3b is formed as a substantially rectangular plate piece, and is provided with a lock protrusion 3b1 in each end thereof in the width direction X. The plug terminal 3 can be fixed to the fixed housing 7 by press-fitting the fixed housing fixing portion 3b into the terminal fixing portion 7i of the plug housing 6 and having the lock protrusions 3b1 bite thereinto.

The movable pieces 3c are portions that elastically support the movable housing 8 so as to allow the movable housing 8 to be displaced with respect to the fixed housing 7. The movable piece 3c includes a first spring piece portion 3c1, a bent-back portion 3c2 that bends in a return direction, a second spring piece portion 3c1 that extends from an end portion of the bent-back portion 3c2, a bend portion 3c4 that bends in the front-rear direction Y, the inclined piece portion 3c5 that extends in the front-rear direction Y from the bend portion 3c4, and a bend portion 3c6 connected to the movable housing fixing portion 3d. Note that the inclined piece portion 3c5 is formed so that as the inclined piece portion 3c5 extends from the bend portion 3c6 positioned at the center side of the bottom wall portion 8a5 of the movable housing 8 towards the side wall portion 8a3 of the movable housing 8, the inclined piece portion 3c5 obliquely inclines so as to gradually be distanced away from the substrate serving as the “opposing surface”.

The movable housing fixing portion 3d is formed as a substantially rectangular plate piece, and is provided with a lock protrusion 3d1 in each end thereof in the width direction X. The plug terminal 3 can be fixed to the movable housing 8 by press-fitting the movable housing fixing portion 3d into the terminal fixing hole 8a8 of the movable housing 8 and having the lock protrusions 3d1 bite thereinto.

The plug contact portions 3e are each formed as a metal plate extending in the width direction X and the height direction Z, and are held at the fitting recesses 8a7 of the middle wall 8a6. Each plug contact portions 3e is in conductive contact with the front contact portion 4c6 and the rear contact portion 4d10 of the corresponding socket terminal 4.

Functions and Effects of Socket Connector 1 and Plug Connector 2

The functions and effects of the socket connector 1 and the plug connector 2 according to the present exemplary embodiment configured in the above manner will be described next.

Conductive Contact Through Fitting and Connection, and Two Contact Points: FIG. 19

The plug connector 2 is fitted to the socket connector 1. Specifically, the fitting portion 8a of the plug connector 2 is inserted into the fitting chamber 5b1 through the fitting hole 5g of the fitting portion 5b of the socket connector 1. With the above, the distal end sides of the plug contact portions 3e are inserted into the fitting chamber 5b1, come in contact with the front contact portions 4c6 after coming in contact with the front contact guide portions 4c5 of the socket terminals 4. Furthermore, when the plug connector 2 is pushed in, the plug contact portions 3e come in contact with the rear contact portions 4d10 after coming in contact with the rear contact guide portions 4d11. With the above, as illustrated in FIG. 19, the two points, that is, the front contact portions 4c6 and the rear contact portions 4d10, are in conducive contact with the plug contact portions 3e. With such conductive contact through two contact points, or conductive contact through at least one point, the contact reliability of the socket connector 1 can be increased.

Foreign Substance Removing Function

The front contact portion 4c6 and the rear contact portion 4d10 of each socket terminal 4 are arranged on a straight line extending in the insertion direction Z of the corresponding plug contact portion 3e. Accordingly, the front contact portions 4c6 remove the foreign substances, such as remains of the substrate, adhered on the plug contact portions 3e, and as if following the sliding routes, the rear contact portions 4d10 successively come in contact with the plug contact portions 3e. Even if there are foreign substances adhered to the plug contact portions 3e, the contact reliability of the socket connector 1 can be increased.

Reduction in Size and Increase in Effective Fitting Length: FIGS. 9 and 20

With the first bent-back portion 4c4 of the first terminal piece 4c and the third bent-back portion 4d5 of the second terminal piece 4d, the first contact portion 4c2 and the second contact portion 4d2 extend in the height direction Z so as to oppose each other. In other words, as illustrated in FIG. 9, the distal end portion 4c7 of the first contact portion 4c2 opposes the distal end portion 4d12 of the second contact portion 4d2 and, in the front-rear direction Y, the distal end portion 4d12 is in an area R1 between the distal end portion 4c7 and the first spring piece portion 4c3. When comparing such a socket terminal 4 and a known socket terminal 4′ in which the first terminal piece and the second terminal piece extend in directions that are opposite to each other, as illustrated in FIG. 20, a distance D1 in the height direction Z between the point of contacts of the front contact portion 4c6 and the rear contact portion 4d10 can be made shorter than a distance D1′ between the point of contacts of the known socket terminal. Furthermore, a length L1 of the first contact portion 4c2 and the second contact portion 4d2 in the height direction Z is shorter than the length L1′ of the known socket terminal 4′. Moreover, when the distal end position of the plug contact portion 3e fitted in the plug terminal 3 in the insertion direction Z is indicated by a virtual line E (3e) and when the effective fitting lengths of the second terminal pieces 4d from the virtual line E are compared, then, the effective fitting length L2 of the second terminal piece 4d of the socket terminal 4 is longer than the effective fitting length L2′ of the known socket terminal 4′. As described above, when compared with the known socket terminal, the socket terminal 4 of the present exemplary embodiment can be small in size (small in height), the terminal accommodating portion 5b2 of the socket housing 5 can also be small in size (small in height), and further, the socket connector 1 can be small in size (small in height). Furthermore, since the effective fitting length of the rear contact portion 4d10 can be increased, the contact reliability can be increased as well.

Interference Prevention Movement During Displacement of First Contact Portion 4c2 and Second Contact Portion 4d2: FIG. 21

As described above, the first contact portion 4c2 and the second contact portion 4d2 are close to each other and are at positions opposing each other in the height direction Z. When displaced by being pressed by the plug contact portion 3e, the first contact portion 4c2 and the second contact portion 4d2 rotate and are displaced so as to distance away from each other such that there is no interference between each other. FIG. 21 illustrates a virtual line S (3e) that is the contact surface of the plug contact portion 3e in a fitted state and in contact with the front contact portion 4c6 and the rear contact portion 4d10. The first contact portion 4c2 is, as illustrated in FIG. 21, displaced upwards in a rotating manner about the base end side of the first spring piece portion 4c3 as the spring fulcrum when receiving the pressing force of the plug contact portion 3e. On the other hand, as illustrated in FIG. 21, the second contact portion 4d2 is, as described later, displaced downwards in a rotating manner about the second bent-back portion 4d7 as the spring fulcrum. Accordingly, the first contact portion 4c2 and the second contact portion 4d2, in particular, the distal end portions 4c7 and 4d12 do not interfere with each other even when displaced.

Obtaining Spring Lengths of First Terminal Piece 4c and Second Terminal Piece 4d

Since the first terminal piece 4c includes the first bent-back portion 4c4, and the second terminal piece 4d includes the second bent-back portion 4d7, the intermediate spring piece 4d8, and the third bent-back portion 4d5, when compared with the known socket terminal (see FIG. 20), long spring lengths can be obtained in the first terminal piece 4c and the second terminal piece 4d and stress can be dispersed; accordingly, spring durability can be provided.

Prevention of Buckling of Second Terminal Piece 4d

The distal end portion 4d12 of the second contact portion 4d2 is positioned closer to the first spring piece portion 4c3 than the distal end portion 4c7 of the first contact portion 4c2. With the above, the distal end portion 4d12 of the second contact portion 4d2 is hidden by the first contact portion 4c2 from the inserted plug terminal 3. Accordingly, the buckling and braking caused by the plug terminal 3 being caught by the distal end portion 4d12 of the second contact portion 4d2 can be prevented.

Exerting Contact Pressure of Second Terminal Piece 4d Using Displacement Restriction Wall 5b8

Displacement restriction walls 5b8 are formed in the socket housing 5. When the plug terminals 3 come in contact with and presses the rear contact guide portions 4d11 and the rear contact portions 4d10, and push the rear contact guide portions 4d11 and the rear contact portions 4d10 into the terminal accommodating portions 5b2, the third bent-back portions 4d5 are displaced so as to retract into the terminal accommodating portions 5b2 with the flexing of the intermediate spring pieces 4d8 supported by the second bent-back portions 4d7. Together with the displacement, the second bent-back portions 4d7 are, opposite to the above, rotated and displaced towards the fitting chamber 5b1 with the base end sides of the base end spring pieces 4d6 as the main spring fulcrum, and the second bent-back portions 4d7 abutting against the displacement restriction walls 5b8 are stopped from being rotated and displaced. In the above case, if no displacement restriction walls 5b8 are provided, the second bent-back portions 4d7 are, without any change, rotated and displaced so as to protrude into the fitting chamber 5b1 such that the contact pressures of the second contact portions 4d2 are decreased. However, in the present exemplary embodiment, rotation and displacement of the second bent-back portions 4d7 are stopped by the displacement restriction walls 5b8 and, with the above, the second bent-back portions 4d7 function as the main spring fulcrums of the intermediate spring pieces 4d8, the third bent-back portions 4d5, and the second contact portions 4d2, such that contact pressures that reliably press and contact the second contact portions 4d2 against the plug terminals 3 are exerted. With the above, in the present exemplary embodiment, in the fitted and connected state, the second contact portions 4d2 and the plug terminals 3 can be reliably in conductive contact with each other while obtaining the spring length, which disperses the stress, in the second terminal pieces 4d.

Furthermore, as illustrated in FIG. 10, the narrow width portions 4d9 that have a plate width narrower than the plate width W2 on the distal end side connected to the second bent-back portion 4d7 are formed in the base end spring pieces 4d6 described above on the base end side that is a side opposite to the second bent-back portion 4d7. The narrow width portions 4d9 are formed so that the plate width becomes gradually narrower from the distal end side. The area of the base end spring piece 4d6 on the base end side is the area having the plate width W1 that is most narrow. Accordingly, due to the soft narrow width portions 4d9, the second bent-back portions 4d7 are rotated and displaced with a small force such that the second bent-back portions 4d7 are in contact with the displacement restriction walls 5b8 at an early stage in the fitting and connecting process. With the above, each second contact portion 4d2 can be in conductive contact with the corresponding plug terminal 3 in a reliable manner at an early stage in the fitting and connecting process with the corresponding second bent-back portion 4d7 as the spring fulcrum. Furthermore, since each narrow width portion 4d9 is shaped so as to become gradually narrower from the distal end side of the corresponding base end spring piece 4d6 towards the corresponding area on the base end side with plate width W1, the overall base end spring piece 4d6 can be displaced softly.

Response of Inclined Piece Portions 3c5 of Movable Pieces 3c of Plug Terminals 3 to Tilting of Movable Housing 8: FIG. 22

The inclined piece portions 3c5 that obliquely extend so as to gradually be distanced away from the opposing surface of the substrate P2 opposing the bottom wall portion 8a5 are formed in the movable pieces 3c of the plug terminals 3 from the middle side of the bottom wall portion 8a5 of the movable housing 8 towards the side wall portions 8a3. As illustrated in FIG. 22, movable spaces D4 amounting to the inclination of the inclined piece portions 3c5 are provided between the gaps D2 between lower side inclination end portions 3c7 of the inclined piece portions 3c5 and the substrate P2, and the spaces D3 between upper side inclination end portions 3c8 and the substrate P2. Accordingly, for example, when fitting and connecting the movable housing 8 and the socket connector 1 to each other, even if the movable housing 8 is rotated and tilted about an axis extending in the width direction X, the upper side inclination end portions 3c8 of the inclined piece portions 3c5 that are, by the tilting, displaced more than the middle side of the movable housing 8 are distanced more away from the substrate P2 by the distance amounting to the movable space D4 that is the amount of inclination; accordingly, cases in which damage is caused by impingement against the substrate P2 can be reduced. Furthermore, even if the movable housing 8 is tilted while in a state in which the plug connector 2 and the socket connector 1 are fitted and connected to each other, since the inclined piece portions 3c5 are distanced more away from the substrate P2 by the distance amounting to the movable space D4 that is the amount of inclination, movable spaces corresponding to the designed displacement amount of the movable housing 8 can be obtained between the inclined piece portions 3c5 and the substrate P2.

Furthermore, the inclined surface portions 8a9 that extend obliquely along the inclined piece portions 3c5 of the movable pieces 3c are formed in the bottom wall portion 8a5 of the movable housing 8 from the middle side towards the outer edge side. Accordingly, the inclined piece portions 3c5 can be disposed along the bottom wall portion 8a5 while obtaining a predetermined amount of movable spaces between the bottom wall portion 8a5 of the movable housing 8.

Displacement Restricting Protrusions 8b of Movable Housing 8: FIGS. 23 and 24

The upper portion inclined surfaces 8b1 and the lower portion inclined surfaces 8b2 are formed in the displacement restricting protrusions 8b. The upper portion inclined surfaces 8b1 and the lower portion inclined surfaces 8b2 are formed by obliquely removing the outside corner edges (shapes C1 and C2 of the corner edges illustrated by two-dot chain lines in FIGS. 23 and 24) of the displacement restricting protrusions 8b in a case in which the displacement restricting protrusions 8b have rectangular parallelepiped shapes. In a case in which the shapes C1 and C2 of the corner edges exist, the corner edges abut against the substrate P2 even with a slight tilting of the movable housing 8; accordingly, in order to prevent the above, the largest displacement amount caused by tilting of the movable housing 8 needs to be suppressed to a small amount. According to the configuration of the present exemplary embodiment, movable spaces amounting to the inclination can be increased between the upper portion inclined surfaces 8b1 of the displacement restricting protrusions 8b and the locking recesses 7c1 of the fixed housing 7. Meanwhile, movable spaces amounting to the inclination can be increased between the lower portion inclined surfaces 8b2 and the substrate P2 as well. Accordingly, compared with a case with no movable spaces, the largest displacement amount caused by tilting of the movable housing 8 can be increased.

Modifications of Exemplary Embodiment

In the exemplary embodiment described above, regarding the socket terminals 4 of the socket connector 1, an exemplification of the second terminal pieces 4d each having two spring portions 4d3 has been given; however, the number of spring portions 4d3 may be one.

In the exemplary embodiment described above, an example in which the displacement restriction walls 5b8 of the socket housing 5 of the socket connector 1 are provided on both sides of the opening 5i has been given; however, the displacement restriction walls 5b8 may be provided on one side.

In the exemplary embodiment described above, a mode in which both the upper portion inclined surfaces 8b1 and the lower portion inclined surfaces 8b2 are provided in the displacement restricting protrusions 8b of the movable housing 8 of the plug connector 2 has been exemplified; however, only either one may be provided in the displacement restricting protrusions 8b.

In the exemplary embodiment described above, an example in which the fixed housing 7 of the plug connector 2 includes the bottom surface opening 7g has been given; however, the fixed housing may have a bottom wall portion. In such a case, the inclined piece portions 3c5 of the plug terminals 3 may be formed so as to extend in an oblique manner and to be distanced away gradually from the bottom wall portion of the fixed housing serving as an opposing surface.

Claims

1. A connector comprising: a terminal including a first terminal piece and a second terminal piece that is in conductive contact with an object to be connected; anda housing that holds the terminal,wherein the first terminal piece and the second terminal piece are connected to a base and branched from the base,wherein the first terminal piece includes a first spring piece portion that extends in a first direction from the base portion,a first bent-back portion extending from the first spring piece portion, the first bent-back portion being bent in a second direction opposite to the first direction from an end portion of the first spring piece portion, anda first contact portion extending from the first bent-back portion towards the second direction, the first contact portion becoming displaced by being pressed and contacted by the object to be connected, andwherein the second terminal piece includes a base end spring piece that is branched from the base portion with the first spring piece portion of the first terminal piece and that extends in the first direction,a second bent-back portion extending from the base end spring piece, the second bent-back portion being bent in the second direction from an end portion of the base end spring piece,an intermediate spring piece that extends from the second bent-back portion and that extends past the first contact portion of the first terminal piece in the second direction,a third bent-back portion that is bent in the first direction from an end portion of the intermediate spring piece, anda second contact portion extending from the third bent-back portion towards the first direction after bending from the third bent-back portion, via the intermediate spring piece extended in the second direction after bending from the second bent-back portion connected to the end of the base end spring piece extended in the first direction, and that is located between the third bent-back portion and the first contact portion of the first terminal piece, the second contact portion becoming displaced by being pressed and contacted by the object to be connected.

2. The connector according to claim 1, wherein a distal end portion of the second contact portion of the second terminal piece is positioned closer to the first spring piece portion of the first terminal piece with respect to a distal end portion of the first contact portion of the first terminal piece in a direction in which the second contact portion is displaced when pressed and contacted by the object to be connected.

3. The connector according to claim 1, wherein the housing includes a displacement restriction wall against which the second bent-back portion displaced towards the object to be connected abuts, andwherein the second bent-back portion serves as a spring fulcrum of the intermediate spring piece, the third bent-back portion, and the second contact portion when the second bent-back portion abuts against the displacement restriction wall.

4. The connector according to claim 1, wherein the base end spring piece includes a narrow width portion on a base end side that is on an opposite side of the second bent-back portion, the narrow width portion having a plate width narrower than that on a distal end side connected to the second bent-back portion.