JP7065400B2 - Contacts, connectors and connecting devices - Google Patents

Description

The present disclosure relates generally to contacts, connectors and connecting devices, and more particularly to contacts of connectors that are electrically connectable to the mating connector, connectors comprising them, and connecting devices comprising them.

Patent Document 1 describes a board-to-board connection device including a socket as one connector and a header as a mating connector.

In Patent Document 1, the connector includes a plurality of contacts (socket contacts) and a housing (socket body) for holding the contacts. Each contact is made of a strip-shaped metal material and includes a holding portion and a bending portion extending from the holding portion. The holding portion is formed in a U shape and is held by the housing so as to sandwich the peripheral wall of the housing. The flexible portion can be flexed in a direction that changes the distance between the flexible portion and the holding portion. The bent portion is formed with a contact portion (contact convex portion) protruding in a direction away from the holding portion. When the mating connector is connected to the connector, the contact portion of the contact comes into contact with a part of the contact of the mating connector, and both contacts are electrically connected.

Japanese Unexamined Patent Publication No. 2005-294036

In the connector having the above-mentioned configuration, it is necessary to secure a certain length of the contact (particularly the flexible portion) so that the contact pressure between the two contacts can be secured by the elasticity of the flexible portion of the contact. However, as the contact length increases, the electrical resistance of the contact itself increases, which hinders the reduction of loss in the connector.

The present disclosure has been made in view of the above reasons, and an object of the present invention is to provide contacts, connectors, and connecting devices capable of suppressing electrical resistance to a small value.

The contact according to one aspect of the present disclosure is a contact of a connector that can be electrically connected to the mating connector. The contact includes a contact portion, a base portion, a connecting portion, and a protruding portion. The contact portion can contact the contact of the mating connector. At least a part of the base portion faces the contact portion via a gap. The connecting portion connects the contact portion and the base portion. The protruding portion protrudes from the contact portion toward the base portion in a facing direction in which the contact portion and the base portion face each other. The base has a facing portion facing the protruding portion. At least in the connected state, the contact portion conducts with the facing portion in the second path. The connection state is a state in which the contact portion is in contact with the contact of the mating connector. The second route is a route different from the first route including the connecting portion and includes the protruding portion. The base portion, the connecting portion, the contact portion, and the projecting portion are continuously coupled so as to form an energization path along a plane. One end of the contact portion in the extension direction of the energization path is coupled to the connecting portion, and the other end is coupled to the protruding portion. In the height direction intersecting the facing directions in the one plane, the height dimension of the protruding portion seen from the connecting portion is equal to or less than the height dimension of the base portion seen from the connecting portion.
The contact according to one aspect of the present disclosure is a contact of a connector that can be electrically connected to the mating connector. The contact includes a contact portion, a base portion, a connecting portion, and a protruding portion. The contact portion can contact the contact of the mating connector. At least a part of the base portion faces the contact portion via a gap. The connecting portion connects the contact portion and the base portion. The protruding portion protrudes from the contact portion toward the base portion in a facing direction in which the contact portion and the base portion face each other. The base has a facing portion facing the protruding portion. At least in the connected state, the contact portion conducts with the facing portion in the second path. The connection state is a state in which the contact portion is in contact with the contact of the mating connector. The second route is a route different from the first route including the connecting portion and includes the protruding portion. The protruding portion conducts with the facing portion through a conductive member sandwiched between the protruding portion and the facing portion.
The contact according to one aspect of the present disclosure is a contact of a connector that can be electrically connected to the mating connector. The contact includes a contact portion, a base portion, a connecting portion, and a protruding portion. The contact portion can contact the contact of the mating connector. At least a part of the base portion faces the contact portion via a gap. The connecting portion connects the contact portion and the base portion. The protruding portion protrudes from the contact portion toward the base portion in a facing direction in which the contact portion and the base portion face each other. The base has a facing portion facing the protruding portion. At least in the connected state, the contact portion conducts with the facing portion in the second path. The connection state is a state in which the contact portion is in contact with the contact of the mating connector. The second route is a route different from the first route including the connecting portion and includes the protruding portion. The contact is capable of contacting the contact of the mating connector, and further includes a second contact portion different from the first contact portion which is the contact portion. The protruding portion is formed at a portion connecting the first contact portion and the second contact portion.

The connector according to one aspect of the present disclosure includes the contact and a housing for holding the contact.

The connecting device according to one aspect of the present disclosure includes the connector and the mating connector.

The present disclosure has the advantage that the electrical resistance can be kept small.

FIG. 1A is a schematic view of an end face in a non-connected state showing the connecting device according to the first embodiment. FIG. 1B is a schematic view of an end face in a connected state showing the same connection device. FIG. 2A is a perspective view of the above-mentioned connecting device in a non-connected state. FIG. 2B is a perspective view of the same connection device in a connected state. FIG. 3A corresponds to the cross-sectional view taken along the line X1-X1 of FIG. 2B, and is a cross-sectional view showing a non-connected state of the above-mentioned connecting device. FIG. 3B corresponds to the cross-sectional view taken along the line X1-X1 of FIG. 2B, and is a cross-sectional view showing a connection state of the connection device of the same. 4A is a perspective view of the contact according to the first embodiment, FIG. 4B is a front view of the same contact, and FIG. 4C is a right side view of the same contact. 5A to 5D are schematic views showing a main part of a contact according to a modified example of the first embodiment. FIG. 6A is a perspective view of the connecting device according to the second embodiment in a non-connected state. FIG. 6B is a perspective view of the connection device in the same connected state. FIG. 7A corresponds to the cross-sectional view taken along the line X1-X1 of FIG. 6B, and is a cross-sectional view showing a non-connected state of the above-mentioned connecting device. FIG. 7B corresponds to the cross-sectional view taken along the line X1-X1 of FIG. 6B, and is a cross-sectional view showing a connection state of the connection device of the same. FIG. 8A is a cross-sectional view showing a non-connected state of the connecting device according to the third embodiment. FIG. 8B is a cross-sectional view showing a connection state of the same connection device. 9A is a perspective view showing an intermediate product of a contact of a connecting device according to a modification of the third embodiment, and FIG. 9B is a perspective view showing a finished product of the same contact. FIG. 10A is a cross-sectional view of a main part showing a non-connected state of the connecting device according to the fourth embodiment. FIG. 10B is a cross-sectional view of a main part showing a connection state of the same connection device. 11A is a perspective view of the contact according to the fifth embodiment, and FIG. 11B is a front view of the same contact. 12A is a perspective view of the other contact according to the fifth embodiment, and FIG. 12B is a perspective view of the other contact according to the fifth embodiment.

(Embodiment 1)
(1) Overview Hereinafter, the connector 101 according to the present embodiment will be described with reference to FIGS. 1A to 2B. However, each figure described below is a schematic view, and the length or size ratio of each part in the figure does not necessarily reflect the actual dimensional ratio.

The connector 101 according to this embodiment can be electrically connected to the mating connector 102. The connector 101 constitutes the connecting device 100 together with the mating connector 102. In other words, the connecting device 100 according to the present embodiment includes a connector 101 and a mating connector 102. In the connecting device 100, there are two states: a "connected state" in which the connector 101 and the mating connector 102 are electrically connected, and a "non-connected state" in which the connector 101 and the mating connector 102 are not electrically connected. It is possible to switch between two states. In the present embodiment, as an example, the connector 101 is a socket (female connector), and the mating connector 102 is a header (male connector).

The connection device 100 is used, for example, for electrical connection between a plurality of circuit boards 71, 72 (see FIG. 3A) such as a rigid board (hard board) or a flexible printed wiring board, that is, a board-to-board electrical connection. Be done. As an example, the connection device 100 is used for electrical connection between a plurality of circuit boards 71 and 72 mounted on a mobile terminal such as a smartphone. However, the purpose of the connecting device 100 is not limited to the mobile terminal, and the connecting device 100 may be used for electronic devices other than the mobile terminal, such as a camera module, an in-vehicle device, or a home electric appliance. Further, the connection device 100 is not limited to the use of electrically connecting a plurality of circuit boards 71 and 72, and is not limited to an application, for example, between a circuit board and a display, or between a circuit board and a battery, and a plurality of appropriate devices. It may be used for electrical connection between connection objects.

The connector 101 according to the present embodiment includes a housing 1 and a plurality of contacts 2. The housing 1 holds a plurality of contacts 2. In this embodiment, the plurality of contacts 2 adopt a common configuration. Therefore, the configuration described below for any one of the plurality of contacts 2 will be applied to all of the plurality of contacts 2.

As shown in FIGS. 1A and 1B, the contact 2 includes a contact portion 21, a base portion 22, a connecting portion 23, and a protruding portion 24. The contact portion 21 contacts the contact 5 (hereinafter, also referred to as “counterpart contact 5”) of the mating side connector 102 in the “connection state” in which the mating side connector 102 is connected to the connector 101. At least a part of the base portion 22 faces the contact portion 21 via a gap. The connecting portion 23 connects the contact portion 21 and the base portion 22. The protruding portion 24 projects from the contact portion 21 toward the base portion 22 in the facing direction in which the contact portion 21 and the base portion 22 face each other.

Here, the base portion 22 has a facing portion 221 facing the protruding portion 24 in the thickness direction of the base portion 22. In other words, the protruding portion 24 protruding from the contact portion 21 toward the base portion 22 faces at least a part of the base portion 22 (opposing portion 221). In the contact 2 configured in this way, at least in the "connected state", as shown in FIG. 1B, the second path R2 which is a path different from the first path R1 including the connecting portion 23 and includes the protruding portion 24. The contact portion 21 is electrically connected to the facing portion 221.

That is, since the contact portion 21 and the base portion 22 are connected by the connecting portion 23, the contact portion 21 and the facing portion 221 of the base portion 22 are always electrically connected via the first path R1 including the connecting portion 23. Is connected. Further, at least in the "connection state", that is, in the state where the mating connector 102 is connected to the connector 101, the contact portion 21 and the facing portion 221 are electrically connected to each other via the second path R2 in addition to the first path R1. Is connected. The second route R2 is a route different from the first route R1 including the connecting portion 23, does not include the connecting portion 23, and includes the protruding portion 24.

In short, in the contact 2, at least in the "connected state", between the contact portion 21 and the facing portion 221 is a first path R1 including the connecting portion 23 and a second path R2 including the protruding portion 24. Two current paths (energization paths) are formed. Therefore, at least in the "connected state", the electric resistance between the contact portion 21 and the base portion 22 (opposing portion 221) is smaller than that in the configuration in which the contact portion 21 conducts with the facing portion 221 only in the first path R1. Become. As a result, in the contact 2 according to the present embodiment, the connector 101 including the contact 2, and the connecting device 100 including the contact 2, the electric resistance can be suppressed to a small value.

(2) Details Hereinafter, the contact 2 according to the present embodiment, the connector 101 including the contact 101, and the connecting device 100 including the contact 2 will be described in detail with reference to FIGS. 1A to 4C.

Hereinafter, unless otherwise specified, the direction in which the connector 101 and the mating connector 102 are coupled or separated from each other is defined as the vertical direction (also referred to as "first direction"), and the mating connector 102 side is upward when viewed from the connector 101. It is explained as. Further, a direction orthogonal to the vertical direction and the lateral direction of the housing 1 will be described as a left-right direction (also referred to as a "second direction"). Further, a direction orthogonal to both the vertical direction and the horizontal direction, that is, the longitudinal direction of the housing 1 will be described as a front-rear direction (a direction orthogonal to the paper surface of FIG. 1A, also referred to as a "third direction"). That is, in FIG. 1A and the like, each direction of up, down, left, right, front, and back is shown by the arrows of "top", "bottom", "left", "right", "front", and "rear". Is specified. However, these directions are not intended to define the directions in which the contact 2, the connector 101, and the connecting device 100 are used. In addition, the arrows indicating each direction in the drawing are shown only for the sake of explanation, and are not accompanied by an entity.

(2.1) Overall Configuration of Connector First, the overall configuration of the connector 101 according to the present embodiment will be described.

In the present embodiment, as described above, the connector 101 is a socket that can be electrically connected to the mating connector 102 as a header, and as shown in FIGS. 2A to 3B, the connector 101 and a plurality (here, here). 40) contacts 2 and. Further, in the present embodiment, the connector 101 further includes a pair of mounting brackets 3.

The housing 1 is a resin molded body. The housing 1 has electrical insulation. The housing 1 has a bottom wall 11 and a peripheral wall 12. The bottom wall 11 is formed in a rectangular shape that is longer in the front-rear direction than in the left-right direction in a plan view. The peripheral wall 12 projects upward from the entire circumference of the outer peripheral portion of one surface (upper surface) of the bottom wall 11 in the thickness direction. In other words, the housing 1 has a rectangular parallelepiped shape flat in the vertical direction, and a recess 14 surrounded by a peripheral wall 12 in the central portion of the upper surface 13 which is a facing surface to the mating connector 102 on both sides in the vertical direction. Have.

The peripheral wall 12 includes a pair of first peripheral walls 121 and a pair of second peripheral walls 122. The pair of first peripheral walls 121 are portions of the peripheral walls 12 extending substantially parallel to each other in the third direction (longitudinal direction of the housing 1), and face each other in the left-right direction via the recess 14. The pair of second peripheral walls 122 are portions of the peripheral walls 12 extending substantially parallel to the second direction (the lateral direction of the housing 1), and face each other in the front-rear direction via the recess 14. The pair of second peripheral walls 122 connect the ends of the pair of first peripheral walls 121 to each other. That is, the housing 1 has a shape in which one opening surface (lower surface) of the peripheral wall 12 having a square tubular cross section is closed by the bottom wall 11.

The plurality of contacts 2 are held by a pair of first peripheral walls 121 in the housing 1. In the present embodiment, the plurality of contacts 2 are fixed to the pair of first peripheral walls 121 by press fitting. That is, the plurality of contacts 2 are held in the housing 1 by being pushed from one direction (upper in FIGS. 2A to 3B) with respect to the pair of first peripheral walls 121. Here, 20 contacts 2 are held in each of the pair of first peripheral walls 121. The 20 contacts 2 held on each first peripheral wall 121 are arranged side by side at equal intervals in the longitudinal direction (front-back direction) of the first peripheral wall 121.

That is, the 40 contacts 2 are divided into a pair of contact groups of 20 each. The 20 contacts 2 constituting one contact group are held by one first peripheral wall 121, and the 20 contacts 2 constituting the other contact group are held by the other first peripheral wall 121. That is, the 20 contacts 2 constituting each contact group are arranged side by side in a line along the front-rear direction. Further, the 20 contacts 2 constituting one contact group and the 20 contacts 2 constituting the other contact group are plane-symmetrical with respect to the reference plane that divides the housing 1 into two equal parts in the left-right direction. Have been placed. In other words, the contacts 2 constituting the pair of contact groups are symmetrically arranged so as to face each other with the recess 14 interposed therebetween.

As described above, the contact 2 includes a contact portion 21, a base portion 22, a connecting portion 23, and a protruding portion 24. Further, in the present embodiment, the contact 2 further includes a connecting portion 25. The contact portion 21, the base portion 22, the connecting portion 23, the protruding portion 24, and the connecting portion 25 are seamlessly and integrally configured. When the contact 2 is held by the housing 1, the connecting portion 25 protrudes from each end surface of the housing 1 in the left-right direction. The connecting portion 25 protrudes from the lower end portion of the housing 1, and the lower surface of the connecting portion 25 is located slightly below the lower surface 15 of the housing 1 (see FIG. 3A). Therefore, for example, the connection portion 25 is joined to the circuit board 71 by a joining means such as soldering, so that the circuit board 71 and the contact 2 are electrically and mechanically connected.

Further, in a state where the contact 2 is held by the housing 1, at least a part of the contact portion 21 protrudes from the pair of surfaces facing each other in the pair of first peripheral walls 121. In other words, of the inner side surfaces of the recess 14 in the housing 1, at least a part of the contact portion 21 in the contact 2 protrudes from the pair of inner side surfaces facing each other in the left-right direction. As a result, in the connected state, the contact portion 21 comes into contact with the mating contact 5, and the connector 101 and the mating connector 102 are electrically connected.

The contact 2 is made of a conductive metal material, and is, for example, made of a copper alloy such as a Corson-based copper alloy or phosphor bronze. A plating layer such as gold plating is appropriately formed on the surface of the contact 2. Further, in the present embodiment, the contact 2 has elasticity at least in the connecting portion 23. Therefore, in the connected state, at least the connecting portion 23 is elastically deformed, so that a force in the direction of being pressed against the mating contact 5 acts on the contact portion 21, and the contact portion 21 and the mating contact 5 are separated from each other. Contact pressure is ensured. The configuration of the contact 2 will be described in more detail in the column of "(2.3) Contact".

The pair of mounting brackets 3 are fixed to both ends of the housing 1 in the front-rear direction. The mounting bracket 3 is made of a metal material and, for example, is made of a copper alloy. The mounting bracket 3 is fixed to the housing 1 in a state where at least a part thereof is embedded in each second peripheral wall 122 of the housing 1. Each mounting bracket 3 has a pair of mounting pieces 31 protruding from both sides of the housing 1 in the left-right direction, that is, protruding from the pair of first peripheral walls 121 on both sides in the left-right direction. The pair of mounting pieces 31 project from the lower end portion of the housing 1, and the lower surface of the mounting piece 31 is located in the same plane as the lower surface of the connecting portion 25.

The pair of mounting brackets 3 have a function of reinforcing the housing 1 (particularly, the second peripheral wall 122). Further, the mounting bracket 3 can be joined to the circuit board 71 with a pair of mounting pieces 31 by a joining means such as soldering, in the same manner as the connecting portion 25 of the contact 2. As a result, the stress generated between the connector 101 and the circuit board 71 can be received by the mounting bracket 3, and the stress applied to the contact 2 can be reduced. In the present embodiment, since the connector 101 includes a pair of mounting brackets 3 having a pair of mounting pieces 31, a total of four mounting pieces 31 are located at the four corners of the housing 1 in a plan view. Therefore, the connector 101 can be relatively firmly attached to the circuit board 71.

In the present embodiment, the housing 1 is an insert molded product having a pair of mounting brackets 3 as an insert product. Each mounting bracket 3 is formed so that a portion (joining portion) of the mounting piece 31 to be joined to the circuit board 71 extends substantially in parallel with the circuit board 71. That is, the thickness directions of the joint portions of the mounting pieces 31 coincide with each other in the vertical direction.

The vertical dimension (height direction) of the housing 1 is, for example, several [mm] or less. Further, the dimension of the housing 1 in the front-rear direction (longitudinal direction) is, for example, a dozen [mm]. Further, the dimension of the housing 1 in the left-right direction (short direction) is, for example, a number [mm]. Further, the distance between the plurality of contacts 2, that is, the pitch is, for example, the number of commas [mm].

(2.2) Configuration of the mating side connector The configuration of the mating side connector 102 will be described below.

In the present embodiment, as described above, the mating side connector 102 is a header that can be electrically connected to the connector 101 as a socket, and as shown in FIGS. 2A to 3B, the mating side housing 4 and a plurality of (as shown in FIGS. 2A to 3B). Here, it is provided with a contact 5 on the other side (40). That is, the mating side housing 4 is the header side housing, and the mating side contact 5 is the header side contact. Further, in the present embodiment, the mating side connector 102 further includes a pair of mating side mounting metal fittings 6 (header side mounting metal fittings).

The mating housing 4, the plurality of mating contacts 5, and the pair of mating mounting brackets 6 correspond to the housing 1, the plurality of contacts 2, and the pair of mounting brackets 3 in the connector 101, respectively.

That is, the mating housing 4 is a resin molded body and has electrical insulation. The mating housing 4 holds a plurality of mating contacts 5. The mating housing 4 is formed in a rectangular parallelepiped shape that is longer in the front-rear direction than in the left-right direction in a plan view. Here, in the connected state in which the mating connector 102 is connected to the connector 101, the mating housing has a shape and dimensions corresponding to the recess 14 so that at least a part of the mating housing 4 fits into the recess 14 of the housing 1. 4 is configured.

Twenty of the plurality of mating contact 5s are held along each surface of the mating housing 4 in the left-right direction. The plurality of mating contact 5s are fixed to the mating housing 4 in a state where at least a part thereof is embedded in the mating housing 4. The plurality of mating contact 5s held in the mating housing 4 are arranged side by side at equal intervals in the longitudinal direction (front-back direction) of the mating housing 4.

That is, the 40 counterpart contacts 5 are divided into a pair of contact groups of 20 each. The 20 mating contacts 5 constituting one contact group and the 20 mating contacts 5 constituting the other contact group refer to a reference plane that divides the mating housing 4 into two equal parts in the left-right direction. , Arranged plane-symmetrically.

As shown in FIG. 3A, the mating contact 5 includes a contact piece 51, a winding piece 52, and a connecting piece 53. The contact piece 51, the winding piece 52, and the connecting piece 53 are seamlessly integrally configured. The contact piece 51 is extended along the height direction of the mating housing 4, that is, the vertical direction, and is a portion where the contact portion 21 of the contact 2 comes into contact with the contact piece 51 in the connected state. The winding piece 52 is a portion protruding from the lower end of the contact piece 51, and is formed in a U shape so as to wrap the lower end of the mating housing 4. The connection piece 53 is a portion protruding from the upper end portion of the contact piece 51. The connecting piece 53 is formed so as to protrude from each end surface of the mating side housing 4 in the left-right direction and extend in the lateral direction (left-right direction) of the mating side housing 4. Therefore, for example, the connection piece 53 is joined to the circuit board 72 by a joining means such as soldering, so that the circuit board 72 and the mating contact 5 are electrically and mechanically connected.

Here, the contact piece 51 has a protrusion 511 and a recess 512 on the surface facing the contact 2 in the connected state. The protrusion 511 has a larger protrusion amount toward the upper side. The recess 512 is formed above the protrusion 511 and at a position corresponding to the contact portion 21 of the contact 2 in the connected state.

According to the above-described configuration, when the mating side housing 4 is pushed into the recess 14 of the housing 1 at the transition from the non-connected state (disconnected state) to the connected state (coupled state), the contact 2 of the connector 101 The contact portion 21 gets over the protrusion 511 and fits into the recess 512. Therefore, at the time of transition from the connected state to the disconnected state, the contact portion 21 escapes from the recess 512 and the mating housing 4 is moved from the recess 14 of the housing 1 with a force equal to or higher than a certain force capable of overcoming the protrusion 511. Need to pull out. As described above, the protrusion 511 and the recess 512 form a locking mechanism capable of maintaining the connected state between the connector 101 and the mating connector 102.

The mating contact 5 is made of a conductive metal material, and is, for example, made of a copper alloy such as Corson-based copper alloy or phosphor bronze. A plating layer such as gold plating is appropriately formed on the surface of the mating contact 5.

The pair of mating side mounting brackets 6 are fixed to both ends of the mating side housing 4 in the front-rear direction. The mating side mounting bracket 6 is made of a metal material, and is made of a copper alloy as an example. At least a part of the mating side mounting bracket 6 is fixed to the mating side housing 4 in a state of being embedded in the mating side housing 4.

The pair of mating side mounting brackets 6 have a function of reinforcing the mating side housing 4. The mating side mounting bracket 6 can be joined to the circuit board 72 by a joining means such as soldering, in the same manner as the connecting piece 53 of the mating side contact 5. As a result, the stress generated between the mating side connector 102 and the circuit board 72 can be received by the mating side mounting bracket 6, and the stress applied to the mating side contact 5 can be reduced.

In the present embodiment, the mating side housing 4 is an insert molded product having a plurality of mating side contacts 5 and a pair of mating side mounting brackets 6 as insert products.

The protrusion 511 or the recess 512 formed on the mating contact 5 (header side contact) may be omitted as appropriate.

(2.3) Contact Hereinafter, the configuration of the contact 2 in the connector 101 will be described in more detail with reference to FIGS. 1A, 1B, 4A, 4B and 4C. 1A and 1B show only one contact 2 and one mating contact 5 in a cut end view showing a cross section similar to that of FIGS. 3A and 3B. FIG. 1A shows a “non-connected state” in which the mating connector 102 is not connected to the connector 101, and FIG. 1B shows a “connected state” in which the mating connector 102 is connected to the connector 101. Further, in FIGS. 1A and 1B, "hatching" indicating that the cross section is used is omitted.

As described above, the contact 2 according to the present embodiment includes a contact portion 21, a base portion 22, a connecting portion 23, a protruding portion 24, and a connecting portion 25. In the present embodiment, the contact 2 is made of a strip-shaped plate having a predetermined thickness (for example, 0.1 [mm] or less), and is formed by bending the plate in the thickness direction. That is, the contact portion 21, the base portion 22, the connecting portion 23, the protruding portion 24, and the connecting portion 25 are integrally formed of a single plate material.

The contact portion 21 contacts the mating contact 5 in the connected state as shown in FIG. 1B. In the present embodiment, as described above, the contact portion 21 is fitted into the recess 512 in the connected state, so that the contact portion 21 comes into contact with the bottom surface of the recess 512 of the mating contact 5. Such a contact portion 21 faces at least a part of the base portion 22 via a gap. In other words, at least a part of the base 22 faces the contact portion 21 via a gap. In the present embodiment, at least the facing portion 221 of the base portion 22 faces the contact portion 21 in the left-right direction.

Further, the contact portion 21 has a protrusion 211 that is convex in a direction away from the base portion 22 in the facing direction in which the contact portion 21 and the base portion 22 face each other. In the present embodiment, the contact portion 21 and the base portion 22 face each other in the left-right direction, which is the lateral direction of the housing 1, so that the contact direction between the contact portion 21 and the base portion 22 is in the left-right direction. In the example of FIG. 1A, since the base portion 22 is located on the left side when viewed from the contact portion 21, the protrusion portion 211 is convex in the left-right direction away from the base portion 22, that is, to the right. In the present embodiment, the contact portion 21 is formed in a substantially V shape open to the left by bending the plate material at a substantially right angle in the thickness direction thereof. The apex angle portion of such a substantially V-shaped contact portion 21 constitutes the protrusion 211.

Further, in the present embodiment, as shown in FIG. 4A, the facing surface of the contact portion 21 with the mating side contact 5 is formed in a shape in which the central portion of the contact 2 in the lateral direction is raised toward the mating side contact 5. Has been done. That is, the surface of the contact portion 21 facing the mating contact 5 has a substantially V-shaped cross-sectional shape orthogonal to the longitudinal direction of the contact 2. In other words, the surface of the contact portion 21 facing the mating side contact 5 is separated from the base portion 22 with the protrusion 211 as the apex in both the cross-sectional shape orthogonal to the vertical direction and the cross-sectional shape orthogonal to the front-rear direction. It is formed in a substantially triangular shape that is convex in the direction. In other words, the contact portion 21 has a tapered shape toward the mating contact 5, and more specifically, has a substantially quadrangular pyramid shape with the protrusion 211 as the apex. As a result, even if a foreign substance is caught between the contact portion 21 and the mating contact 5, the contact between the contact portion 21 and the mating contact 5 can be reliably ensured.

At least a part (opposing portion 221 in this embodiment) of the base portion 22 faces the contact portion 21 via a gap. The contact 2 is held in the housing 1 by the base 22. In this embodiment, the base 22 is fixed to the first peripheral wall 121 (see FIG. 3A) in the housing 1 by press fitting.

Specifically, the base portion 22 includes a pair of leg pieces 22a and 22b extending substantially parallel to each other in the vertical direction, and a connecting piece 22c connecting the upper ends of the pair of leg pieces 22a and 22b. The base portion 22 is formed by the pair of leg pieces 22a and 22b and the connecting piece 22c in a substantially U-shape that is open downward. The base portion 22 having such a shape is fixed to the first peripheral wall 121 with the first peripheral wall 121 sandwiched between the pair of leg pieces 22a and 22b by being pushed from above with respect to the first peripheral wall 121. .. Here, the dimension (width dimension) of the base portion 22 in the lateral direction is set larger than that of the contact portion 21, the connecting portion 23, the protruding portion 24, and the connecting portion 25. On the other hand, grooves are formed on both sides of the first peripheral wall 121 in the thickness direction (left-right direction) to accommodate the pair of leg pieces 22a and 22b, respectively. Since the width dimension of each groove is set smaller than the dimension in the lateral direction of the base portion 22, the base portion 22 is fixed to the first peripheral wall 121 by press fitting. That is, the base 22 is fixed to the housing 1 so that at least a pair of leg pieces 22a and 22b are embedded in the groove of the first peripheral wall 121.

Here, the base portion 22 has a facing portion 221 facing the protruding portion 24. In the present embodiment, the facing portion 221 is one of the pair of leg pieces 22a and 22b located on the center side of the housing 1 in the lateral direction, that is, on the inner side surface side of the recess 14 (see FIG. 3A). It consists of parts.

The protrusion 211 of the contact portion 21 and the facing portion 221 of the base portion 22 are located on a straight line L1 (see FIG. 4B) along the facing direction (left-right direction) between the contact portion 21 and the base portion 22. In other words, the facing portion 221 and the protruding portion 24 and the protruding portion 211 are arranged side by side on a straight line L1 extending in the left-right direction, and the protruding portion 24 is located between the facing portion 221 and the protruding portion 211.

The connecting portion 23 connects the contact portion 21 and the base portion 22. In the present embodiment, the connecting portion 23 connects the lower end portion of the leg piece 22a located on the center side in the lateral direction of the housing 1 and the lower end portion of the contact portion 21 of the pair of leg pieces 22a and 22b. .. The connecting portion 23 is formed in a substantially U shape that is open upward. In other words, the connecting portion 23 has a folded-back portion 231 that is convex downward. The folded-back portion 231 is formed in a substantially semicircular shape that is convex downward. The folded-back portion 231 includes an arm portion 232 connected to the contact portion 21, and supports the contact portion 21 so that the arm portion 232 is separated from the base portion 22. The connecting portion 23 has elasticity at least in the folded-back portion 231 and can be elastically deformed in a direction in which at least the radius of curvature of the folded-back portion 231 is reduced, that is, the distance between the contact portion 21 and the base portion 22 is reduced.

That is, when the folded-back portion 231 acts as a spring and the force pushing the contact portion 21 toward the base portion 22 acts on the contact portion 21, at least the folded-back portion 231 is elastically deformed and the contact portion 21 moves in a direction approaching the base portion 22. However, the contact 2 has the shape shown in FIG. 1B. On the other hand, when the force pushing the contact portion 21 toward the base portion 22 is released, the contact portion 21 moves away from the base portion 22 due to the elastic force (restoring force) of the folded portion 231, and the contact 2 is shown in FIG. 1A. It has the shape shown.

The protruding portion 24 projects from the contact portion 21 toward the base portion 22 in the facing direction in which the contact portion 21 and the base portion 22 face each other. In the present embodiment, as described above, the facing direction between the contact portion 21 and the base portion 22 is the left-right direction. In the example of FIG. 1A, since the base portion 22 is located on the left side when viewed from the contact portion 21, the protruding portion 24 projects from the contact portion 21 to the base portion 22 side in the left-right direction, that is, to the left side. Here, in the non-connected state as shown in FIG. 1A, that is, in the state where the contact portion 21 is not in contact with the mating contact 5, the protruding portion 24 faces the facing portion 221 via a gap.

Specifically, the protruding portion 24 is connected to the upper end portion of the contact portion 21. The protruding portion 24 has a substantially V-shaped bent portion 241 that is convex upward. In the present embodiment, the folded portion 231 of the connecting portion 23 is located below the bent portion 241. In other words, the protruding portion 24 has a bent portion 241 that is convex in a direction away from the connecting portion 23 (upward). Further, the connecting portion 23 has a folded portion 231 that is convex in a direction away from the bent portion 241 (downward). The bent portion 241 has a larger curvature than the folded portion 231. That is, when the folded portion 231 having a substantially semicircular arc shape and the bent portion 241 having a substantially V shape are compared, the curvature of the bent portion 241 is larger. In other words, the radius of curvature of the bent portion 241 is smaller than the radius of curvature of the folded portion 231.

Further, in the present embodiment, the protruding portion 24 further has an extension piece 242 extended downward from the end portion of the substantially V-shaped bent portion 241 opposite to the contact portion 21. The extension piece 242 includes a portion extending downward from the bent portion 241 in parallel with the base portion 22 and a portion extending diagonally downward from the tip end (lower end) thereof so as to gradually widen the distance from the base portion 22. Here, the protruding portion 24 faces the facing portion 221 of the base portion 22 at least in a portion of the extension piece 242 that is substantially parallel to the base portion 22. Due to such a shape, the protrusion 24 has the minimum distance from the base 22 in the left-right direction at a portion of the extension piece 242 that is substantially parallel to the base 22. In other words, the portion of the base portion 22 that minimizes the distance to the protruding portion 24 in the direction facing the protruding portion 24 constitutes the facing portion 221.

The protrusion 24 has elasticity at least in the bent portion 241 and can be elastically deformed in a direction in which at least the radius of curvature of the bent portion 241 is reduced, that is, the distance between the extension piece 242 and the contact portion 21 is reduced. ..

The facing surface facing the facing portion 221 in the protruding portion 24 includes a flat surface 243. On the other hand, the facing surface of the facing portion 221 facing the protruding portion 24 includes the base side flat surface 222. Therefore, the protruding portion 24 and the facing portion 221 face each other with the flat flat surface 243 and the base side flat surface 222 facing each other so as to abut against each other.

With the configuration as described above, the base portion 22, the connecting portion 23, the contact portion 21, and the protruding portion 24 are continuously connected so as to form an energization path R0 along one plane as shown in FIG. 1A. .. Then, one end (lower end) of the contact portion 21 in the extension direction of the energization path R0 is coupled to the connecting portion 23, and the other end (upper end) is coupled to the protruding portion 24. In other words, the contact 2 made of a single plate forms a continuous energization path R0 that passes through the base portion 22, the connecting portion 23, the contact portion 21, and the protruding portion 24 in this order. The "one plane" referred to in the present disclosure is a virtual plane, and in the present embodiment, is a plane orthogonal to the longitudinal direction (front-back direction) of the housing 1.

Further, as shown in FIGS. 4B and 4C, the height of the protruding portion 24 as seen from the connecting portion 23 in the height direction (vertical direction) at which the contact portion 21 and the base portion 22 intersect in the facing direction in the one plane. The vertical dimension H2 is smaller than the height dimension H1 of the base portion 22 as seen from the connecting portion 23. Here, both height dimensions H1 and H2 are based on the lower end of the connecting portion 23, the height dimension H1 is the distance from the lower end of the connecting portion 23 to the upper end of the base 22, and the height dimension H2 is. , The distance from the lower end of the connecting portion 23 to the upper end of the protruding portion 24. In short, in the present embodiment, the upper end of the protrusion 24 is located lower (lower) than the upper end of the base 22.

The connection portion 25 is electrically connected to the base portion 22. As described above, the connection portion 25 is a portion to be joined to the circuit board 71 by a joining means such as soldering. In other words, the contact 2 can be connected to the circuit board 71 at the connection portion 25. Here, as shown in FIG. 1A, the base portion 22 is located between the connecting portion 25 and the connecting portion 23 on the energization path R0. That is, one end of the energization path R0 in the base 22 in the extension direction is coupled to the connecting portion 25, and the other end is coupled to the connecting portion 23. Specifically, the connecting portion 25 is connected to the lower end portion of the pair of leg pieces 22a, 22b located on the side opposite to the center in the lateral direction of the housing 1. More specifically, the connecting portion 25 is substantially orthogonal to the leg piece 22b from the lower end portion of the leg piece 22b to the side opposite to the leg piece 22b in the facing direction (left-right direction) of the pair of leg pieces 22a and 22b. It is formed so as to extend. In other words, the corner portion between the leg piece 22b and the connecting portion 25 is formed by bending the plate material constituting the contact 2 at a substantially right angle in the thickness direction thereof. The connection portion 25 extends substantially parallel to the circuit board 71, and is joined to the circuit board 71 in a state where the lower surface thereof (the surface facing the circuit board 71) is in contact with the circuit board 71. The tip surface (the end surface on the opposite side of the leg piece 22b) of the connecting portion 25 extending from the leg piece 22b is substantially orthogonal to the surface of the circuit board 71. In other words, the contact 2 made of a single plate forms a continuous energization path R0 that passes through the connecting portion 25, the base portion 22, the connecting portion 23, the contact portion 21, and the protruding portion 24 in this order.

Further, the dimension (width dimension) of the contact 2 in the lateral direction is not uniform for the contact portion 21, the base portion 22, the connecting portion 23, the protruding portion 24, and the connecting portion 25, and differs depending on each portion as described below. .. That is, as shown in FIG. 4C, the width dimension of the contact 2 is roughly classified into four stages of width dimensions W1, W2, W3, and W4. The relative relationship between the width dimensions W1, W2, W3, and W4 in these four stages is represented by "W1 <W2 <W3 <W4". The width dimension of each of the contact portion 21, the connecting portion 23, the protruding portion 24, and the connecting portion 25 is the smallest width dimension W1 among the width dimensions W1, W2, W3, and W4. On the other hand, the width dimension of at least the connecting piece 22c of the base portion 22 is the width dimension W2 (> W1). The width dimension of the leg piece 22a in the base portion 22 is basically the width dimension W2 like the connecting piece 22c, but the width dimension of the central portion in the longitudinal direction (vertical direction) of the leg piece 22a is the width dimension W3 (>. W2). Further, the width dimension of the leg piece 22b in the base portion 22 is the width dimension W4 (> W3) which is the largest among the width dimensions W1, W2, W3, and W4. That is, in the base portion 22, the width dimension of each portion is set in the order of the leg piece 22b, the leg piece 22a, and the connecting piece 22c so that the width dimension becomes smaller, whereby the base portion 22 is the first in the housing 1. It is fixed to the peripheral wall 121 (see FIG. 3A) by press fitting.

By the way, in the contact 2 according to the present embodiment, as shown in FIG. 1B, at least in the "connected state", the second path is different from the first path R1 including the connecting portion 23 and includes the protruding portion 24. At R2, the contact portion 21 conducts with the facing portion 221. Since the contact portion 21 and the base portion 22 are connected by the connecting portion 23, the contact portion 21 and the facing portion 221 of the base portion 22 are always electrically electrically connected to each other via the first path R1 including the connecting portion 23. It is connected. The first path R1 is a path connecting the contact portion 21 and the facing portion 221 in the above-mentioned energization path R0 (see FIG. 1A). Further, at least in the "connection state", that is, in the state where the mating connector 102 is connected to the connector 101, the contact portion 21 and the facing portion 221 are electrically connected to each other via the second path R2 in addition to the first path R1. Is connected. The second route R2 is a route different from the first route R1 including the connecting portion 23, does not include the connecting portion 23, and includes the protruding portion 24.

In the present embodiment, in the connected state as shown in FIG. 1B, the protruding portion 24 comes into contact with the facing portion 221 so that the protruding portion 24 conducts with the facing portion 221. In other words, the portion of the base 22 that comes into contact with the protruding portion 24 at least in the connected state constitutes the facing portion 221. That is, in the non-connected state as shown in FIG. 1A, as described above, the protruding portion 24 faces the facing portion 221 via a gap, and the protruding portion 24 and the facing portion 221 are not. It is in contact. Therefore, in the non-connected state, only the first path R1 is formed between the contact portion 21 and the facing portion 221 and the second path R2 is not formed. On the other hand, in the connected state, a force that pushes the contact portion 21 toward the base portion 22 acts from the mating contact 5 to the contact portion 21, the connecting portion 23 is elastically deformed, and the contact portion 21 approaches the base portion 22. Move in the direction. Along with this, the protruding portion 24 also moves in a direction approaching the base portion 22, and as shown in FIG. 1B, the protruding portion 24 comes into contact with the facing portion 221. Therefore, in the connected state, the protruding portion 24 and the facing portion 221 are directly conductive without passing through the connecting portion 23, and a second path R2 is formed between the contact portion 21 and the facing portion 221. Will be done.

In short, at least in the "connected state", a second path R2 including the protruding portion 24, which is a path different from the first path R1, is formed between the contact portion 21 and the facing portion 221 and is the first path. The contact portion 21 conducts with the facing portion 221 not only in R1 but also in the second path R2. Therefore, at least in the "connected state", the electric resistance between the contact portion 21 and the base portion 22 (opposing portion 221) is smaller than that in the configuration in which the contact portion 21 conducts with the facing portion 221 only in the first path R1. Become. As a result, in the contact 2 according to the present embodiment, the connector 101 including the contact 2, and the connecting device 100 including the contact 2, the electric resistance can be suppressed to a small value. In FIGS. 1A and 1B, the dotted line indicating the energization path R0, the first path R1 and the second path R2 passes through the center of the contact 2 in the thickness direction, but merely conceptually represents each path. It is not intended to limit the position where the current flows to the center of the contact 2 in the thickness direction.

Moreover, in the present embodiment, as described above, the protrusion 211 of the contact portion 21 and the facing portion 221 of the base portion 22 are in a straight line L1 along the facing direction (left-right direction) between the contact portion 21 and the base portion 22 (FIG. 4B) Located above. Due to such a positional relationship, in the connected state, the pressure F2 acts from the protruding portion 24 to the facing portion 221 along the direction of the force F1 received by the contact portion 21 from the mating contact 5. That is, in the connected state, the contact portion 21 receives a force F1 from the mating contact 5 in a direction approaching the base portion 22 along the left-right direction (to the left in FIG. 1B). As a result, the protruding portion 24 is pressed against the facing portion 221 with a pressure F2 in the same direction as the force F1 (toward left in FIG. 1B). Therefore, a sufficient contact pressure between the protruding portion 24 and the facing portion 221 can be secured.

Further, in the present embodiment, in the connection state as shown in FIG. 1B, the path length between the contact portion 21 and the connection portion 25 is shorter via the second path R2 than via the first path R1. That is, in the connected state, the contact portion 21 and the connection portion 25 are electrically connected by two routes, a route via the first path R1 and a path via the second path R2. .. When the path lengths of these routes are compared, the latter (second route R2) is shorter than the former (via the first route R1). In other words, in the connected state, the current flows between the contact portion 21 and the connecting portion 25 through the second path R2, so that the current path can be short-cut. Therefore, according to the above configuration, the contact 2 (particularly the connecting portion 23) is contacted while ensuring a certain length so that a sufficient contact pressure can be secured between the contact 2 and the mating contact 5. The electrical resistance of 2 itself can be suppressed to a small level.

Here, since the second path R2 is a path formed by the protrusion 24 coming into contact with the facing portion 221. Therefore, the second path R2 includes the contact resistance between the protruding portion 24 and the facing portion 221. I'm out. In the present embodiment, even if this contact resistance is taken into consideration, the electrical resistance between the contact portion 21 and the connection portion 25 becomes smaller in the path via the second path R2 than in the path via the first path R1.

(3) Modification Example 1 is only one of various embodiments of the present disclosure. The first embodiment can be changed in various ways depending on the design and the like as long as the object of the present disclosure can be achieved. Hereinafter, modified examples of the first embodiment are listed. Since the basic configurations of the modifications described below are the same as those of the connector 101 or the connecting device 100 of the first embodiment, the description of the common points may be omitted. The modifications described below can be applied in combination as appropriate.

The shape of the protrusion 24 in the contact 2 is not limited to the shape described above, and can be appropriately changed, for example, as shown in FIGS. 5A to 5D.

In the example of FIG. 5A, the protruding portion 24 has a substantially U-shaped bent portion 241 that is open downward in place of the substantially V-shaped bent portion 241 that is convex upward. In the example of FIG. 5B, the projecting portion 24 extends one side of the substantially V-shaped contact portion 21 on the projecting portion 24 side diagonally upward and extends the upper end portion of the extension piece 242 straight upward. It has a shape in which the intersection of the above is a bent portion 241. In the example of FIG. 5C, the protruding portion 24 is a portion in which the bent portion 241 is omitted and one side of the substantially V-shaped contact portion 21 on the protruding portion 24 side is extended diagonally upward from the tip portion. Consists of the extension piece 242. In the configurations of FIGS. 5A to 5C, it is difficult to keep the height dimension H2 of the protruding portion 24 seen from the connecting portion 23 smaller in the height direction (vertical direction) than that of the contact 2 according to the first embodiment. .. In other words, in the contact 2 according to the first embodiment, the protruding portion 24 shares one side with one side of the substantially V-shaped contact portion 21 on the protruding portion 24 side, and has a substantially V-shape that is convex upward. By having the bent portion 241, the height dimension H2 of the protruding portion 24 seen from the connecting portion 23 is reduced. Further, in the configurations of FIGS. 5A and 5B, the contact area between the protruding portion 24 and the facing portion 221 is larger in the connected state as compared with the contact 2 according to the first embodiment, so that the protruding portion 24 in the second path R2 The contact resistance between the facing portion 221 and the facing portion 221 can be suppressed to a small value.

Further, in the example of FIG. 5D, the extension piece 242 is omitted from the protruding portion 24. In this configuration, since the contact area between the protruding portion 24 and the facing portion 221 is smaller in the connected state as compared with the contact 2 according to the first embodiment, the contact area between the protruding portion 24 and the facing portion 221 in the second path R2 is smaller. It is difficult to keep the contact resistance small. Further, in the configurations of FIGS. 5C and 5D, the total length of the contact 2 can be shortened and the amount of material required for the contact 2 can be reduced as compared with the contact 2 according to the first embodiment.

In the connector 101 according to the first embodiment, the electrical connection with the mating connector 102 is not limited to the contact 2, but may be made by the mounting bracket 3. That is, when the mounting bracket 3 comes into contact with the mating side mounting bracket 6 of the mating side connector 102, the mounting bracket 3 and the mating side mounting bracket 6 establish an electrical connection between the connector 101 and the mating side connector 102. It may be done. Further, the number of mounting brackets 3 is not limited to a pair (2) and can be increased or decreased as appropriate. For example, the connector 101 may include one or three or more mounting brackets 3. When there is only one mounting bracket 3, the mounting bracket 3 is arranged only on one of the second peripheral walls 122 in the housing 1, for example. Further, the mounting bracket 3 is not an essential configuration for the connector 101, and the mounting bracket 3 can be omitted as appropriate.

Further, the number of mounting pieces 31 in each mounting bracket 3 is not limited to a pair (2 pieces) and can be increased or decreased as appropriate. For example, each mounting bracket 3 has one or three or more mounting pieces 31. May be. For example, even if each mounting bracket 3 has only one mounting piece 31, the mounting brackets 3 are located at the four corners of the housing 1 in a plan view, so that a total of four mounting pieces 31 can be obtained as in the first embodiment. It will be located at the four corners of the housing 1 in a plan view. When each mounting bracket 3 has three or more mounting pieces 31, the connector 101 can be more firmly mounted on the circuit board 71.

Further, in the first embodiment, the connector 101 includes 40 contacts 2, but the number of contacts 2 is not limited to 40. Further, the plurality of contacts 2 are not limited to the configuration in which they are divided into a pair of contact groups and arranged in two rows, and may be arranged side by side in one row. In the first embodiment, the plurality of contacts 2 are arranged at equal pitches, but the present invention is not limited to this configuration, and the plurality of contacts 2 may be arranged at non-uniform pitches.

Further, the contact 2 is not limited to being made of a copper alloy such as a Corson-based copper alloy or phosphor bronze, and may be made of another conductive material. Further, in the first embodiment, the plating layer is formed on the surface of the contact 2, but the plating layer is not essential for the contact 2 and can be omitted as appropriate.

Further, the facing surface facing the facing portion 221 in the protruding portion 24 is not limited to the flat surface 243, and may include, for example, a curved surface that is convex toward the facing portion 221.

Further, in the first embodiment, the protruding portion 24 faces the facing portion 221 via a gap in the non-connected state, but the present invention is not limited to this configuration, and the protruding portion 24 contacts the facing portion 221 in the non-connected state. May be. Since the protruding portion 24 has elasticity at least in the bent portion 241 as described above, when the protruding portion 24 comes into contact with the facing portion 221 even in the non-connected state, the protruding portion 24 is affected by the elasticity. The contact pressure between the facing portion 221 and the facing portion 221 can be secured. Then, in the connected state, when the contact portion 21 receives a force from the mating contact 5, the protruding portion 24 is further pressed against the facing portion 221 and the contact pressure between the protruding portion 24 and the facing portion 221 is increased.

Further, in the first embodiment, the housing 1 has a shape longer in the direction in which the pair of second peripheral walls 122 face each other (front-back direction) than in the direction in which the pair of first peripheral walls 121 face each other (left-right direction). Not limited to the configuration. For example, the housing 1 may have a shape longer in the direction in which the pair of first peripheral walls 121 face each other than in the direction in which the pair of second peripheral walls 122 face each other, or may have a square shape in a plan view.

Further, in the first embodiment, the contact 2 has elasticity at least in the connecting portion 23, but the contact 2 is not limited to this configuration, and for example, the contact 2 has elasticity in the base portion 22 or the contact portion 21 other than the connecting portion 23. You may be doing it.

Further, in the first embodiment, the housing 1 is integrated with the mounting bracket 3 by insert molding, but the mounting bracket 3 may be fixed to the housing 1 by press fitting or the like, similarly to the contact 2. On the contrary, the housing 1 is insert-molded with the contact 2 as an insert product, so that the contact 2 can be fixed to the housing 1 with at least a part embedded in the housing 1 as in the mounting bracket 3. good.

Further, the joining means between the connector 101 and the circuit board 71 and the joining means between the mating connector 102 and the circuit board 72 are not limited to soldering, and may be, for example, conductive paste or crimping.

In the connecting device 100 according to the first embodiment, the connector 101 is a socket and the mating connector 102 is a header, but the present invention is not limited to this. That is, in the connecting device 100, the connector 101 may be a header and the mating connector 102 may be a socket. Further, both the header and the socket constituting the connecting device 100 are in contact with each other in the second path R2 including the protruding portion 24, which is a path different from the first path R1 including the connecting portion 23, at least in the connected state. The portion 21 may include a contact 2 that conducts with the facing portion 221.

(Embodiment 2)
As shown in FIGS. 6A to 7B, the connecting device 100A according to the present embodiment is different from the connecting device 100 according to the first embodiment in the specific shapes of the connector 101A and the mating connector 102A. Hereinafter, the same configurations as those of the first embodiment may be designated by the same reference numerals as those of the first embodiment, and the description thereof may be omitted as appropriate.

In this embodiment, the connector 101A includes a housing 1A and a plurality of (here, 40) contacts 2A. The connector 101A does not include a mounting bracket 3 (see FIG. 2A).

Similar to the housing 1 in the first embodiment, the housing 1A has a recess 14A in the central portion of the upper surface 13A which is a surface facing the mating connector 102A on both sides in the vertical direction.

The plurality of contacts 2A are held in the housing 1A by press fitting. The 20 contacts 2A constituting one contact group and the 20 contacts 2A constituting the other contact group are arranged symmetrically with respect to the reference plane that divides the housing 1A into two equal parts in the left-right direction. ing.

The mating side connector 102A includes a mating side housing 4A and a plurality of (here, 40) mating side contacts 5A. The mating side connector 102A does not include the mating side mounting bracket 6 (see FIG. 2A).

In the connected state in which the mating connector 102A is connected to the connector 101A, the mating housing 4A is configured in a shape and dimensions corresponding to the recess 14A so that at least a part of the mating housing 4A fits into the recess 14A of the housing 1A. Has been done.

Here, the housing 1A has a first regulating portion 11A for preventing reverse assembly of the mating connector 102A with respect to the connector 101A at at least one corner portion on the inner surface of the recess 14A. In the example of FIG. 6A, in the plan view, the first restricting portion 11A formed of a tapered surface is formed at the two corner portions of the front right and the rear right. On the other hand, the mating side housing 4A has a second regulating portion 41A for preventing reverse assembly of the mating side connector 102A with respect to the connector 101A at at least one corner portion on the outer surface of the portion of the housing 1A to be fitted into the recess 14A. are doing. In the example of FIG. 6A, in the plan view, the second regulation portion 41A formed of the tapered surface is formed at the two corner portions of the front right and the rear right.

The first regulating portion 11A is formed non-point symmetric with respect to the center point of the housing 1A in a plan view. The second regulating portion 41A is formed so as to be non-point symmetric with respect to the center point of the mating housing 4A in a plan view. As a result, when the mating side connector 102A is combined with respect to the connector 101A in the direction opposite to the normal direction, the mating side housing 4A does not fit into the recess 14A of the housing 1A, and the mating side connector 102A is reversely assembled with respect to the connector 101A. Is prevented. The "reverse assembly" referred to in the present disclosure means that the mating side connector 102A is combined with respect to the connector 101A in the direction opposite to the normal direction. It means that it is combined with the connector 101A in a reversed state.

The plurality of mating contacts 5A are held in the mating housing 4A by press fitting. The 20 mating contacts 5A constituting one contact group and the 20 mating contacts 5A constituting the other contact group refer to a reference plane that divides the mating housing 4A into two equal parts in the left-right direction. , Arranged plane-symmetrically.

As shown in FIG. 7A, the contact 2A includes a contact portion 21A, a base portion 22A, a connecting portion 23A, a protruding portion 24A, and a connecting portion 25A. The contact portion 21A, the base portion 22A, the connecting portion 23A, the protruding portion 24A, and the connecting portion 25A are seamlessly and integrally configured. When the contact 2A is held by the housing 1A, the connecting portion 25A protrudes from each end surface of the housing 1A in the left-right direction. For example, the circuit board 71 and the contact 2A are electrically and mechanically connected by joining the connection portion 25A to the circuit board 71 by a joining means such as soldering.

Further, in a state where the contact 2A is held by the housing 1A, at least a part of the contact portion 21A in the contact 2A protrudes from a pair of inner side surfaces facing each other in the left-right direction among the inner side surfaces of the recess 14A in the housing 1A. .. As a result, in the connected state, the contact portion 21A comes into contact with the mating contact 5A, and the connector 101A and the mating connector 102A are electrically connected.

In the present embodiment, the connecting portion 23A connects the upper end portion of the base portion 22A and the upper end portion of the contact portion 21A. The connecting portion 23A is formed in a substantially U shape that is open downward. The protruding portion 24A is connected to the lower end portion of the contact portion 21A. The protruding portion 24A has a substantially U-shaped bent portion 241A that is convex downward. The base 22A has a facing portion 221A facing the protruding portion 24A.

In the contact 2A, in the non-connected state as shown in FIG. 7A, the protruding portion 24A faces the facing portion 221A through a gap, and the protruding portion 24A and the facing portion 221A are in a non-contact state. On the other hand, in the connected state as shown in FIG. 7B, the protruding portion 24A comes into contact with the facing portion 221A, so that the protruding portion 24A conducts with the facing portion 221A. That is, in the connected state, a force that pushes the contact portion 21A toward the base portion 22A acts from the mating contact 5A to the contact portion 21A, the connecting portion 23A is elastically deformed, and the contact portion 21A moves in a direction approaching the base portion 22A. do. Along with this, the protruding portion 24A also moves in a direction approaching the base portion 22A, and the protruding portion 24A comes into contact with the facing portion 221A. Therefore, in the connected state, the protruding portion 24A and the facing portion 221A are directly connected to each other without passing through the connecting portion 23A, and the second path R2 (FIG. 1B) is formed.

Therefore, even in the connection device 100A according to the present embodiment, at least in the “connection state”, the second path R2 which is a path different from the first path R1 (see FIG. 1B) including the connecting portion 23A and includes the protruding portion 24A. (See FIG. 1B), the contact portion 21A conducts with the facing portion 221A. As a result, in the contact 2A according to the present embodiment, the connector 101A including the contact 2A, and the connection device 100A including the contact 2A, it is possible to keep the electric resistance small.

The various configurations described in the second embodiment can be appropriately combined with the various configurations (including modifications) described in the first embodiment. As an example, the configuration for preventing the reverse assembly of the mating connector 102A with respect to the connector 101A (first regulating unit 11A and second regulating unit 41A) is also applicable to the connecting device 100 according to the first embodiment. Specifically, the housing 1 in FIG. 2A has at least one rib as a first restricting portion on a part of the inner surface of the recess 14, and the mating housing 4 has a second regulation on a part of the outer surface. It suffices to have at least one groove portion as a portion. At least one rib as the first regulating portion is formed non-point symmetric with respect to the center point of the housing 1 in a plan view. At least one groove portion as the second regulating portion is formed non-point symmetric with respect to the center point of the mating housing 4 in a plan view. As a result, when the mating side connector 102 is combined with respect to the connector 101 in the direction opposite to the normal direction, the mating side housing 4 does not fit into the recess 14 of the housing 1, and the mating side connector 102 is reversely assembled with respect to the connector 101. Is prevented. The relationship between the rib and the groove portion may be reversed, that is, the first regulating portion may be at least one groove portion and the second regulating portion may be at least one rib.

(Embodiment 3)
As shown in FIGS. 8A and 8B, the connecting device 100B according to the present embodiment is different from the connecting device 100 according to the first embodiment in the specific shapes of the connector 101B and the mating connector 102B. Hereinafter, the same configurations as those of the first embodiment may be designated by the same reference numerals as those of the first embodiment, and the description thereof may be omitted as appropriate.

In the present embodiment, the connector 101B contacts the mating contact 5B of the mating connector 102B at two points, the first contact portion (contact portion 21B) and the second contact portion (contact portion 26B), for each contact 2B. This is a two-point contact type connector. If it is a two-point contact type connector, it is possible to further reduce the height by suppressing the vertical dimension, that is, the protruding dimension from the circuit board 71, while ensuring the electrical connection reliability. be.

In this embodiment, the connector 101B includes a housing 1B and a plurality of contacts 2B.

The housing 1B has a pair of recesses 14B arranged in the left-right direction on the upper surface 13B which is a surface facing the mating connector 102B on both sides in the vertical direction.

The plurality of contacts 2B are held in the housing 1B. The plurality of contacts 2B constituting one contact group and the plurality of contacts 2B constituting the other contact group are arranged symmetrically with respect to the reference plane that divides the housing 1B into two equal parts in the left-right direction. ing.

The mating side connector 102B includes a mating side housing 4B and a plurality of mating side contacts 5B.

In the connected state in which the mating connector 102B is connected to the connector 101B, the mating side has a shape and dimensions corresponding to the pair of recesses 14B so that at least a part of the mating housing 4B fits into the pair of recesses 14B of the housing 1B. The housing 4B is configured.

The plurality of mating contact 5Bs are held in the mating housing 4B. The plurality of mating contact 5Bs constituting one contact group and the plurality of mating contacts 5B constituting the other contact group refer to a reference plane that divides the mating housing 4B into two equal parts in the left-right direction. , Arranged plane-symmetrically.

As shown in FIG. 8A, the contact 2B includes a (first) contact portion 21B, a base portion 22B, a connecting portion 23B, a protruding portion 24B, a connecting portion 25B, and a (second) contact portion 26B. ing. The contact portion 21B, the base portion 22B, the connecting portion 23B, the protruding portion 24B, the connecting portion 25B, and the contact portion 26B are seamlessly and integrally configured. In the state where the contact 2B is held by the housing 1B, the connecting portion 25B protrudes from each end surface of the housing 1B in the left-right direction. For example, the circuit board 71 and the contact 2B are electrically and mechanically connected by joining the connection portion 25B to the circuit board 71 by a joining means such as soldering.

In the present embodiment, the connecting portion 23B connects the upper end portion of the base portion 22B and the upper end portion of the contact portion 21B. The connecting portion 23B is formed in a substantially U shape that is open downward. The protruding portion 24B is connected to the lower end portion of the contact portion 21B. The protruding portion 24B has a projecting piece 244B that is convex toward the base portion 22B in the left-right direction. The protrusion 244B is formed in a substantially U shape that is open in the left-right direction away from the base 22B. Further, the tip end portion (the end portion on the side opposite to the contact portion 21B) of the protrusion portion 24B is connected to the contact portion 26B. The contact portion 21B, which is the first contact portion, and the contact portion 26B, which is the second contact portion, face each other in the left-right direction. In the present embodiment, of the contacts 2B, at least the connecting portion 23B and the protruding portion 24B have elasticity.

In a state where the contact 2B is held by the housing 1B, at least a part of the contact portion 21B and the contact portion 26B from the pair of inner side surfaces facing each other in the left-right direction among the inner surfaces of the pair of recesses 14B in the housing 1B. Protrudes. As a result, in the connected state, the contact portion 21B and the contact portion 26B come into contact with the mating contact 5B, and the connector 101B and the mating connector 102B are electrically connected. Specifically, the mating side housing 4B holding the mating side contact 5B is inserted between the contact portion 21B and the contact portion 26B, so that the mating side contact 5B is sandwiched between the contact portion 21B and the contact portion 26B. Is done. At this time, due to the elasticity of the protruding portion 24B, the contact portion 21B and the contact portion 26B are pressed against the mating contact 5B.

Further, in the contact 2B, in the non-connected state as shown in FIG. 8A, the protruding portion 24B faces the facing portion 221B through the gap at the projecting piece 244B, and the protruding portion 24B and the facing portion 221B are not in contact with each other. Is in the state of. On the other hand, in the connected state as shown in FIG. 8B, the protruding portion 24B comes into contact with the facing portion 221B at the projecting piece 244B, so that the protruding portion 24B conducts with the facing portion 221B. That is, in the connected state, a force that pushes the contact portion 21B toward the base portion 22B acts from the mating contact 5B to the contact portion 21B, the connecting portion 23B is elastically deformed, and the contact portion 21B moves in a direction approaching the base portion 22B. do. Along with this, the projecting piece 244B of the projecting portion 24B also moves in a direction approaching the base portion 22B, and the projecting portion 24B comes into contact with the facing portion 221B at the projecting piece 244B. Therefore, in the connected state, the protruding portion 24B and the facing portion 221B are directly conductive without passing through the connecting portion 23B, and the second path R2 (FIG. 1B) is formed.

Therefore, even in the connection device 100B according to the present embodiment, at least in the “connection state”, the second path R2 which is a path different from the first path R1 (see FIG. 1B) including the connecting portion 23B and includes the protruding portion 24B. (See FIG. 1B), the contact portion 21B conducts with the facing portion 221B. As a result, in the contact 2B according to the present embodiment, the connector 101B including the contact 2B, and the connection device 100B including the contact 2B, it is possible to keep the electric resistance small. In particular, in the two-point contact type connector 101B as in the present embodiment, the first path R1 is not only between the (first) contact portion 21B but also between the (second) contact portion 26B and the facing portion 221B. (See FIG. 1B) and a second path R2 (see FIG. 1B) are formed. Therefore, it is possible to suppress the electric resistance to a smaller value.

Further, as a modification of the third embodiment, the contact 2Bx may have a configuration in which the protruding portion 24Bx is separated from the facing portion 221Bx by the notch portion 272Bx, as shown in FIGS. 9A and 9B. As shown in FIGS. 9A and 9B, the contact 2Bx includes a (first) contact portion 21Bx, a base portion 22Bx, a connecting portion 23Bx, a protruding portion 24Bx, a connecting portion 25Bx, and a (second) contact portion 26Bx. , Is equipped. The contact portion 21Bx, the base portion 22Bx, the connecting portion 23Bx, the protruding portion 24Bx, the connecting portion 25Bx, and the contact portion 26Bx are the contact portion 21B, the base portion 22B, the connecting portion 23B, the protruding portion 24B, and the connecting portion 25B of the contact 2B of the third embodiment. And the contact portion 26B, respectively. Further, the protrusion 244Bx of the protrusion 24Bx corresponds to the protrusion 244B of the contact 2B of the third embodiment.

As the method for producing the contact 2Bx, a method for directly producing the contact 2Bx shown in FIG. 9B from the plate material (metal plate) and an intermediate product shown in FIG. 9A are first produced from the plate material, and finally in FIG. 9B. There is a method of manufacturing the indicated contact 2Bx.

In the former manufacturing method, as shown in FIG. 9B, a notch 272Bx is formed between the protruding portion 24Bx and the facing portion 221Bx on the plate material (metal plate) by, for example, punching. Form contact 2Bx in the state. That is, in this contact 2Bx, as shown in FIG. 9B, the projecting piece 244Bx of the protruding portion 24Bx faces the facing portion 221Bx via the notch portion 272Bx.

In the intermediate product of the contact 2Bx in the latter manufacturing method, as shown in FIG. 9A, the projecting piece 244Bx of the protruding portion 24Bx is connected to the facing portion 221Bx by the connecting 271Bx. The projecting piece 244Bx, the connecting 271Bx, and the facing portion 221Bx are seamlessly integrally configured. The intermediate product of the contact 2Bx is processed to remove the connecting 271Bx by, for example, punching, so that a notch 272Bx is formed between the protruding portion 24Bx and the facing portion 221Bx. To. That is, in this contact 2Bx, the protruding portion 24Bx and the facing portion 221Bx are formed by forming the cutout portion 272Bx as shown in FIG. 9B with respect to the intermediate product of the contact 2Bx as shown in FIG. 9A.

According to the configuration of the contact 2Bx according to this modification, the distance (gap) between the protruding portion 24Bx and the facing portion 221Bx can be adjusted by adjusting the dimensions of the notch portion 272Bx in the manufacturing process of the contact 2Bx. be.

The various configurations (including the modified examples) described in the third embodiment can be appropriately combined with the various configurations (including the modified examples) described in the first embodiment or the second embodiment. For example, also in the contact 2 described in the first embodiment, as described as a modification of the third embodiment, a configuration in which the protruding portion 24 is separated from the facing portion 221 at the notch portion can be adopted.

(Embodiment 4)
As shown in FIGS. 10A and 10B, the connecting device 100C according to the present embodiment is different from the connecting device 100 according to the first embodiment in the specific shape of the mating connector 102C. Hereinafter, the same configurations as those of the first embodiment may be designated by the same reference numerals as those of the first embodiment, and the description thereof may be omitted as appropriate.

In this embodiment, the connector 101C includes a housing 1C and a plurality of contacts 2C. Since the housing 1C has the same configuration as the housing 1 of the connector 101 according to the first embodiment, the description thereof will be omitted here.

The contact 2C includes a contact portion 21C, a base portion 22C, a connecting portion 23C, and a protruding portion 24C. The contact portion 21C, the base portion 22C, the connecting portion 23C, and the protruding portion 24C have the same configurations as the contact portion 21, the base portion 22, the connecting portion 23, and the protruding portion 24 of the contact 2 according to the first embodiment. Omit. In the present embodiment, the portion of the base portion 22C that minimizes the distance to the protruding portion 24C in the direction facing the protruding portion 24C constitutes the facing portion 221C.

The mating side connector 102C includes a mating side housing 4C and a plurality of mating side contacts 5C. Since the mating side housing 4C has the same configuration as the mating side housing 4 of the mating side connector 102 according to the first embodiment, the description thereof will be omitted here.

As shown in FIG. 10A, the mating contact 5C includes a contact piece 51C, a winding piece 52C, a connecting piece 53C, and an insertion piece 54C. The contact piece 51C, the winding piece 52C, the connecting piece 53, and the insertion piece 54C are seamlessly integrally configured. Since the contact piece 51C, the winding piece 52C, and the connecting piece 53C have the same configuration as the contact piece 51, the winding piece 52, and the connecting piece 53 of the mating side contact 5 according to the first embodiment, the description thereof is omitted here. ..

The insertion piece 54C extends downward from a part of the connection piece 53C. Both the insertion piece 54C and the contact piece 51C extend substantially in parallel in the vertical direction and face each other with a gap in the left-right direction. As an example, the insertion piece 54C is formed by cutting and raising a part of a plate material constituting the mating contact 5C. The insertion piece 54C is a conductive member sandwiched between the protruding portion 24C and the facing portion 221C in the connected state.

In the connecting device 100C according to the present embodiment, in the non-connected state as shown in FIG. 10A, the protruding portion 24C faces the facing portion 221C through a gap, and the protruding portion 24C and the facing portion 221C are not in contact with each other. It is in a state. On the other hand, in the connection state as shown in FIG. 10B, the insertion piece 54C is inserted into the gap between the protrusion 24C and the facing portion 221C, and is inserted between the protrusion 24C and the facing portion 221C. The piece 54C is sandwiched. In this state, the protrusion 24C and the insertion piece 54C are in contact with each other, and the facing portion 221C and the insertion piece 54C are in contact with each other. Therefore, the protrusion 24C and the facing portion 221C are electrically connected to each other via the insertion piece 54C. do. In short, in the connected state, the protruding portion 24C and the facing portion 221C are indirectly conductive via the insertion piece 54C which is a conductive member, and the conductive member is between the contact portion 21C and the facing portion 221C. A second path R2 (see FIG. 1B) containing the insertion piece 54C is formed.

As described above, in the connected state, the protruding portion 24C conducts with the facing portion 221C through the conductive member (insertion piece 54C) sandwiched between the protruding portion 24C and the facing portion 221C. Therefore, even in the connection device 100C according to the present embodiment, at least in the “connection state”, the second path R2 which is a path different from the first path R1 (see FIG. 1B) including the connecting portion 23C and includes the protruding portion 24C. (See FIG. 1B), the contact portion 21C conducts with the facing portion 221C. As a result, in the contact 2C according to the present embodiment, the connector 101C including the contact 2C, and the connection device 100C including the contact 2C, it is possible to keep the electric resistance small.

As a modification of the fourth embodiment, the conductive member sandwiched between the protruding portion 24C and the facing portion 221C in the connected state is not limited to the insertion piece 54C which is a part of the mating contact 5C, for example, the mating side. It may be a metal member different from the contact 5C. Even in this case, in the connected state, the conductive member is sandwiched between the protruding portion 24C and the facing portion 221C, so that the protruding portion 24C and the facing portion 221C are electrically connected to each other through the conductive member.

Further, in the fourth embodiment, the protruding portion 24C faces the facing portion 221C through a gap in the non-connected state, but the present invention is not limited to this configuration, and the protruding portion 24C contacts the facing portion 221C in the non-connected state. May be.

The various configurations (including the modified examples) described in the fourth embodiment can be appropriately combined with the various configurations (including the modified examples) described in each of the first to third embodiments.

(Embodiment 5)
As shown in FIGS. 11A and 11B, the connection device according to the present embodiment is different from the connection device 100B according to the third embodiment in the specific shape of the contact 2D used for the connector. Hereinafter, the same configurations as those of the third embodiment may be designated by the same reference numerals as those of the third embodiment, and the description thereof may be omitted as appropriate.

The contact 2D is held in the same housing as the housing 1B of the connector 101B according to the third embodiment. Here, in the connector according to the present embodiment, at least one of the plurality of contacts held in the housing may be the contact 2D shown in FIGS. 11A and 11B.

As shown in FIG. 11A, the contact 2D includes a (first) contact portion 21D, a base portion 22D, a connecting portion 23D, a protruding portion 24D, a connecting portion 25D, and a (second) contact portion 26D. ing. The contact portion 21D, the base portion 22D, the connecting portion 23D, the protruding portion 24D, the connecting portion 25D, and the contact portion 26D are the contact portion 21B, the base portion 22B, the connecting portion 23B, the protruding portion 24B, and the connecting portion 25B of the contact 2B of the third embodiment. And the contact portion 26B, respectively.

The contact 2D has a plurality of sets (here, 3 sets) of the contact portion 21D and the contact portion 26D. More specifically, in the contact 2D, the portion from the contact portion 21D to the contact portion 26D is divided into three in the front-rear direction. In other words, the contact 2D has a contact portion 21D and a contact portion 26D divided into three, that is, a three-pronged contact portion 21D and a contact portion 26D, respectively. Such a contact 2D is particularly suitable for applications in which a relatively large current flows, such as a power supply terminal.

In the contact 2D, the protrusion 24D is provided only between the contact portion 21D and the contact portion 26D of at least one set of the contact portions 21D and the contact portions 26D of the plurality of sets (here, three sets). That is, at least one set of contact portions 21D and contact portions 26D are connected by a protruding portion 24D. The protruding portion 24D is connected to the lower end portion of the contact portion 21D. The protrusion 24D has a protrusion 244D that is convex toward the base 22D in the left-right direction. The protrusion 244D is formed in a substantially U shape that is open in the left-right direction away from the base 22D. Further, the tip end portion (the end portion on the side opposite to the contact portion 21D) of the protrusion portion 24D is connected to the contact portion 26D. On the other hand, among the contact portions 21D and the contact portions 26D of a plurality of sets (here, 3 sets), regarding the combination of the contact portion 21D and the contact portion 26D in which the protrusion portion 24D is not provided, the contact portion 21D and the contact portion 26D are combined. It is directly connected. That is, the lower end portion of the contact portion 21D is extended in a direction away from the base portion 22D, and the tip portion (the end portion on the opposite side of the contact portion 21D) is connected to the contact portion 26D.

In the examples of FIGS. 11A and 11B, among the three sets of contact portions 21D and contact portions 26D arranged in the front-rear direction, the protruding portion 24D is provided only between the set of contact portions 21D and the contact portion 26D located in the center. Has been done. However, the present invention is not limited to this configuration, and for example, as shown in FIG. 12A, of the three sets of contact portions 21D and contact portions 26D arranged in the front-rear direction, two sets of contact portions 21D and contact portions 26D located on both front and rear sides. Protruding portions 24D may be provided between them. Further, for example, as shown in FIG. 12B, among the three sets of contact portions 21D and contact portions 26D arranged in the front-rear direction, the protruding portions 24D are respectively between the contact portions 21D and the contact portions 26D of all (three sets). It may be provided.

In the connection device according to the present embodiment, at least in the “connection state”, the second path R2 (FIG. 1B) including the protrusion 24D, which is a path different from the first path R1 (see FIG. 1B) including the connection portion 23D. (See), the contact portion 21D conducts with the facing portion 221D. As a result, in the contact 2D according to the present embodiment, the connector provided with the contact 2D, and the connecting device provided with the contact 2D, it is possible to keep the electric resistance small. In particular, according to the contact 2D having a plurality of combinations of the contact portion 21D and the contact portion 26D as in the present embodiment, the number of contact points with the mating connector is increased, and the electric resistance can be suppressed to be smaller.

As a modification of the fifth embodiment, the contact 2D may have two or four or more combinations of the contact portion 21D and the contact portion 26D.

The various configurations (including the modified examples) described in the fifth embodiment can be appropriately combined with the various configurations (including the modified examples) described in each of the first to fourth embodiments.

(summary)
As described above, the contacts (2,2A to 2D) according to the first aspect are contacts of connectors (101, 101A to 101C) that can be electrically connected to the mating connector (102, 102A to 102C). .. The contacts (2,2A to 2D) include contact portions (21,21A to 21D), base portions (22,22A to 22D), connecting portions (23,23A to 23D), and protruding portions (24,24A to 24D). ) And. The contact portions (21,21A to 21D) can contact the contacts (contacts 5, 5A to 5C) of the mating connector (102, 102A to 102C). At least a part of the base portion (22, 22A to 22D) faces the contact portion (21, 21A to 21D) through a gap. The connecting portion (23, 23A to 23D) connects the contact portion (21,21A to 21D) and the base portion (22, 22A to 22D). The protrusions (24, 24A to 24D) are from the contact portion (21,21A to 21D) to the base portion (22) in the opposite direction in which the contact portion (21,21A to 21D) and the base portion (22,22A to 22D) face each other. , 22A-22D) project to the side. The base portions (22, 22A to 22D) have facing portions (221,221A to 221D) facing the protruding portions (24, 24A to 24D). At least in the connected state, the contact portion (21,21A to 21D) conducts with the facing portion (221,221A to 221D) in the second path (R2). The connection state is a state in which the contact portions (21, 21A to 21D) are in contact with the other contact (5, 5A to 5C). The second path (R2) is a path different from the first path (R1) including the connecting portion (23, 23A to 23D) and includes the protruding portion (24, 24A to 24D).

According to this aspect, at least in the connected state, the first path including the connecting portion (23,23A to 23D) between the contact portion (21,21A to 21D) and the facing portion (221,221A to 221D). (R1) and a second path (R2) different from the first path (R1) are formed. Therefore, in the connected state, the contact portions (21,21A to 21D) are connected to the facing portions (221,221A to 221D) only in the first path (R1). ) And the base (22, 22A to 22D) become smaller. As a result, it is possible to keep the electrical resistance small in the contacts (2,2A to 2D).

In the contact (2,2A to 2D) according to the second aspect, in the first aspect, the protruding portion (24, 24A to 24D) contacts the facing portion (221,221A to 221D) in the connected state. As a result, the protruding portions (24, 24A to 24D) are electrically connected to the facing portions (221,221A to 221D).

According to this aspect, the second path (R2) can be easily realized by bringing the protruding portions (24, 24A to 24D) into contact with the facing portions (221,221A to 221D) in the connected state.

In the second aspect, the contact (2,2A to 2D) according to the third aspect protrudes in a state where the contact portion (21,21A to 21D) is not in contact with the other contact (5,5A to 5C). The portions (24, 24A to 24D) face the facing portions (221,221A to 221D) via a gap.

According to this aspect, the protruding portions (24, 24A to 24D) come into contact with the facing portions (221,221A to 221D) only in the connected state. Therefore, it is possible to suppress the sagging of the contact (2,2A to 2D) as compared with the configuration in which the protruding portion (24,24A to 24D) is in constant contact with the facing portion (221,221A to 221D).

In the contact (2,2A to 2D) according to the fourth aspect, in the second or third aspect, the contact portion (21,21A to 21D) receives from the other contact (5,5A to 5C) in the connected state. A pressure (F2) acts from the protruding portion (24, 24A to 24D) to the facing portion (221,221A to 221D) along the direction of the force (F1).

According to this aspect, the force (F1) received by the contact portion (21,21A to 21D) from the mating contact (5,5A to 5C) is from the protruding portion (24,24A to 24D) to the facing portion (221,221A). It acts effectively on ~ 221D). Therefore, it becomes easy to secure the contact pressure between the protruding portion (24, 24A to 24D) and the facing portion (221,221A to 221D).

In the contact (2,2A to 2D) according to the fifth aspect, in the first aspect, the contact (2,2A to 2D) is sandwiched between the protruding portion (24,24A to 24D) and the facing portion (221,221A to 221D) in the connected state. The protruding portion (24, 24A to 24D) conducts with the facing portion (221,221A to 221D) through the conductive member.

According to this aspect, since the gap between the protruding portion (24, 24A to 24D) and the facing portion (221,221A to 221D) can be filled with the conductive member, the protruding portion (24, 24A to 24D) and the facing portion can be filled. The degree of freedom in dimensional design of the gap with (221,221A to 221D) is increased.

In the contact (2,2A to 2D) according to the sixth aspect, in any one of the first to fifth aspects, the contact portion (21,21A to 21D) is with the base portion (22,22A to 22D) in the facing direction. Has a protrusion (211) protruding to the opposite side. The protrusion (211) and the facing portion (221,221A to 221D) are located on a straight line (L1) along the facing direction.

According to this aspect, the force received by the contact portions (21,21A to 21D) from the mating contacts (5,5A to 5C) is from the protruding portions (24,24A to 24D) to the facing portions (221,221A to 221D). Works effectively on. Therefore, it becomes easy to secure the contact pressure between the protruding portion (24, 24A to 24D) and the facing portion (221,221A to 221D).

In the contact (2,2A to 2D) according to the seventh aspect, in any one of the first to sixth aspects, the base portion (22,22A to 22D), the connecting portion (23,23A to 23D), and the contact portion (21). , 21A-21D) and the protrusions (24,24A-24D) are connected in succession so as to form an energization path (R0) along one plane. One end of the contact portion (21,21A to 21D) in the extension direction of the energization path (R0) is coupled to the connecting portion (23,23A to 23D), and the other end is coupled to the protruding portion (24,24A to 24D). Has been done.

According to this aspect, the second path (R2) faces the contact portion (21,21A to 21D) on the opposite side of the first path (R1) in the extension direction of the energization path (R0). It will be connected to (221,221A to 221D). Therefore, while providing the first path (R1) and the second path (R2), the size of the contacts (2,2A to 2D) in the direction orthogonal to one plane can be kept small.

In the contact (2,2A to 2D) according to the eighth aspect, in the seventh aspect, the protruding portion (24,24A to 24D) is bent so as to be convex in a direction away from the connecting portion (23,23A to 23D). It has a portion (241,241A).

According to this aspect, it is possible to suppress deformation (plastic deformation) of the contact (2,2A to 2D) due to the contact (5,5A to 5C) being caught on the tip of the protrusion (24,24A to 24D). be. That is, when the connector (101, 101A to 101C) and the mating connector (102, 102A to 102C) are connected, the mating contact (5, 5A to 5C) comes into contact with the bent portion (241,241A). It becomes difficult to get caught in the protruding portion (24, 24A to 24D).

In the contact (2,2A to 2D) according to the ninth aspect, in the eighth aspect, the connecting portion (23,23A to 23D) is a folded portion (24,241A) that is convex in a direction away from the bent portion (241,241A). 231). The bent portion (241,241A) has a larger curvature than the folded portion (231).

According to this aspect, the size of the contact (2,2A to 2D) in the facing direction in which the contact portion (21,21A to 21D) and the base portion (22,22A to 22D) face each other can be suppressed to a small size.

In the contacts (2, 2A to 2D) according to the tenth aspect, in any one of the seventh to nine aspects, the connecting portions (23, 23A to 23D) in the height direction intersecting the opposite directions in one plane. The height dimension (H2) of the protruding portion (24, 24A to 24D) seen from is smaller than the height dimension (H1) of the base portion (22, 22A to 22D) seen from the connecting portion (23, 23A to 23D). ..

According to this aspect, it is easy to suppress deformation (plastic deformation) of the contact (2,2A to 2D) due to the contact (5,5A to 5C) being caught on the tip of the protrusion (24,24A to 24D). Become. Further, even when assembling the connectors (101, 101A to 101C), it becomes easy to suppress the deformation (plastic deformation) of the protruding portions (24, 24A to 24D).

In the contact (2,2A to 2D) according to the eleventh aspect, in any one of the seventh to tenth aspects, the contact (2,2A to 22D) is electrically connected to the base (22,22A to 22D) and is connected to the circuit board (71). Further, a connectable connection unit (25, 25A, 25B, 25D) is provided. The base portion (22, 22A to 22D) is located between the connection portion (25, 25A, 25B, 25D) and the connection portion (23, 23A to 23D) on the energization path (R0).

According to this aspect, the base portion (22, 22A to 22D) between the connection portion (25, 25A, 25B, 25D) and the contact portion (21,21A to 21D) is the second path at least in the connected state. (R2) conducts with the contact portions (21, 21A to 21D). Therefore, the connection portion (25, 25A, 25B, 25D) is compared with the configuration in which the connection portion (25, 25A, 25B, 25D) is electrically connected to the contact portion (21,21A to 21D) only in the first path (R1). The electrical resistance between the contact portion (21, 21A to 21D) and the contact portion (21,21A to 21D) becomes small.

In the contact (2,2A to 2D) according to the twelfth aspect, in the eleventh aspect, between the contact portion (21,21A to 21D) and the connection portion (25,25A, 25B, 25D) in the connected state. The path length of is shorter via the second route (R2) than via the first route (R1).

According to this aspect, in the connected state, a current flows between the contact portion (21,21A to 21D) and the connection portion (25, 25A, 25B, 25D) through the second path (R2). A short cut of the current path becomes possible. Therefore, the electrical resistance between the connection portion (25, 25A, 25B, 25D) and the contact portion (21,21A to 21D) can be made smaller.

In the contact (2,2A to 2D) according to the thirteenth aspect, in any one of the first to twelfth aspects, the protruding portion (24, 24A to 24D) faces the facing portion (221,221A to 221D). The surface includes a flat surface (243).

According to this aspect, surface contact by the flat surface (243) can be realized between the projecting portion (24, 24A to 24D) and the facing portion (221,221A to 221D), so that the surface contact can be realized on the second path (R2). The contact resistance generated in the above can be suppressed to a small value.

In the contact (2,2A to 2D) according to the fourteenth aspect, in any one of the first to thirteenth aspects, the facing portion (221,221A to 221D) faces the protruding portion (24, 24A to 24D). The surface includes a base-side flat surface (222).

According to this aspect, the surface contact by the base side flat surface (222) can be realized between the protruding portion (24, 24A to 24D) and the facing portion (221,221A to 221D), so that the second path (R2) can be realized. ) The contact resistance generated above can be suppressed to a small value.

In the contact (2,2A to 2D) according to the fifteenth aspect, in any one of the first to fourteenth aspects, at least a part of the connecting portion (23,23A to 23D) has elasticity.

According to this aspect, the elasticity of the connecting portion (23, 23A to 23D) can secure the contact pressure between the contact portion (21,21A to 21D) and the mating contact (5,5A to 5C).

The connector (101, 101A to 101C) according to the sixteenth aspect is a housing (2,2A to 2D) for holding the contact (2,2A to 2D) according to any one of the first to fifteenth embodiments. 1,1A to 1C).

According to this aspect, at least in the connected state, the first path including the connecting portion (23,23A to 23D) between the contact portion (21,21A to 21D) and the facing portion (221,221A to 221D). (R1) and a second path (R2) different from the first path (R1) are formed. Therefore, in the connected state, the contact portions (21,21A to 21D) are connected to the facing portions (221,221A to 221D) only in the first path (R1). ) And the base (22, 22A to 22D) become smaller. As a result, it is possible to keep the electric resistance small in the connectors (101, 101A to 101C).

The connecting device (100, 100A to 100C) according to the seventeenth aspect includes a connector (101, 101A to 101C) according to the sixteenth aspect and a mating connector (102, 102A to 102C).

According to this aspect, at least in the connected state, the first path including the connecting portion (23,23A to 23D) between the contact portion (21,21A to 21D) and the facing portion (221,221A to 221D). (R1) and a second path (R2) different from the first path (R1) are formed. Therefore, in the connected state, the contact portions (21,21A to 21D) are connected to the facing portions (221,221A to 221D) only in the first path (R1). ) And the base (22, 22A to 22D) become smaller. As a result, it is possible to keep the electric resistance small in the connecting device (100, 100A to 100C).

The configurations according to the second to fifteenth embodiments are not essential configurations for contacts (2, 2A to 2D) and can be omitted as appropriate.

1,1A, 1B, 1C Housing 2,2A, 2B, 2C, 2D Contact 5,5A, 5B, 5C Mating Contact 71,72 Circuit Board 21,21A, 21B, 21C, 21D Contact 22, 22A, 22B, 22C, 22D Base 23, 23A, 23B, 23C, 23D Connecting part 24, 24A, 24B, 24C, 24D Protruding part 25, 25A, 25B, 25D Connection part 54C Insertion piece (conduction member)
71,72 Circuit board 100, 100A, 100B, 100C Connection device 101, 101A, 101B, 101C Connector 102, 102A, 102B, 102C Mating side connector 211 Protrusion part 211,221A, 221B, 221C, 221D Opposite part 222 Base side flat Surface 231 Folded part 241,241A Bending part 243 Flat surface F1 Force F2 Pressure H1 Height dimension H2 Height dimension L1 Straight line R0 Energization path R1 First path R2 Second path

Claims (17)

It is a contact of a connector that can be electrically connected to the other connector.
A contact portion that can contact the contact of the mating connector and
At least a part of the base facing the contact portion via a gap,
A connecting portion that connects the contact portion and the base portion,
A protrusion portion that protrudes from the contact portion toward the base portion in a facing direction in which the contact portion and the base portion face each other is provided.
The base has a facing portion facing the protruding portion and has a facing portion.
In a connected state where at least the contact portion is in contact with the contact of the mating connector, the contact portion is the path different from the first path including the connecting portion and the contact portion is the second path including the protruding portion. Conducting with the opposite part,
The base portion, the connecting portion, the contact portion, and the projecting portion are continuously coupled so as to form an energization path along a plane.
One end of the contact portion in the extension direction of the energization path is coupled to the connecting portion, and the other end is coupled to the protruding portion.
In the height direction intersecting the opposite directions in the one plane, the height dimension of the protrusion as seen from the connecting portion is equal to or less than the height dimension of the base as seen from the connecting portion.
contact. It is a contact of a connector that can be electrically connected to the other connector.
A contact portion that can contact the contact of the mating connector and
At least a part of the base facing the contact portion via a gap,
A connecting portion that connects the contact portion and the base portion,
A protrusion portion that protrudes from the contact portion toward the base portion in a facing direction in which the contact portion and the base portion face each other is provided.
The base has a facing portion facing the protruding portion and has a facing portion.
In a connected state where at least the contact portion is in contact with the contact of the mating connector, the contact portion is the path different from the first path including the connecting portion and the contact portion is the second path including the protruding portion. The protruding portion conducts with the facing portion, and the protruding portion conducts with the facing portion through a conductive member sandwiched between the protruding portion and the facing portion.
contact. It is a contact of a connector that can be electrically connected to the other connector.
A contact portion that can contact the contact of the mating connector and
At least a part of the base facing the contact portion via a gap,
A connecting portion that connects the contact portion and the base portion,
A protrusion portion that protrudes from the contact portion toward the base portion in a facing direction in which the contact portion and the base portion face each other is provided.
The base has a facing portion facing the protruding portion and has a facing portion.
In a connected state where at least the contact portion is in contact with the contact of the mating connector, the contact portion is the path different from the first path including the connecting portion and the contact portion is the second path including the protruding portion. Conducting with the opposite part,
Further, a second contact portion that can contact the contact of the mating connector and is different from the first contact portion that is the contact portion is further provided.
The protruding portion is formed at a portion connecting the first contact portion and the second contact portion.
contact. In the connected state, the protruding portion comes into contact with the facing portion so that the protruding portion conducts with the facing portion.
The contact according to claim 1 or 3. In a state where the contact portion is not in contact with the contact of the mating connector, the protruding portion faces the facing portion via a gap.
The contact according to claim 4. In the connected state, pressure acts from the protruding portion to the facing portion along the direction of the force that the contact portion receives from the contact of the mating connector.
The contact according to claim 4 or 5. The contact portion has a protrusion portion that protrudes on the opposite side to the base portion in the facing direction.
The protrusion and the facing portion are located on a straight line along the facing direction.
The contact according to any one of claims 1 to 6. The contact according to any one of claims 1 to 3 , wherein the protruding portion has a bent portion that is convex in a direction away from the connecting portion. The connecting portion has a folded portion that is convex in a direction away from the bent portion.
The contact according to claim 8, wherein the bent portion has a curvature larger than that of the folded portion. Further provided with a connection that is electrically connected to the base and can be connected to a circuit board.
The base is located between the connection and the connection on the energization path.
The contact according to claim 1. The base portion, the connecting portion, the contact portion, and the projecting portion are continuously coupled so as to form an energization path along a plane.
One end of the contact portion in the extension direction of the energization path is coupled to the connecting portion, and the other end is coupled to the protruding portion.
Further provided with a connection that is electrically connected to the base and can be connected to a circuit board.
The base is located between the connection and the connection on the energization path.
The contact according to claim 2 or 3 . In the connected state, the path length between the contact portion and the connection portion is shorter via the second path than via the first path.
The contact according to claim 10 or 11 . The contact according to any one of claims 1 to 12, wherein the facing surface facing the facing portion in the protruding portion includes a flat surface. The contact according to any one of claims 1 to 13, wherein the facing surface facing the protruding portion in the facing portion includes a flat surface on the base side. The contact according to any one of claims 1 to 14, wherein at least a part of the connecting portion has elasticity. The contact according to any one of claims 1 to 15 and
A connector comprising a housing for holding the contacts. The connector according to claim 16 and
A connecting device comprising the other party connector.

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