KR101514373B1 - Connector - Google Patents

Abstract

The present invention provides a connector capable of increasing a permissible current value of a terminal even in a configuration in which the connectors are movable in forward and backward directions and in a width direction,
The dimension in the width direction of the movable portion 13c is set larger than the dimension in the thickness direction so that the movable portion 13c of each first terminal 13 of the first connector 10 is elastically deformed in the front-rear direction (Y direction) The dimension in the thickness direction of the movable portion 23f is set larger than the dimension in the width direction so that the movable portion 23f of each second terminal 23 of the second connector 20 is elastically deformed in the width direction (X direction) The cross sectional area of each of the movable portions 13c and 23f can be made larger and the permissible current value of each of the terminals 13 and 23 can be made larger Can be greatly increased.

Description

Connector {CONNECTOR}

The present invention relates to a connector used for connecting a pair of printed boards, for example.

Conventionally, a connector of this type has a connector which is attached to one of the pair of substrates which are arranged so as to face each other, and the other connector which is attached to the other substrate, (For example, refer to Patent Document 1).

One of the connectors includes a fixed housing fixed to the board, a movable housing movably installed in the front-rear direction and the width direction of the connector with respect to the fixed housing, and a movable housing having one end held in the movable housing and the other end held in the fixed housing The movable housing is moved with respect to the fixed housing by the elastic deformation of the movable portion provided between the one end side and the other end side of each terminal so as to absorb the positional deviation between the substrates due to vibration or impact .

Japanese Patent Application Laid-Open No. 2007-18785

In the connector, however, the positional deviation of the respective boards occurs in the front-rear direction and the width direction of the connector. However, since only one of the connectors is elastically deformable so as to allow the movable housing to move, It is necessary for the movable part of the connector to be sufficiently elastically deformed in both the front-back direction and the width direction of the connector. Therefore, one connector terminal has a problem in that it is disadvantageous as a connector for a large current, since the cross section of the movable section is formed to have a substantially square cross section and a small cross-sectional area.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a connector capable of increasing a permissible current value of the terminal even in a configuration in which the connectors are movable in the forward and backward directions and the width direction.

In order to achieve the above-described object, the present invention provides a connector comprising a first connector attached to one substrate and a second connector attached to the other substrate, the connector connecting the first and second connectors to each other About,

The first connector includes a first fixed housing fixed to one board, a first movable housing movably arranged with respect to the first fixed housing, and a second movable housing having one end held in the first movable housing, And a first terminal held in the fixed housing,

The first terminal has a movable portion which is elastically deformable in the front-rear direction of the connector,

The movable portion is formed so that the width dimension corresponding to the width direction of the connector is larger than the thickness dimension corresponding to the front-rear direction or the vertical direction of the connector,

A second movable housing which is movably disposed with respect to the second fixed housing; and a second movable housing which has one end held by the second movable housing and the other end housed by the second movable housing, (2) a second terminal held in the fixed housing, and the second terminal has a movable portion which is elastically deformable in the width direction of the connector,

The movable portion is formed such that the thickness dimension corresponding to the front-rear direction or the vertical direction of the connector is larger than the width dimension corresponding to the width direction of the connector.

Therefore, the first terminal of the first connector is easily deformed elastically in the front-rear direction or the vertical direction of the connector because the dimension in the width direction of the movable portion is larger than the dimension in the thickness direction. The movable portion of the first terminal is elastically deformed when the positional displacement of the respective boards occurs in the front and rear direction of the connector, The movable portion of the second terminal is elastically deformed.

That is, the dimension in the width direction is made larger in the thickness direction dimension so that the movable portion of the first connector of the first connector is elastically deformed in the front-rear direction of the connector, and the movable portion of the second terminal of the second connector Since the dimension in the thickness direction is formed to be larger than the dimension in the width direction so as to be elastically deformed, the connector is formed so as to be sufficiently elastically deformable in both the longitudinal direction and the width direction of the connector, The allowable current value of the terminal can be increased.

According to the present invention, there is provided a connector, which is attached to one board and which is connected to another connector to be connected to another board to connect the boards to each other, comprises: a fixed housing fixed to the board; and a movable housing And a terminal having one end held in the movable housing and the other end held in the fixed housing,

The terminal has first and second contact portions which are in contact with the terminal of the other connector at intervals in the connector fitting direction and a movable portion which is elastically deformable in the width direction of the connector,

And the movable portion is formed such that the thickness dimension corresponding to the front-rear direction or the vertical direction of the connector is larger than the width dimension corresponding to the width direction of the connector.

The terminal of the present invention is characterized in that the movable portion is easily deformed elastically in the width direction of the connector because the thickness dimension corresponding to the longitudinal direction or the vertical direction of the connector is larger than the width dimension corresponding to the width direction of the connector, The permissible current value of the terminal can be increased.

The terminal has first and second contact portions which are in contact with the terminals of the other connector at intervals in the connector fitting direction. According to this configuration, even when foreign objects are attached to the terminals of other connectors by bringing the first contact portions into sliding contact with the terminals of the other connector and then following the sliding locus to bring the second contact portions into contact with each other, Since the second contact portion can be brought into contact with the first contact portion after the foreign object is removed, the connection reliability of the connector can be improved.

Further, since the terminal is in contact with the mating terminal at the first and second contact portions and has a strong contact force for pressing the mating terminal than at one contact portion, even if the connector is vibrated under the use environment, It is possible to suppress the increase of the contact resistance by cutting off the plating by slipping the plating, and it is possible to improve the connection reliability of the connector even in this respect.

According to the present invention, the permissible current value of the terminal can be increased even in the configuration in which the connectors are movable in the front-rear direction and the width direction of the connector, and thus the connector can be used in the connector for the large current.

1 is a perspective view of a first connector according to an embodiment of the present invention.
2 is a front view of the first connector;
3 is a side view of the first connector;
4 is a cross-sectional view taken along the line AA in Fig.
5 is a plan view of the first connector;
6 is a bottom view of the first connector;
7 is a perspective view of the second connector.
8 is a front view of the second connector.
9 is a side view of the second connector.
10 is a cross-sectional view in the BB arrow direction.
11 is a plan view of the second connector.
12 is a bottom view of the second connector.
13 is a perspective view of the first terminal.
14 is a perspective view of the second terminal.
15 is a perspective view showing a connecting process of a connector.
16 is a side sectional view showing a connecting process of a connector.

Figs. 1 to 16 illustrate an embodiment of the present invention, and illustrate a connector used for connecting a pair of printed boards, for example. In the figure, the X direction indicates the width direction of the connector, the Y direction indicates the front-rear direction of the connector, and the Z direction indicates the vertical direction of the connector.

The connector of the present embodiment includes a first connector 10 attached to one of the pair of substrates 1 and 2 disposed on one side of the substrate 1 and a second connector 10 attached to the other substrate 2, And a connector (20).

15 and 16, the upper and lower directions in the following description are shown as the up and down directions in Figs. 7 to 12. Fig.

[Configuration of First Connector 10]

The first connector 10 includes a first fixed housing 11 fixed to one substrate 1, a first movable housing 12 movable with respect to the first fixed housing 11, a first fixed housing 11 A plurality of first terminals 13 held on the first movable housing 12 and a pair of first fixing members 14 for fixing the first fixed housing 11 to one of the substrates 1 And the first terminals 13 are arranged at intervals in the width direction of the connectors, and are arranged in the front and rear two rows.

The first fixing housing 11 is formed of a molded product of synthetic resin and is formed into a substantially rectangular parallelepiped shape having a height dimension with respect to a width dimension and a depth dimension. The first fixed housing 11 is composed of a front portion 11a, a rear portion 11b and left and right side portions 11c, and the upper and lower surfaces thereof open upward and downward, respectively.

A plurality of fixing grooves 11d for fixing the respective first terminals 13 are provided on the inner surface side of the front face portion 11a and the back face portion 11b and a substantially quadrangular notch portion 11e is formed on each side face portion 11c, Two places are installed. 3, a protruding portion 12c to be described later is disposed inside the notched portion 11e. A gap is formed between the protruding portion 12c and the inner edge of the notched portion 11e in the front-rear direction . Since the clearance is in the forward and backward directions of the first movable housing 12 of the protruding portion 12c, the protruding portion 12c is free to move inside the notched portion 11e. Further, the excessive movement of the protruding portion 12c in the front-rear direction is restricted by the inner edge of the notched portion 11e.

The first movable housing 12 is formed of a molded product of synthetic resin, and has a width and a depth in a substantially rectangular parallelepiped shape having a small height relative to the dimension. The first movable housing 12 is formed in a hollow shape having an opened top surface, and a protruding portion 12a protruding upward from a central portion in the front-rear direction of the bottom surface of the first movable housing 12 is provided.

The protruding portion 12a is formed in a long flat shape in the width direction of the first movable housing 12 and a plurality of holding grooves 12b for holding the first terminals 13 are provided on the front and rear surfaces thereof. When the first connector 10 and the second connector 20 are fitted to each other, the tip of the protrusion 12a is bent at the bottom of the insertion portion 22c of the second movable housing 22 and the first fixed piece 23e, And is located closer to the one end side of the succeeding second elastic piece portion 23d.

The first movable housing 12 is formed in an outer shape smaller than the inner shape of the first fixed housing 11 and is arranged movably in the width direction in the first fixed housing 11. [ In addition, as described above, the first movable housing 12 can also move in the front-rear direction within a range in which the protruding portion 12c can move within the notch portion 11e. In this case, the upper end of the first movable housing 12 is positioned at substantially the same height as the upper end of the second fixed housing 21.

Two protruding portions 12c protruding laterally are provided at both sides of the first movable housing 12 and each protruding portion 12c is provided at each of the notches 11e of the first fixed housing 11, In the front-rear direction, the width direction, and the vertical direction. A gap is provided between the bottom surface of the first movable housing 12 and the substrate 1 as shown in Figs. 4 and 16, and a clearance is provided between the bottom of the first movable housing 12 and the substrate 1 in the downward direction The movable base is movable.

Each of the first terminals 13 is formed by bending a conductive metal plate. Further, the movable portion 13c is provided by forming a part of the metal plate so that the dimension in the width direction (X direction) is larger than the plate thickness, and bending it. 13, the movable portion 13c of the first terminal 13 is formed such that the dimension in the width direction (X direction) is larger than the dimension in the thickness direction (Y direction or Z direction).

The first terminal 13 includes a contact portion 13a contacting the terminal of the second connector 20, a first fixing piece 13b fixed to the first movable housing 12, A second fixed piece 13d fixed to the first fixed housing 11 and a board connecting portion 13e connected to one of the substrates 1. The movable portion 13c,

The contact portion 13a is formed to extend linearly in the vertical direction and is held in the holding groove 12b of the first movable housing 12. [

The first fixing piece portion 13b is formed to extend in the front-rear direction from the lower end of the contact portion 13a, and is fixed to the lower surface of the first movable housing 12.

The movable portion 13c extends upward from the first fixed piece portion 13b along the outer surface of the first movable housing 12 and extends downward from the vicinity of the upper end of the first movable housing 12 in an inverted U- And is formed so as to be elastically deformed in the front-rear direction (Y direction) of the connector from the upper end thereof as a starting point.

The second fixing piece portion 13d is formed to extend downward from the lower end of one side of the movable portion 13c and is fixed to the fixing groove 11d of the first fixing housing 11.

The board connecting portion 13e is formed to extend in the front-rear direction from the lower end of the second fixing piece portion 13d and extends from the lower portion of the front portion 11a or the back portion 11b of the first fixing housing 11 to the first fixing housing 11 extending outwardly.

That is, the one end side (the first fixing piece portion 13b side) and the other end side (the second fixing piece portion 13d side) of the first terminal 13 are arranged to be spaced apart from each other in the longitudinal direction of the connector, And a movable portion 13c is disposed.

Each of the first fixing members 14 is formed by bending a metal plate and is disposed on both sides in the width direction of the first fixing housing 11. [ The first fixing member 14 is formed in a substantially U shape extending from the upper surface of the side portion 11c of the first fixing housing 11 to the front side and the back side, And the back surface. Fixing pieces 14a to be soldered to the substrate 1 are respectively provided at both ends of the first fixing member 14, and each of the fixing pieces 14a is formed so as to extend and project in the front-rear direction. On the upper surface of the first fixing member 14, an elongated protrusion 14b extending in the front-rear direction is provided.

[Configuration of Second Connector 20]

The second connector 20 includes a second fixed housing 21 fixed to one substrate 1, a second movable housing 22 movable relative to the second fixed housing 21, a second fixed housing 21 A plurality of second terminals 23 held by the second movable housing 22 and a pair of second fixing members 24 for fixing the second fixing housing 21 to the other substrate 2 And the second terminals 23 are arranged at intervals in the width direction of the connectors, and are arranged in the front and rear two rows.

The second fixed housing 21 is formed of a molded product of synthetic resin, and has a width and a depth in a substantially rectangular parallelepiped shape having a small height dimension with respect to the dimension. The second fixing housing 21 is composed of a front portion 21a, a rear portion 21b and left and right side portions 21c, and the upper and lower surfaces thereof open upward and downward, respectively. A plurality of fixing holes 21d for fixing the respective second terminals 23 are provided on the lower end sides of the front face portion 21a and the back face portion 21b and a substantially rectangular notch portion 21e is provided on each side face portion 21c . 9, a protruding portion 22d to be described later is disposed inside the notched portion 21e, and a gap is formed between the protruding portion 22d and the inner edge of the notch portion 21e in the front-rear direction . Since the gap remains in the forward and backward directions of the second movable housing 22 of the protruding portion 22d, the protruding portion 22d is free to move inside the notched portion 21e. The excessive movement of the protruding portion 22d in the front-rear direction is restricted by the inner edge of the notched portion 21e.

The second movable housing 22 is formed of a molded product of synthetic resin, and has a width and a depth in a substantially rectangular parallelepiped shape having a large height dimension.

An insertion opening 22a for inserting the protrusion 12a of the first movable housing 12 is provided on the upper surface of the second movable housing 22 and the insertion opening 22a extends in the width direction of the first movable housing 12 As shown in FIG.

In the second movable housing 22, a plurality of terminal holes 22b in which the respective second terminals 23 are disposed are provided to be spaced apart from each other in the width direction of the connector, and each of the terminal holes 22b is arranged in two rows . Each of the terminal holes 22b has an upper side opened toward the front-rear direction center in the second movable housing 22 and is provided between the upper side of each terminal hole 22b in the front row and the rear row, An insertion portion 22c through which the projection 12a of the movable housing 12 is inserted through the insertion opening 22a is formed. A second terminal 23 is fixed to the lower side of each terminal hole 22b, and the lower end of each terminal hole 22b opens downward.

The second movable housing 22 is formed to have a smaller outer shape than the inner shape of the second fixed housing 21 and is arranged movably in the second fixed housing 21 in the width direction. As described above, the second movable housing 22 can also move in the front-rear direction within a range in which the protruding portion 22d can move within the notch portion 21e. In this case, the second movable housing 22 is protruded upward from the upper end of the second fixed housing 21 by approximately the upper half. Each of the protruding portions 22d protrudes laterally from both sides of the second movable housing 22. The protruding portions 22d are inserted into the respective notches 21e of the second fixed housing 21 in the front- And movable vertically.

Each of the second terminals 23 is formed by punching a conductive metal plate. The dimension in the thickness direction (Y direction or Z direction) of the movable portion 23f is formed by punching the metal plate so as to be larger than the dimension in the width dimension (X direction). Thus, the movable portion 23f of the second terminal 23 is formed so that the dimension in the thickness direction (Y direction or Z direction) is larger than the dimension in the plate thickness width dimension (X direction) as shown in Fig.

The second terminal 23 is elastically deformed in the direction of contact between the first contact portion 23a and the second contact portion 23b which are in contact with the first terminal 13 of the first connector 10, A first fixing piece portion 23e fixed to the second movable housing 22 and a movable portion 23f elastically deformable in the width direction of the connector are provided on the first elastic piece portion 23c and the second elastic piece portion 23d, A second fixing piece portion 23g fixed to the second fixing housing 21 and a board connecting portion 23h connected to the other substrate 2. [

The first contact portion 23a and the second contact portion 23b are formed in a substantially triangular shape and protrude from the upper side of the terminal hole 22b into the inserting portion 22c. In this case, the respective contact portions 23a and 23b are arranged at intervals in the vertical direction so that the first contact portions 23a are positioned above the second contact portions 23b.

The second terminal 23 is in contact with the first terminal 13 at the first and second contact portions 23a and 23b so that the contact force pressing the first terminal 13 is stronger than when the contact is made at one contact portion Therefore, even if the connector in the fitted state is vibrated under the use environment, the first and second contact portions 23a and 23b slide finely to the first terminal 13 to reduce the plating, And it is possible to increase the connection reliability of the connector.

The first elastic piece portion 23c is formed to extend upward from the upper end of the first fixing piece portion 23e, and a first contact portion 23a is provided at an upper end thereof.

The second elastic piece portion 23d is formed to extend upward from the upper end of the first fixing piece portion 23e, and a second contact portion 23b is provided at an upper end thereof. In this case, the respective elastic piece portions 23c and 23d are spaced apart from each other in the longitudinal direction so that the second elastic piece portion 23d is located at the center of the connector in the front-rear direction than the first elastic piece portion 23c.

The second elastic piece portion 23d is provided at one end side connected to the first fixed piece portion 23e by being detoured along the shape of the side from the tip side of the protruding portion 12a of the first movable housing 12 And has a bent portion. The bent portion is connected at its base end to the first fixing piece portion 23e at a position in contact with the side surface of the central partition wall of the second movable housing 22 dividing the second terminal 23 into two front and rear rows, In a forward or backward direction away from the center of the vehicle, and again curved toward the center in the front-rear direction.

In order to prevent the second elastic piece portion 23d from interfering with the protruding portion 12a of the first movable housing 12, for example, when the second elastic piece portion 23d has a linear shape, It is necessary to make the width of the second movable housing 22 larger in the front-rear direction as a result of the displacement of the second connector 20 in the forward direction or the backward direction away from the partition wall. The size of the connector becomes larger in the front-rear direction. However, in the case of the second elastic piece portion 23d having a bent portion, the above-described interference can be avoided, so that the connector can be downsized. In addition, since the spring length of the second elastic piece portion 23d can be made longer by the bent portion, it is possible to prevent the detachment of the connection reliability of the connector due to the detachment of the spring elasticity.

The first fixing piece portion 23e is formed to extend downward from the lower ends of the elastic piece portions 23c and 23d and is fixed to the lower side of the terminal hole 22b.

The movable portion 23f extends upward from the lower end side of the first fixed piece portion 23e along the outer surface of the second movable housing 22 and extends downward from the substantially central portion of the second movable housing 22 in the up- And is formed so as to be elastically deformed in the width direction (X direction) of the connector starting from the upper end thereof.

The second fixing piece portion 23g is formed so as to extend upward from the lower end side of one side of the movable portion 23f and is fixed in the fixing hole 21d of the second fixing housing 21.

The board connecting portion 23h extends from the lower end of the second fixing piece 23g in the front and rear direction and extends from the lower surface of the front portion 21a or the rear portion 21b of the second fixing housing 21 to the second fixing housing 21).

That is, one end side (the first fixing piece portion 23e side) and the other end side (the second fixing piece portion 23g side) of the second terminal 23 are arranged to be spaced apart from each other in the longitudinal direction of the connector, And a movable portion 23f is disposed.

Each of the second fixing members 24 is formed by bending a metal plate and is disposed on both sides in the width direction of the second fixing housing 21. [ The second fixing member 24 is formed in a substantially U shape extending from the upper surface of the side surface portion 21c of the second fixing housing 21 to the front surface side and the back surface side, And the back surface. Fixing pieces 24a to be soldered to the substrate 2 are respectively provided at both ends of the second fixing member 24, and the fixing pieces 24a are formed so as to protrude in the front-rear direction. On the upper surface of the second fixing member 24, a protruding portion 24b extending in the front-rear direction is provided.

[Method of mounting on a substrate]

In the connector configured as described above, the fixing piece portion 14a of each first fixing member 14 of the first connector 10 and the board connecting portion 13e of each first terminal 13 are soldered to one substrate 1 The first fixing housing 11 of the first connector 10 is fixed to the substrate 1. [ The fixing piece 24a of each second fixing member 24 of the second connector 20 and the board connecting portion 23h of each second terminal 23 are soldered to the other substrate 2, The second fixing housing 21 of the connector 20 is fixed to the substrate 2. [

[Connection and operation between connectors]

Next, when the first connector 10 and the second connector 20 are connected, as shown in Figs. 15 and 16, the second connector 20 and the board 2 are vertically opposed to each other, The first movable housing 12 of the first connector 10 and the second movable housing 22 of the second connector 20 are fitted to each other.

At the same time that the second movable housing 22 is inserted into the first movable housing 12 and the protrusion 12a of the first movable housing 12 is moved from the insertion opening 22a of the second movable housing 22 to the second movable housing 22, And inserted into the insertion portion 22c in the movable housing 22. [

The respective contact portions 13a of the first terminals 13 are pressed into the space between the first contact portions 23a and the second contact portions 23b of the second terminal 23 and at the same time, The first and second contact portions 23a and 23b of the contact portions 13a and 23a of the second terminal 23 contact each other and the first terminals 13 and the second terminals 23 are connected to each other.

Since the first contact portion 23a of the second terminal 23 contacts the contact portion 13a of the first terminal 13 and then the second contact portion 23b of the second terminal 23 contacts the contact portion 13a of the first terminal 13, Even when foreign matter such as dust or the like adheres to the contact portion 13a of the first terminal 13, the second contact portion 23b contacts after the foreign object is removed by the first contact portion 23a.

If the substrates 1 and 2 mutually displace relative to each other in the front-rear direction (Y direction) or the vertical direction (Z direction) of the connector in the above-mentioned connection state, the first movable housing 12 (Y direction) or the vertical direction (Z direction) of the connector with respect to the first fixed housing 11 so that the positional deviation of the boards 1 and 2 with respect to the front-rear direction or the vertical direction of the connector Is absorbed.

The second movable housing 22 of the second connector 20 is connected to the second fixed housing 21 with respect to the second fixed housing 21 when the boards 1 and 2 mutually displace relative to each other in the width direction The positional deviation of the substrates 1 and 2 with respect to the width direction of the connector is absorbed.

That is, since each of the first terminals 13 of the first connector 10 has the dimension in the width direction (X direction) of the movable portion 13c larger than the dimension in the thickness direction (Y direction or Z direction) Direction (Y direction) or up and down direction (Z direction).

Each second terminal 23 of the second connector 20 has a dimension in the thickness direction (Y direction or Z direction) of the movable portion 23f larger than the dimension in the width direction (X direction) Direction (X direction).

Therefore, when the positional deviation between the substrates 1 and 2 occurs in the front-rear direction (Y direction) of the connector, the movable portion 13c of each first terminal 13 is positioned more movable than the movable portion 23f of each second terminal 23, When the positional deviation between the substrates 1 and 2 is made in the width direction (X direction) of the connector, the movable terminals 13 and 13 of the second terminals 23 The movable portion 23f is greatly elastically deformed.

The movable portion 13c of each first terminal 13 is located between the one end side (the first fixed piece portion 13b side) and the other end side (the second fixed piece portion 13d side) of the first terminal 13 Even if the movable portion 13c of the first terminal 13 is elongated in the up-and-down direction, the first terminal 13 and the second terminal 13 are spaced apart from each other in the front- The vertical dimension of the terminal 13 is not increased.

Similarly, the movable portion 23f of each second terminal 23 is disposed between the one end side (the first fixed piece portion 23e side) and the other end side (the second fixed piece portion 23g side) of the second terminal 23 Even if the movable portion 23f of the second terminal 23 is elongated in the vertical direction because the one end side and the other end side of the second terminal 23 are spaced apart from each other in the longitudinal direction of the connector, There is no possibility that the upper and lower dimensions of the flange 23 are increased.

[Operation and effect of the present embodiment]

As described above, according to the present embodiment, the movable portion 13c of each first terminal 13 of the first connector 10 is dimensioned in the width direction of the movable portion 13c so as to be elastically deformed in the front-rear direction (Y direction) And the movable portion 23f of each second terminal 23 of the second connector 20 is elastically deformed in the width direction (X direction) of the connector in the thickness direction of the movable portion 23f The dimension is formed to be larger than the dimension in the width direction. Therefore, like the conventional terminal, the movable part is formed into a square having a length equal to the plate thickness of the terminal in cross section, and is formed to be sufficiently elastically deformable in both the longitudinal direction and the width direction of the connector, The cross sectional area of each of the movable portions 13c and 23f can be increased, and the allowable current value of each of the terminals 13 and 23 can be increased.

As a result, the permissible current value of each of the terminals 13 and 23 can be increased even in the configuration in which the first and second connectors 10 and 20 move freely in the front-rear direction and the width direction of the connector, It becomes possible. It is of course also possible to use it as a connector which is not for high current depending on the application.

In this case, the one end side (the first fixing piece portion 13b side) and the other end side (the second fixing piece portion 13d side) of the first terminal 13 are arranged to be spaced apart from each other in the front- The movable portion 13c of the first terminal 13 can be formed to be long in the vertical direction without increasing the vertical dimension of the first terminal 13. [

One end side (the first fixing piece portion 23e side) and the other end side (the second fixing piece portion 23g side) of the second terminal 23 are arranged to be spaced apart from each other in the back and forth direction of the connector, The movable portion 23f of the second terminal 23 can be formed to be long in the vertical direction without increasing the vertical dimension of the second terminal 23. [

This makes it possible to increase the amount of movement of the first and second movable housings 12 and 22 without increasing the size of the first and second connectors 10 and 20 in the vertical direction. It is also advantageous when the distance between the substrates 1 and 2 is large because the distance is narrow.

In this case, since the movable portion 13c of the first terminal 13 is formed so as to bend in the up-and-down direction, the bending deformation can be caused in the thickness direction in which the dimension is smaller than the width direction, Can be easily elastically deformed.

Since the movable portion 23f of the second terminal 23 is formed so as to bend in the vertical direction, it is possible to cause the bending deformation in the width direction with the dimension smaller than the thickness direction, starting from the bent portion, It can be easily elastically deformed.

The first terminal 13 is provided with a contact portion 13a which contacts the second terminal 23 and the second terminal 23 is provided with an elastic deformation Since the first and second contact portions 23a and 23b are provided and the first and second contact portions 23a and 23b of the second terminal 23 are disposed at intervals in the connector fitting direction, Even if foreign matter such as dust or the like adheres to the contact portion 13a of the first terminal 13, the second contact portion 23b can be brought into contact with the first terminal 13 after the foreign object is removed by the first contact portion 23a, And the second terminal 23 can be reliably conducted.

In the above embodiment, the second connector 20 having a plurality of contacts having a plurality of elastic piece portions and a plurality of contact portions is exemplified as an object to be connected to the first connector 10. However, a connector having a single contact having only one elastic contact portion and one contact portion may be connected It can be targeted.

The present invention is not limited to the structure in which the movable portion 23 is provided and the fixed housing 21 and the movable housing 22 are provided with the second connector 20 having the movable portion 23 as an object to be connected to the first connector 10. [ A connector that does not have a floating function that is not divided into a plurality of connectors can be connected. The first connector 10 having the movable portion 13 as an object to be connected to the second connector 20 has been described as an example in which the movable portion 13 is not provided and is divided into the fixed housing 11 and the movable housing 12 A connector which does not have a floating function can be connected.

In the above-described embodiment, the structures of the connectors 10 and 20 are described with the opposing directions of the substrates 1 and 2 as the up and down directions. However, in the case where the respective substrates are arranged so as to face each other in the direction other than the up- Of the present invention corresponds to the vertical direction of the present invention.

1, 2: substrate 10: first connector
11: first fixed housing 12: first movable housing
13: first terminal 13c:
20: second connector 21: second fixed housing
22: second movable housing 23: second terminal
23f:

Claims (7)

A connector comprising a first connector attached to one of the substrates and a second connector attached to the other of the substrates, the first and second connectors being fitted to each other to connect the substrates to each other,
The first connector includes a first fixed housing fixed to one board, a first movable housing movably arranged with respect to the first fixed housing, a second movable housing having one end held in the first movable housing and the other end fixed to the first fixed housing, And a first terminal held in the housing,
The first terminal has a movable portion which is elastically deformable in the longitudinal direction of the connector,
Wherein the movable portion is formed such that a width dimension corresponding to a width direction of the connector is larger than a thickness dimension corresponding to a front-rear direction and a vertical direction of the connector,
A second movable housing which is movably disposed with respect to the second fixed housing, and a second movable housing which has one end held by the second movable housing and the other end held by the second movable housing, And a second terminal held in the fixed housing,
The second terminal has a movable portion which is elastically deformable in the width direction of the connector,
Wherein the movable portion is formed such that the thickness dimension corresponding to the front-rear direction and the vertical direction of the connector is larger than the width dimension corresponding to the width direction of the connector. The method according to claim 1,
And the movable portion is formed to bend in a vertical direction of the connector. 3. The method according to claim 1 or 2,
The first terminal is provided with a contact portion which contacts the second terminal and the second terminal is provided with first and second resiliently deformable contact portions which come into contact with the contact portion of the first terminal,
And the first and second contact portions of the second terminal are arranged to be spaced apart from each other in the connector fitting direction. A connector for connecting a board to each other by being fitted to another board attached to one board and another board attached to the other board,
A movable housing which is movably arranged with respect to the fixed housing, a terminal having one end held in the movable housing and the other end held in the fixed housing,
The terminal has first and second contact portions which are in contact with the terminals of the other connector at intervals in the connector fitting direction and movable portions which are elastically deformable in the width direction of the connector,
Wherein the movable portion is formed such that the thickness dimension corresponding to the front-rear direction and the vertical direction of the connector is larger than the width dimension corresponding to the width direction of the connector. 5. The method of claim 4,
And the movable portion is formed so as to bend in a direction opposite to the fitting direction and the fitting direction with respect to the other connector. The method according to claim 4 or 5,
The terminal includes a fixed piece fixed to the movable housing,
A first elastic piece portion having one end connected to the fixed piece and the other end connected to the first contact,
And a second elastic piece portion having one end connected to the fixed piece and the other end connected to the second contact portion. The method according to claim 6,
The housing of the other connector having a protrusion for holding a terminal and being inserted into the movable housing,
And the one end side of the second elastic piece portion has a bending portion that extends from the leading end side of the protruding portion to the outside along the shape of the side surface.

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