This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2017-020520, filed on Feb. 7, 2017, the entire contents of which are incorporated herein by reference.
The present disclosure relates to an electrical connector.
For electrical connectors mounted on a substrate, it is important to securely maintain a connection state in which a conductive contact of one electrical connector and a conductive contact of another electrical connector corresponding to a counterpart connector are electrically connected to each other. For example, in an electrical connector assembly described in Japanese Unexamined Patent Publication No. 2016-167467, electrical connectors are connected to each other when a convex fitting portion of one electrical connector is fit into a concave receiving portion of the other electrical connector.
However, for electrical connectors mounted on a substrate, a connection state may not be sufficiently maintained merely by fitting the electrical connectors to each other. Therefore, the disclosure describes an electrical connector configured to securely maintain a connection state.
An example electrical connector according to the disclosure includes a first connector electrically connected to a first substrate, and a locking member mounted on the first connector to hold a fit state between the first connector and a second connector corresponding to a counterpart electrical connector, in which the first connector includes a connector engaging portion configured to be engaged with the locking member. The locking member includes a main body, and the second connector is interposed between the main body and the first connector when the second connector is mounted on the first connector. The locking member further includes a lock engaging portion configured to be engaged with the connector engaging portion when the second connector is interposed between the first connector and the main body.
In some examples electrical connectors according to the disclosure, when the second connector is interposed between the main body of the locking member and the first connector, the lock engaging portion of the locking member may be engaged with the connector engaging portion of the first connector. In this way, the locking member and the first connector are connected to each other when the second connector is interposed therebetween, and a connection state between the first connector and the second connector may be more securely maintained as compared to a case in which the first connector and the second connector are merely fit together without a locking member.
The first connector may include a plurality of conductive contacts, and two connector engaging portions. A connector engaging portion may be located at each end (both ends) of the first connector in an array direction of the plurality of contacts. The locking member may include two lock engaging portions. A lock engaging portion may be located at each end (both ends) of the main body of the locking member. The two lock engaging members of the locking member may be configured to be engaged with the two connector engaging portions of the first connector at each end of the first connector and/or at each end of the main body. When the sets of lock engaging portions provided at the respective ends of the first connector and the locking member are engaged with each other, the first connector and the locking member are connected by a stronger force, and the connection state between the first connector and the second connector may be more securely maintained.
The second connector and a second substrate to which the second connector is electrically connected may be interposed between the main body and the first connector when the main body of the locking member is mounted on the first connector. The main body of the locking member may include a contact portion configured to come into contact with the second substrate before the lock engaging portion is engaged with the connector engaging portion. Additionally, the main body of the locking member may include an elastic portion configured to elastically deform such that the lock engaging portion is disposed at an engagement position with respect to the connector engaging portion when the contact portion comes into contact with the second substrate. In this way, in the locking member, the lock engaging portion is engaged with the connector engaging portion in a state in which the main body is elastically deformed. In this way, the lock engaging portion in a tensioned state may be engaged with the connector engaging portion, and the first connector and the locking member are connected by a stronger force. As a result, the connection state between the first connector and the second connector may be more securely maintained.
A thickness of the contact portion may be thicker than a thickness of the main body other than the contact portion or, in other words, the contact portion may be the thickest portion of the main body. In this way, the contact portion may be easily brought into contact with the second substrate. Accordingly, in some example embodiments, the contact portion is brought into contact with the second substrate before the lock engaging portion is engaged with the connector engaging portion and the elastic portion is elastically deformed as a result of the initial contact.
At least a portion of the contact portion may be provided at a central portion of the main body in an opposing direction of a pair of lock engaging portions, and the elastic portion may be provided between the contact portion and each of the lock engaging portions in the opposing direction (lengthwise direction) of the main body. In this way, the elastic portion and the lock engaging portion are provided close to each other at both ends (both halves) of the main body. When the elastic portions provided at both ends of the main body are elastically deformed, tension may be favorably applied to the lock engaging portions at both ends, and the connection state between the first connector and the second connector may be more securely maintained.
The second connector and a second substrate to which the second connector is electrically connected are interposed between the main body and the first connector when the main body is mounted on the first connector. The locking member may further include guide portions that guide movement of the lock engaging portion along the second substrate, and the lock engaging portion may be engaged with the connector engaging portion by moving in accordance with guidance of the guide portion. In this way, the lock engaging portion may be engaged with the connector engaging portion by being moved in a direction intersecting the fitting direction of the first connector and the second connector, that is, the direction along the second substrate. In this way, when the lock engaging portion is engaged in a different direction from the fitting direction of the first connector and the second connector, an engagement operation is facilitated, and the connection state between the first connector and the second connector may be more securely maintained.
The locking member may further include one or more regulation portions that regulate further movement of the lock engaging portion in a direction in which the lock engaging portion moves. In some examples, the regulation members are configured to regulate or prohibit movement of the lock engaging portion when the lock engaging portion is engaged with the connector engaging portion. In this way, the lock engaging portion is inhibited from moving beyond the engagement position with respect to the connector engaging portion, and the lock engaging portion may be appropriately positioned with respect to the connector engaging portion.
The guide portions may include a pair of wall portions that extends in the direction in which the lock engaging portion moves and interpose, or are located to the outside of, the connector engaging portions in the opposing direction of the pair of connector engaging portions. Each of the wall portions may include a projection protruding toward the connector engaging portion, and the connector engaging portion may include a recess into which the projection is fit when the lock engaging portion is engaged with the connector engaging portion. When the projection is fit into the recess, the lock engaging portion may be appropriately positioned with respect to the connector engaging portion, giving a click feeling to an operator, and allowing the operator to detect engagement.
A length of the lock engaging portion in the direction in which the lock engaging portion moves may be shorter than a length of the main body in the direction in which the lock engaging portion moves. When the length of the lock engaging portion is short, a moving distance of the lock engaging portion may be decreased in accordance with the guide portion, and the locking member may be mounted with respect to the first connector even in a limited space.
The lock engaging portion may be disposed at a rear end of the locking member in the direction in which the lock engaging portion moves. In this way, the lock engaging portion may be moved by the length of the lock engaging portion provided at the rear end, and the locking member may be mounted with respect to the first connector in a more limited space.
The second substrate may be mounted with the second connector at one end of the second substrate in an extending or lengthwise direction. The lock engaging portion may be configured to move in the extending direction of the second substrate from the other end to the one end in accordance with guidance of the guide portions. In this way, the lock engaging portion is initially disposed at the other end of the locking member at which the second substrate extends. For example, in a case in which the second substrate is set to a flexible printed circuit (FPC), the other end of the second substrate may be raised in some cases. In this case, an extraction force due to tilting may be inadvertently applied to the locking member by the raised second substrate. On the other hand, when the position of the lock engaging portion in the locking member is set to the other end in the extending direction of the second substrate, the locking member may be inhibited from being detached from the first connector due to extraction by tilting.
The main body may include a first contact portion that comes into contact with the second substrate before engagement of the lock engaging portion and the connector engaging portion is completed. Additionally, the main body may include a second contact portion that comes into contact with the second substrate when engagement of the lock engaging portion and the connector engaging portion is completed. A thickness of the second contact portion may be greater than a thickness of the first contact portion. In a step before engagement is completed, that is, in a state in which the locking member moves with respect to the first connector, smooth movement of the locking member is allowed by the first contact portion having a relatively small thickness coming into contact with the second substrate. In a step in which engagement is completed, the second substrate may be favorably pressed by the main body at the time of engagement by the second contact portion having a relatively large thickness coming into contact with the second substrate.
The first contact portion may be formed in an inclined shape to become gradually thicker from a front side toward a rear side in the direction in which the lock engaging portion moves. In this way, i a configuration may be adopted in which a pressing force on the second substrate by the first contact portion is small at the time of starting movement, and the pressing force on the second substrate by the first contact portion is gradually increased as movement progresses. In this way, movement of the locking member becomes smoother, and movement of the locking member may be favorably performed with respect to the first connector.
The first connector may further include a fixed metal fitting used for fixing the first connector to the first substrate. In some example embodiments, both the lock engaging portion and the connector engaging portion may contain resin. Additionally, the fixed metal fitting may be included in a part of the connector engaging portion. When the fixed metal fitting used to fix the first connector to the first substrate is caused to function as the part of the connector engaging portion, the strength of the connector engaging portion may be improved, and the engagement strength of the lock engaging portion and the connector engaging portion may be strengthened.
A through-hole may be formed in the main body such that the lock engaging portion is visually recognizable. In this way, the appropriate engagement of the lock engaging portion with the connector engaging portion may be visually recognized from the through-hole.
The first connector may be a receptacle connector including an accommodating portion configured to accommodate the second connector, and the second connector may be a plug connector that is fit to the first connector by being accommodated in the accommodating portion. In this way, a connection state between the plug connector mounted on the substrate and the receptacle connector may be securely maintained by using the locking member.
Accordingly, example electrical connectors configured to securely maintain a connection state are disclosed herein.
Embodiments according to the disclosure described below are examples for description of the invention, and thus the invention should not be limited to the examples.
[First Group of Example Embodiments]
Hereinafter, a first group of example embodiments will be described in detail with reference to drawings. In the description, the same reference numeral will be assigned to an element having the same element or the same function, and a repeated description will be omitted.
(Outline of Electrical Connector)
An outline of an example electrical connector will be described with reference to
The receptacle connector 10 is electrically connected to a wiring substrate 50 (first substrate). The plug connector 70 is electrically connected to a wiring substrate 90 (second substrate) different from the wiring substrate 50 (see
As illustrated in
In some example embodiments a fitting direction of the receptacle connector 10 and the plug connector 70 is set to a “Z direction”, a longitudinal direction of the receptacle connector 10 and the locking member 30 corresponding to a direction intersecting with the Z direction is set to a “Y direction”, and a width direction of the receptacle connector 10 and the locking member 30 corresponding to a direction intersecting with the Z direction and the Y direction is set to an “X direction”.
(Receptacle Connector)
Next, details of the receptacle connector 10 will be described. In the description of the receptacle connector 10, in some example embodiments, the wiring substrate 50 side with respect to the receptacle connector 10 in the Z direction corresponds to “down” and the opposite side thereof corresponds to “up”. As illustrated in
In some example embodiments, the main body 14 is made of an insulating material containing a resin. The main body 14 has a shape of a substantially rectangular parallelepiped extending in a predetermined direction. The main body 14 includes a bottom wall portion 15, side wall portions 16 to 19, and a center wall portion 20.
The bottom wall portion 15 is a plate-shaped body having a substantially rectangular shape. The bottom wall portion 15 has a through-hole 15a having a size corresponding to a shape of the conductive terminal 13 in a region in which the conductive terminal 13 is provided (see
Each of the side wall portions 16 to 19 is provided on the bottom wall portion 15 in an upright state with respect to the bottom wall portion 15. Each of the side wall portions 16 and 17 is located near each long side of the bottom wall portion 15 and extends in the Y direction along the long side. Each of the side wall portions 18 and 19 is located near each short side of the bottom wall portion 15 and extends in the X direction along the short side. For this reason, the side wall portions 16 and 17 oppose each other, and the side wall portions 18 and 19 oppose each other.
The center wall portion 20 is provided on the bottom wall portion 15 in an upright state with respect to the bottom wall portion 15. The center wall portion 20 is located inside a space surrounded by the side wall portions 16 to 19 while being spaced apart from the side wall portions 16 to 19. The center wall portion 20 extends in the Y direction along the long side of the bottom wall portion 15. For this reason, the center wall portion 20 opposes the side wall portions 16 and 17. The accommodating recess V is formed by a space surrounded by the bottom wall portion 15, the side wall portions 16 to 19, and the center wall portion 20 (see
A plurality of conductive terminals 13 (e.g., ten conductive terminals) is attached to the side wall portion 16. For this reason, on the side wall portion 16, the plurality of conductive terminals 13 is aligned in a row in an extending direction thereof (Y direction). Another plurality of conductive terminals 13 (e.g., ten conductive terminals) is similarly attached to the side wall portion 17. Configurations of these conductive terminals 13 are identical to each other. Thus, hereinafter, the conductive terminals 13 on the side wall portion 16 will be described, and a description of the conductive terminals 13 on the side wall portion 17 will be omitted.
The conductive terminal 13 includes a plate-shaped conductive material (for example, a metal member). The conductive terminal 13 includes a proximal end 13a, an intermediate portion 13b, and a contact portion 13c (see
The fixing portions 29 and 29 are contiguous to both ends of the main body 14 in the Y direction, that is, the side wall portion 18 and the side wall portion 19. Configurations of the fixing portions 29 and 29 provided at outer sides of the side wall portion 18 and the side wall portion 19 in the Y direction (the side away from a center of the main body 14 in the Y direction) are identical to each other. Thus, hereinafter, the fixing portion 29 provided at the outer side of the side wall portion 19 in the Y direction will be described, and a description of the fixing portion 29 provided at the outer side of the side wall portion 18 in the Y direction will be omitted.
The fixing portion 29 includes a base portion 21 integrally molded so as to be contiguous to an end of the main body 14 of the housing 12. Additionally the fixing portion 29 includes a fixed metal fitting 22 which covers an upper part of the base portion 21 and is fixed to the wiring substrate 50. In some examples, the base portion 21 is integrally molded with the housing 12 and is made of an insulating material containing resin. The base portion 21 includes an extension portion 23 which is provided contiguously with the side wall portion 19 and has a shape of a substantially rectangular parallelepiped. Additionally, the base portion 21 includes a protruding piece 24 that protrudes outward in the Y direction from an upper end 23b of the extension portion 23. The protruding piece 24 and the fixed metal fitting 22 are included in a part of the connector engaging portion 11.
The extension portion 23 is contiguously provided at a central portion of the side wall portion 19 in the X direction, a bottom surface 23a thereof is substantially flush with the bottom wall portion 15 (see
The protruding piece 24 protrudes outward in the Y direction from a substantially whole length of the upper end 23b of the extension portion 23 in the X direction (see
The fixed metal fitting 22 fixes the receptacle connector 10 to the wiring substrate 50 by covering the upper part of the base portion 21 and being fixed to the wiring substrate 50. For example, the fixed metal fitting 22 includes a thin plate-shaped metal member. The fixed metal fitting 22 includes a cover 22a that covers the base portion 21 and a connection portion 22b is contiguous to both ends of the cover 22a in the X direction. The connection portion 22b is connected to a surface of the wiring substrate 50 by extending downward toward the wiring substrate 50. The cover 22a covers substantially the whole region of an upper surface of the extension portion 23 and an upper surface of the protruding piece 24 included in the base portion 21. A recess 22x that is recessed inward in the Y direction is formed at a substantially central portion in the X direction of a distal end 22y covering the protruding piece 24 in the cover 22a (see
The receptacle connector 10 includes connector engaging portions 11 and 11 that can be engaged with the lock engaging portion 33 of the locking member 30. The connector engaging portions 11 and 11 are provided at both ends of the receptacle connector 10, in the Y direction corresponding to an array direction of the plurality of conductive terminals 13, and include the above-described protruding piece 24 and the distal end 22y of the fixed metal fitting 22. In this way, the fixed metal fitting 22 is included in a part of the connector engaging portion 11.
(Plug Connector)
Next, a description will be given of details of the plug connector 70 with reference to
In some example embodiments, the housing 71 is made of an insulating material containing a resin. The housing 71 has a shape of a substantially rectangular parallelepiped extending in a predetermined direction. The housing 71 includes a bottom wall portion 73 and side wall portions 74 to 77. The bottom wall portion 73 corresponds to a plate-shaped body having a substantially rectangular shape.
Each of the side wall portions 74 to 77 is provided on the bottom wall portion 73 in an upright state with respect to the bottom wall portion 73. The side wall portions 74 to 77 are accommodated in the accommodating recess V of the receptacle connector 10 when the plug connector 70 is fit to the receptacle connector 10. For this reason, the side wall portions 74 to 77 form a fitting protrusion W having a convex shape as a whole.
Each of the side wall portions 74 and 75 is located near each long side of the bottom wall portion 73, and extends in the Y direction along the long side. Each of the side wall portions 76 and 77 is located near each short side of the bottom wall portion 73, and extends in the X direction along the short side. For this reason, the side wall portions 74 and 75 oppose each other, and the side wall portions 76 and 77 oppose each other. Therefore, the fitting protrusion W has a quadrangular tubular shape. The center wall portion 20 of the receptacle connector 10 is accommodated in an internal space of the fitting protrusion W having the quadrangular tubular shape when the plug connector 70 is fit to the receptacle connector 10.
The housing 71 further has fixed metal fittings 78 and 78 near both ends of the housing 71 in the Y direction, that is, near the side wall portions 76 and 77. Configurations of the fixed metal fittings 78 and 78 provided near the side wall portion 76 and the side wall portion 77 are identical to each other. Thus, hereinafter, the fixed metal fitting 78 provided near the side wall portion 77 will be described, and a description of the fixed metal fitting 78 provided near the side wall portion 76 will be omitted.
In some example embodiments, the fixed metal fitting 78 is made of a metal member. The fixed metal fitting 78 includes a cover 78a covering the side wall portion 77 and a connection portion 78b connected to a surface of the wiring substrate 90. The connection portion 78b extends outward in the X direction beyond the side wall portions 74 and 75 such that a surface connected to the wiring substrate 90 is substantially flush with the bottom wall portion 73 near the side wall portion 77 in the Y direction.
A plurality of conductive terminals 72 (e.g., ten conductive terminals) is attached to the side wall portion 74. For this reason, on the side wall portion 74, the plurality of conductive terminals 72 is aligned in a row in the Y direction. Another plurality of conductive terminals 72 (e.g., ten conductive terminals) is similarly attached to the side wall portion 75. Configurations of these conductive terminals 72 are identical to each other. Thus, hereinafter, the conductive terminals 72 on the side wall portion 74 will be described, and a description of the conductive terminals 72 on the side wall portion 75 will be omitted.
The conductive terminal 72 includes a plate-shaped conductive material (for example, a metal member). The conductive terminal 72 includes a proximal end 72a, a contact portion 72b, and a fixing portion 72c (see
(Fit state of Receptacle Connector and Plug Connector)
Next, a description will be given of a fit state of the receptacle connector 10 and the plug connector 70 with reference to
As illustrated in
In a state in which the plug connector 70 is fit to the receptacle connector 10, the contact portion 72b (see
(Locking Member)
Next, the locking member 30 will be described in detail. In description of the locking member 30, in some example embodiments, the wiring substrate 50 side with respect to the locking member 30 in the Z direction illustrated in
The plug connector 70 is electrically connected and mounted to the wiring substrate 90 by solder connection, etc. The main body 31 interposes the plug connector 70 and the wiring substrate between the main body 31 and the receptacle connector 10 when the locking member 30 is mounted on the receptacle connector 10. The main body 31 includes a contact portion 34 provided at a substantially central portion of the main body 31 in a longitudinal direction (Y direction) and elastic portions 35 and 35 provided at positions (both ends of the main body 31) interposing the contact portion 34 therebetween in the Y direction.
The back surface 90b (see
The elastic portions 35 and 35 are configured to elastically deform such that the lock engaging portion 33 is disposed at a position at which the lock engaging portion 33 is engaged with the connector engaging portion 11 when the contact portion 34 comes into contact with the back surface 90b of the wiring substrate 90 (details are described below). The elastic portion 35 is thinner than the contact portion 34 and has a thickness that allows elastic deformation. In this way, the locking member 30 may not engage the lock engaging portion 33 with the connector engaging portion 11 when the contact portion 34 merely comes into contact with the back surface 90b (see
The leg portions 32a to 32d are provided at the four corners of the main body 31 and extend downward from a lower surface 35a of the elastic portion 35 (a surface opposing the wiring substrate 90 at the time of being mounted on the receptacle connector 10, see
The lock engaging portions 33 and 33 are configured to be engaged with the connector engaging portion 11 when the plug connector 70 is interposed between the receptacle connector 10 and the main body 31. The lock engaging portions 33 and 33 are provided at both ends of the main body 31 in the Y direction (that is, proximate to the elastic portion 35). One lock engaging portion 33 is provided at a position interposed between the leg portions 32a and 32b. The other lock engaging portion 33 is provided at a position interposed between the leg portions 32c and 32d . Configurations of the lock engaging portions 33 and 33 provided at both ends of the main body 31 in the Y direction are identical to each other. Thus, hereinafter, the lock engaging portion 33 provided at the position interposed between the leg portions 32c and 32d will be described, and a description of the lock engaging portion 33 provided at the position interposed between the leg portions 32a and 32b will be omitted.
As illustrated in
Further, through-holes 36 and 36 are formed in the main body 31 such that the lock engaging portion 33 can be visually recognized (see
(Mounting State of Locking Member)
Next, a description will be given of the state in which the locking member 30 is mounted on the receptacle connector 10 with reference to
As illustrated in
The locking member 30 is designed to be mounted on the receptacle connector 10 in a state in which the receptacle connector 10 and the plug connector 70 are fully fit together (in contrast to a state corresponding to incomplete fitting, which is so-called “half fitting”). For this reason, half fitting may be prevented by mounting the locking member 30.
As illustrated in
(Effect of First Group of Example Embodiments)
Next, a description will be given of the effects of the above-described electrical connector 1.
First, a description will be given of an example connection configuration of electrical connectors mounted on a substrate with reference to
On the other hand, the electrical connector 1 according to the first group of example embodiments includes the receptacle connector 10 mounted on the wiring substrate 50 by solder connection, etc. and electrically connected thereto. The electrical connector 1 also includes the locking member 30 mounted on the receptacle connector 10 to hold the fit state between the receptacle connector 10 and the plug connector 70 corresponding to the counterpart connector. Additionally, the receptacle connector 10 includes the connector engaging portions 11 and 11 that can be engaged with the locking member 30, and the locking member 30 includes the main body 31 interposing the plug connector 70 fit to the receptacle connector 10 between the main body 31 and the receptacle connector 10 at the time of being mounted on the receptacle connector 10. The locking member 30 also includes the lock engaging portions 33 and 33 that can be engaged with the connector engaging portion 11when the plug connector 70 is interposed between the receptacle connector 10 and the main body 31.
In the electrical connector 1 according to the first group of example embodiments, in a state in which the plug connector 70 fit to the receptacle connector 10 is interposed between the main body 31 of the locking member 30 and the receptacle connector 10, the lock engaging portions 33 and 33 of the locking member 30 may be engaged with the connector engaging portions 11 and 11 of the receptacle connector 10. In this way, the locking member 30 and the receptacle connector 10 are connected to each other in a state of interposing the plug connector 70 therebetween. In this way, a force (tension) is applied to the receptacle connector 10 and the plug connector 70 by the locking member 30 in a direction of maintaining the fit state. As a result, the fit state (connection state) between the receptacle connector 10 and the plug connector 70 may be securely maintained as compared to a configuration in which the receptacle connector 10 and the plug connector 70 are merely fit together without a locking member.
In some example embodiments, the mounting position of the locking member 30 may be set to the wiring substrate 50 rather than the receptacle connector 10. However, the receptacle connector 10 and the plug connector 70 may more effectively (directly) generate a force (tension) in the direction of maintaining the fit state by setting the mounting position to the receptacle connector 10 rather than the wiring substrate 50.
The receptacle connector 10 has the plurality of conductive terminals 13 and has the connector engaging portions 11 and 11 at both ends in the Y direction corresponding to the array direction of the plurality of conductive terminals 13, and the locking member 30 includes the lock engaging portions 33 and 33 that can be engaged with the connector engaging portions 11 and 11 at both respective ends of the main body 31 in the Y direction. When the engaging portions provided at both respective both of the receptacle connector 10 and the locking member 30 are engaged with each other, the receptacle connector 10 and the locking member 30 are connected by a stronger force, and the connection state between the receptacle connector 10 and the plug connector 70 is more securely maintained.
The main body 31 interposes the plug connector 70 and the wiring substrate 90 to which the plug connector 70 is electrically connected between the main body 31 and the receptacle connector 10 at the time of being mounted on the receptacle connector 10. The main body 31 includes the contact portion 34 that comes into contact with the back surface 90b of the wiring substrate 90 before the lock engaging portions 33 and 33 are engaged with the connector engaging portions 11 and 11. Additionally, the elastic portions 35 and 35 are configured to elastically deform such that the lock engaging portions 33 and 33 are disposed at engagement positions with respect to the connector engaging portions 11 and 11 in the state in which the contact portion 34 comes into contact with the wiring substrate 90. In this way, in the locking member 30, the lock engaging portions 33 and 33 are engaged with the connector engaging portions 11 and 11 when the elastic portions 35 and 35 are elastically deformed. In this way, the lock engaging portions 33 and 33 in a tensioned state may be engaged with the connector engaging portions 11 and 11, the receptacle connector 10 and the locking member 30 are connected by a stronger force, and the connection state between the receptacle connector 10 and the plug connector 70 may be more securely maintained.
Such a locking member 30 is mounted on the receptacle connector 10 from an upper side in the Z direction after the receptacle connector 10 and the plug connector 70 are fit together. That is, a fitting direction of the connectors is the same as a mounting direction of the locking member 30. In this way, a locking operation may be easily performed.
The thickness of the contact portion 34 is greater than a thickness of a portion of the main body 31 other than the contact portion 34, that is, the contact portion 34 is thicker than the elastic portions 35 and 35. In this way, the contact portion 34 may be easily brought into contact with the wiring substrate 90. Accordingly, the above-described configuration may be realized in which the contact portion 34 is brought into contact with the wiring substrate 90 before the lock engaging portions 33 and 33 are engaged with the connector engaging portions 11 and 11 and the elastic portions 35 and 35 are elastically deformed in response to the initial contact.
The contact portion 34 is provided at a substantially central portion between the pair of lock engaging portions 33 and 33 in an opposing direction (Y direction) in the main body 31, and the elastic portions 35 and 35 are provided at positions between the contact portion 34 and the the pair of lock engaging portions 33 and 33 in the Y direction. In this way, the elastic portions 35 and 35 and the lock engaging portions 33 and 33 are provided close to each other at both end parts of the locking member 30 in the Y direction. When the elastic portions 35 and 35 provided at both ends of the main body 31 are elastically deformed, tension applied to the lock engaging portions 33 and 33 at both ends in the Y direction operates to more securely maintain the connection state between the receptacle connector 10 and the plug connector 70.
The receptacle connector 10 further includes fixed metal fittings 22 and 22 used for fixing to the wiring substrate 50. In some example embodiments, all the lock engaging portions 33 and 33 and the connector engaging portions 11 and 11 contain resin, and the fixed metal fittings 22 and 22 are included in parts of the connector engaging portions 11 and 11. When the fixed metal fittings 22 and 22 used to fix the receptacle connector 10 to the wiring substrate 50 are caused to function as the parts of the connector engaging portions 11 and 11, the strength of the connector engaging portions 11 and 11 may be improved, and an engaged state of the lock engaging portions 33 and 33 and the connector engaging portions 11 and 11 may be strengthened.
The upper surface 33x of the protrusion 33b and the lower surface 24x of the protruding piece 24, both of which may be made of resin, come into contact with the lock engaging portions 33 and 33 and the connector engaging portions 11 and 11 in their respective engagement positions. In this way, when members that into contact with each other at the engagement positions are made of the same or similar material, the hardness of the members coming into contact with each other may be set to the same level, and damage due to cutting of a part, etc., may be prevented.
In addition, for example embodiments in which all the locking member 30 are made of resin, and a part of the connector engaging portions 11 and 11 is used as the fixed metal fitting 22, even in the situation in which an excessive force is applied to a member in an engaged state, the lock engaging portion 33 of the locking member 30 made of resin is damaged before the connector engaging portions 11 and 11 having the fixed metal fitting 22. In this way, damage to the relatively expensive receptacle connector 10 may be avoided.
The through-holes 36 and 36 are formed in the main body 31 such that the lock engaging portion 33 and 33 can be visually recognized. In this way, the appropriate engagement of the lock engaging portions 33 and 33 with the connector engaging portions 11 and 11 may be visually recognized from the through-holes 36 and 36.
[Second Group of Example Embodiments]
Next, a description will be given of an electrical connector 1A according to a second group of example embodiments with reference to
(Outline of Electrical Connector)
As illustrated in
(Locking Member)
As illustrated in
As illustrated in
A plurality of (for example, four) groove portions 31y is formed along the Y direction on an upper surface 31x of the main body 31A (see
The guide portions 37 and 37 are configured to guide movement of the lock engaging portions 33A and 33A in the X direction along the wiring substrate 90. The guide portions 37 and 37 include wall portions 40 and 40 that extend in the X direction corresponding to a direction in which the lock engaging portion 33A moves. Additionally, the wall portions 40 and 40 interpose a pair of connector engaging portions 11 and 11 in the Y direction corresponding to an opposing direction of the connector engaging portions 11 and 11 (see
The wall portions 40 and 40 are provided in a whole region in the X direction along the short sides of the main body 31A at both ends of the main body 31A in the Y direction, and extend downward from a lower surface 31z of the main body 31A (a surface opposing the wiring substrate 90 at the time of being mounted on the receptacle connector 10, see
The lock engaging portions 33A and 33A are configured to engage the connector engaging portions 11 and 11 by moving in a direction from the other end 90y to the one end 90x of the wiring substrate 90 (see
The lock engaging portion 33A includes an extending portion 42 that extends further downward from a lower end of the wall portion 40 and a protrusion 43 that protrudes toward the second contact portion 39 from a lower end of the extending portion 42 (see
The locking member 30A further includes regulation walls 44 and 44 (regulation portions), each of which regulates further movement of the lock engaging portion 33A in a direction from a rear side to a front side in the X direction corresponding to the direction in which the lock engaging portion 33A moves, in a state in which the lock engaging portion 33A is engaged with the connector engaging portion 11. The regulation walls 44 and 44 are provided at rear ends in the X direction and at both ends of the main body 31A in the Y direction. The regulation walls 44 and 44 are provided at both ends in the Y direction along the long sides of the main body 31A, and extend downward from the lower surface 31z of the main body 31A. The regulation walls 44 and 44 regulate forward movement of the lock engaging portion 33A in the X direction by coming into contact with the rear end of the receptacle connector 10.
(Mounted State of Locking Member)
Next, a description will be given of a state in which the locking member 30A is mounted on the receptacle connector 10 with reference to
As illustrated in
As illustrated in
(Effects of Second Group of Example Embodiments)
Next, a description will be given of effects of the electrical connector 1A described above.
In the electrical connector 1A, the locking member 30A includes the guide portions 37 and 37 that guide movement of the lock engaging portions 33A and 33A along the wiring substrate 90. Additionally, the lock engaging portions 33A and 33A are engaged with the connector engaging portions 11 and 11 by moving in accordance with guidance of the guide portions 37 and 37.
In this way, the lock engaging portions 33A and 33A may be engaged with the connector engaging portions 11 and 11 by being moved in a direction intersecting or that is transverse to the fitting direction of the receptacle connector 10 and the plug connector 70, that is, the direction along the wiring substrate 90. In this way, when the lock engaging portions 33A and 33A are engaged in a different direction from the fitting direction, an engagement operation is facilitated, and the connection state between the receptacle connector 10 and the plug connector 70 may be more securely maintained.
The locking member 30A includes the regulation walls 44 and 44 that regulate further movement of the lock engaging portions 33A and 33A in the direction in which the lock engaging portions 33A and 33A move when the lock engaging portions 33A and 33A are engaged with the connector engaging portions 11 and 11. In this way, the lock engaging portions 33A and 33A are inhibited from moving beyond the engagement positions with respect to the connector engaging portions 11 and 11, and the lock engaging portions 33A and 33A may be appropriately positioned with respect to the connector engaging portions 11 and 11.
The guide portions 37 and 37 include the pair of wall portions 40 and 40 that extends in the direction in which the lock engaging portions 33A and 33A move and interposes, or are located to the outside of, the connector engaging portions 11 and 11 in the opposing direction of the pair of connector engaging portions 11 and 11. The wall portions 40 and 40 include the projections 41 that protrude toward the connector engaging portions 11 and 11, and the connector engaging portions 11 and 11 include the recesses 24a and 22x into which the projections 41 fit when the lock engaging portions 33A and 33A are engaged with the connector engaging portions 11 and 11. When the projections 41 are fit into the recesses 24a and 22x, the lock engaging portions 33A and 33A may be appropriately positioned with respect to the connector engaging portions 11, give a click feeling to an operator, and allow the operator to detect engagement.
The lengths of the lock engaging portions 33A and 33A in the X direction are shorter than the length of the main body 31A in the X direction. When the lengths of the lock engaging portions 33A and 33A are short, the moving distances of the lock engaging portions 33A and 33A may be decreased in accordance with the guide portions 37 and 37, and the locking member 30A may be mounted with respect to the receptacle connector 10 even in a limited space.
The lock engaging portions 33A and 33A are disposed at the rear ends of the locking member 30A in the X direction corresponding to the direction in which the lock engaging portions 33A and 33A move. In this way, the lock engaging portions 33A and 33A may be moved by the lengths of the lock engaging portions 33A and 33A and the locking member 30A may be mounted with respect to the receptacle connector 10 in a more limited space.
The wiring substrate 90 is mounted with the plug connector 70 at the one end 90x in the extending direction, and the lock engaging portions 33A and 33A move in the extending direction of the wiring substrate 90 from the other end 90y to the one end 90x in accordance with guidance of the guide portions 37 and 37. In this way, the lock engaging portions 33A and 33A are initially disposed at the other end of the locking member 30A at which the wiring substrate 90 extends. In a configuration in which the wiring substrate 90 is set to the FPC, etc., the other end 90y of the wiring substrate 90 may be raised and tilted. In this case, an extraction force due to tilting of the wiring substrate 90 may be inadvertently applied to the locking member 30A. On the other hand, when the positions of the lock engaging portions 33A and 33A in the locking member 30A are set to the other end at which the wiring substrate 90 extends, the locking member 30A may be inhibited from being detached from the receptacle connector 10 due to extraction by tilting.
The main body 31A includes the first contact portion 38 that is configured to come into contact with the wiring substrate 90 before the lock engaging portion 33A and the connector engaging portion 11 are completely engaged. Additionally, the main body 31 includes the second contact portion 39 that is configured to come into contact with the wiring substrate 90 when engagement of the lock engaging portion 33A and the connector engaging portion 11 is completed. The thickness of the second contact portion 39 is generally greater than the thickness of the first contact portion 38. In a step before engagement is completed, that is, in a state in which the locking member 30A moves with respect to the receptacle connector 10, smooth movement of the locking member 30A is allowed as a result of the first contact portion 38 having a relatively small thickness coming into contact with the wiring substrate 90. In a step in which engagement is completed, the wiring substrate 90 may be favorably pressed by the main body 31A (more specifically, the second contact portion 39) at the time of engagement as a result of the second contact portion 39 having a relatively large thickness coming into contact with the wiring substrate 90.
The first contact portion 38 is formed in an inclined shape to become gradually thicker from a front end toward a rear end in a direction in which the lock engaging portion 33A moves. In this way, a configuration may be adopted in which a pressing force on the wiring substrate 90 by the first contact portion 38 is small when the movement starts, and the pressing force on the wiring substrate 90 by the first contact portion 38 is gradually increased as the movement progresses. In this way, movement of the locking member 30A becomes smoother, and the locking member 30A may be favorably moved with respect to the receptacle connector 10.
It is to be understood that not all aspects, advantages and features described herein may necessarily be achieved by, or included in, any one particular example embodiment. Indeed, having described and illustrated various examples herein, it should be apparent that other examples may be modified in arrangement and detail. We claim all modifications and variations coming within the spirit and scope of the subject matter claimed herein. For example, even though some example embodiments have been described in which the wiring substrate 50 corresponds to the printed circuit board, and the wiring substrate 90 corresponds to the FPC, the invention is not limited thereto, and various electronic circuits may be used as the wiring substrates 50 and 90.
In addition, in the first group of example embodiments, the contact portion 34 may be brought into contact with the back surface 90b of the wiring substrate 90 before the lock engaging portion 33 is engaged with the connector engaging portion 11 by setting the thickness of the contact portion 34 to be greater than that of the elastic portion 35. However, the invention is not limited thereto. For example, a configuration may be adopted in which the main body of the locking member is formed to have a U-shaped cross section, and a central portion in the Y direction may be configured to come into contact with the wiring substrate earlier than both ends in the Y direction. In such a locking member, when the elastic portion and the lock engaging portion are provided at both ends in the Y direction, both ends in the Y direction may be bent downward, and the lock engaging portion may be engaged in a state in which tension is favorably applied.
In addition, in the first group of example embodiments, a description has been given of a configuration in which engagement strength may be improved by elastically deforming the elastic portion 35 to favorably apply tension to the lock engaging portion 33. However, in some example embodiments the engagement strength may be improved by applying a pressing force using a separate spring, etc.
In addition, for some example embodiments the locking member 30 may be made of an insulating material containing resin. However, the invention is not limited thereto, and the locking member may contain metal or other types of suitable material.
Number | Date | Country | Kind |
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2017-020520 | Feb 2017 | JP | national |