This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2017-008749, filed on Jan. 20, 2017, and Japanese Patent Application No. 2017-227677, filed on Nov. 28, 2017, the entire contents of which are incorporated herein by reference.
The present disclosure relates to an electrical connector and a locking member of an electrical connector.
In an electrical connector, it is important to securely maintain a state of engagement with respect to a mating connector which is electrically connected thereto. Generally, the state of engagement with respect to the mating connector in the electrical connector is maintained by a spring force or the like for each contact of the connectors (for example, Japanese Unexamined Patent Publication No. 2005-183212).
Disclosed herein is a state of engagement for a mating connector that is securely maintained in accordance with the use of an electrical connector. In order to securely maintain the state of engagement, for example, a method of using an adhesive after the fitting is considered, but when the adhesive is used, a removal operation becomes difficult in the state of engagement. In this way, a series of operations such as an operation of securely maintaining the state of engagement and an operation of inserting (connecting) and removing (disconnecting) the electrical connector may be complicated. Here, the present disclosure describes an electrical connector and a locking member of an electrical connector capable of securely maintaining a state of engagement without requiring a complicated series of additional operations.
According to some example embodiments of the present disclosure, an electrical connector includes a first connector and a locking member attached to the first connector. The first connector may include a first contact having a conductive property and electrically connected to a contact of a second connector which is a mating connector. The first contact may include a cylindrical fitting portion fitted to the contact of the second connector, and an outer diameter of the fitting portion may be configured to be increased when the fitting portion is attached to and removed from the contact of the second connector. The locking member may include a regulation portion configured to regulate the enlargement of the fitting portion when the fitting portion is removed from the contact of the second connector. Additionally, the locking member may include a guide portion that guides the movement of the regulation portion with respect to the fitting portion. The guide portion may be configured to guide the movable regulation portion between a regulation position associated with regulating the enlargement of the fitting portion and a standby position which may not be associated with regulating the enlargement.
In some example electrical connectors according to the present disclosure, the regulation portion of the locking member can regulate an increase in outer diameter of the fitting portion. Accordingly, since the enlargement of the fitting portion fitted to the second connector is suppressed, it is possible to securely maintain the state of engagement between the first connector and the second connector. Further, in some electrical connectors according to the present disclosure, the guide portion of the locking member guides the movable regulation portion between the regulation position and the standby position. Accordingly, for example, the insertion (connection) and the removal (disconnection) of the fitting portion to or from the contact can be easily performed while the regulation portion is located at the standby position. Then, when connecting the fitting portion of the first connector to the contact of the second connector, the state of engagement can be securely maintained while the regulation portion is located at the regulation position. That is, it is possible to securely maintain the state of engagement between the first connector and the second connector while allowing for the continued ability to readily insert and remove the first connector.
The regulation portion may include a pair of arm portions which regulates the enlargement of the fitting portion by sandwiching the fitting portion from the outside in the radial direction. Since the fitting portion is sandwiched from the outside in the radial direction, which is a direction in which the diameter of the fitting portion is widened, it is possible to effectively regulate the enlargement of the fitting portion. That is, it is possible to further securely maintain the state of engagement between the first connector and the second connector.
A gap between the pair of arm portions may be narrower than the outer diameter of the fitting portion when it is enlarged. Accordingly, it is possible to simply and easily regulate the enlargement of the fitting portion by sandwiching the fitting portion between the pair of arm portions.
The guide portion may guide the movement of the regulation portion in a direction intersecting (e.g., perpendicular to) the direction of engagement of the fitting portion. Since the movement of the regulation portion is guided in a direction different from the direction of engagement, it is possible to clearly distinguish the fitting/engagement operation and the locking operation as different operations and thus to improve the functionality of the connector.
The first connector may be attached to one end of a cable and the guide portion may guide the movement of the regulation portion in the axial direction of the cable. Since the movement of the regulation portion is guided in the axial direction of the cable, the cable does not inhibit the movement of the regulation portion and the regulation portion can be easily moved. Thus, the functionality can be improved.
The first connector may include a lid portion covering a surface of the first connector opposite to the side that contacts the second connector in the direction of engagement of the fitting portion. Additionally, the first connector may include a rail portion that is provided in the lid portion that is configured to extend in the axial direction of the first connector. The guide portion may include a sliding portion extending in the axial direction that is configured to slide along the rail portion to guide the movement of the regulation portion in the axial direction. Since the sliding portion moves along the rail portion of the first connector, it is possible to simply and easily move the regulation portion with respect to the fitting portion.
The sliding portion may be engaged to the rail portion by a first protrusion portion that engages with an engagement portion after a position of the regulation portion reaches the regulation position by the sliding of the sliding portion. In some example connectors the sliding portion may comprise the first protruding portion and the rail portion may comprise the engagement portion, whereas in other example connectors the configuration may be reversed. Since the first protrusion portion engages with the engagement portion, the operator can feel a sensation of clicking and thus the operator can detect a state of engagement when the regulation portion has been placed in the regulation position.
The guide portion may be provided to face the pair of awl portions in the direction of engagement and to hold the sliding portion. Additionally, the guide portion may include a flat portion provided to cover the lid portion, and the flat portion may be provided with an opening. Accordingly, since it is possible to visually recognize the positions of the pair of arm portions (e.g., the regulation portions) with respect to the first connector from the opening when sliding the sliding portion, the operator can detect the position of the regulation portion.
The guide portion may include a pair of extension portions that extend from the pair of arm portions of the regulation portion. The pair of extension portions may be disposed to sandwich the fitting portion from the outside in the radial direction while the regulation portion is disposed at the standby position, and a gap between the pair of extension portions may be wider than a gap between the pair of arm portions. Since the extension portions may be configured to extend contiguously from the arm portions and to sandwich the fitting portion while the regulation portion is disposed at the standby position, it is possible to further appropriately guide the movement of the arm portion (e.g., the regulation portion) with respect to the fitting portion. Further, since the gap between the pair of extension portions is wider than the gap between the pair of arm portions, it is possible to allow the enlargement of the fitting portion in a state of operation where the regulation portion is disposed at the standby position, that is, while the extension portions sandwich the fitting portion.
The guide portion may include a pair of extension portions extending from the pair of arm portions of the regulation portion, and the pair of extension portions may sandwich the fitting portion from the outside in the radial direction when the regulation portion is disposed at the standby position. In some example connectors, the rigidity of the pair of extension portions may be lower than the rigidity of the pair of aim portions. Since the extension portions may be configured to extend contiguously from the arm portions and to sandwich the fitting portion when the regulation portion is disposed at the standby position, it is possible to further appropriately guide the movement of the arm portion (e.g., the regulation portion) with respect to the fitting portion. Further, since the rigidity of the extension portion is lower than the rigidity of the arm portion, it is possible to allow the enlargement of the fitting portion while the regulation portion is disposed at the standby position, that is, while the extension portions sandwich the fitting portion.
At least one of the pair of extension portions may include a second protrusion portion that may be contiguously provided at an end portion of the extension portion opposite to the atm portion. While contacting the fitting portion, the second protrusion portion may be configured to prevent the fitting portion from passing between the pair of extension portions. Since the second protrusion portion is provided at the end portion of the extension portion and the second protrusion portion is configured to prevent the passage of the fitting portion, the separation of the locking member from the first connector may be prevented.
The first connector may be a plug-type connector attached to one end of a coaxial cable, the second connector may be a receptacle-type connector mounted on a substrate electrically connected to the coaxial cable and fitted to the plug connector, and the contact of the second connector may be a ground contact connected to a ground terminal of the substrate. Accordingly, it is possible to securely maintain the state of engagement between the receptacle-type connector and the plug-type connector of the coaxial cable by using the locking member.
The locking member according to some example embodiments of the present disclosure includes a regulation portion capable of regulating the enlargement of the cylindrical fitting portion which is electrically connected and fitted to the contact of the mating connector. The outer diameter of the cylindrical fitting portion is increased when the electrical connector is attached to and removed from the mating connector and a guide portion guides the movement of the regulation portion with respect to the fitting portion. Additionally, the regulation portion is configured to regulate the enlargement of the fitting portion when removing the fitting portion from the mating connector, and the guide portion guides the movement of the regulation portion between the regulation position and the standby position.
The electrical connector according to some example embodiments of the present disclosure includes a first connector and a locking member attached to the first connector. The first connector includes a first contact that has a conductive property and that is electrically connected to a contact of a second connector corresponding to a mating connector. The first contact includes a cylindrical fitting portion fitted to the contact of the second connector, and the fitting portion has a slit faulted in a side surface in a direction of engagement (hereinafter, referred to as a “direction of engagement”). The fitting portion is configured to be enlarged while being widened in the radial direction by using the slit as a boundary when the fitting portion is attached to and removed from the contact of the second connector. The locking member includes a pair of arm portions capable of regulating the enlargement of the fitting portion by sandwiching the fitting portion from the outside in the radial direction. Additionally, the pair of arm portions includes a pair of projection portions which extend toward the slit along the fitting portion.
In some example electrical connectors according to the present disclosure, the pair of arm portions of the locking member is configured to regulate the enlargement of the fitting portion. Accordingly, since the enlargement of the fitting portion fitted to the second connector is suppressed, it is possible to securely maintain the connection, or the state of engagement, between the first connector and the second connector. Here, the fitting portion can be enlarged while being widened by using the slit as a boundary. For this reason, the size of the slit may be controlled in order to effectively suppress the enlargement. In this regard, in some electrical connectors according to the present disclosure, the pair of arm portions includes the projection portions extending toward the slit along the fitting portion, and the fitting portion in the vicinity of the slit is pressed by the projection portions. Accordingly, since the enlargement of the fitting portion is further appropriately suppressed, it is possible to further securely maintain the state of engagement between the first connector and the second connector. Further, in the electrical connector according to the present disclosure, since the enlargement of the fitting portion is regulated by the locking member, it is possible to easily perform a removal operation by releasing the fitting portion enlargement regulation state using the locking member even when the removal operation is needed after the fitting. That is, according to some electrical connectors of the present disclosure, it is possible to more easily perform a series of operations relating to the inserting (connecting) operation and maintaining the state of engagement as compared to connectors which rely on an adhesive.
In some example connectors, the first connector may be configured to be attached to one end of a cable and the locking member may be configured to move along the axial direction corresponding to the extension direction of the cable. In this way, since the locking is realized by moving the locking member in a direction (e.g., the axial direction of the cable) that is different from the direction of engagement of the electrical connector, it is possible to clearly distinguish the fitting/engagement operation and the locking operation and thus to improve the functionality.
In some example embodiments, the locking member may further include a guide portion configured to guide the movement of the pair of arm portions from a standby position, in which the pair of arm portions is located near a base end of the cable in relation to the fitting portion in the axial direction, to a regulation position, in which the pair of arm portions sandwiches the fitting portion from the outside in the radial direction. Accordingly, for example, when inserting and removing the fitting portion to and from the second contact, the insertion and the removal can be easily performed while the pair of arm portions is located at the standby position. Then, when fitting the fitting portion of the first connector to the contact of the second connector, the state of engagement can be securely maintained while the pair of arm portions is located at the regulation position. That is, it is possible to securely maintain the state of engagement between the first connector and the second connector while allowing for the continued ability to readily connect and disconnect the first connector. Further, since the standby position is set to a (rear) position near the base end of the cable in relation to the fitting portion, the pair of arm portions is not disposed at the front of the fitting portion during the locking operation, in which the pair of arm portions is moved from the standby position to the regulation position. Accordingly, by disposing the locking member at the rear area of the first connector in the substrate, it is possible to mount other electronic components on the front area in the substrate and to improve the mounting efficiency of the substrate.
In some example connectors, the first contact may include a lid portion covering an opening opposite to an opening that is configured to receive the contact of the second connector in the fitting portion, and a rail portion that contiguously extends from the lid portion in the axial direction. Additionally, the guide portion may include a sliding portion that extends in the axial direction and is configured to slide along the rail portion to guide the movement of the pair of arm portions in the axial direction. Since the sliding portion moves along the rail portion of the first connector, it is possible to easily move the pair of arm portions.
In some example connectors, the sliding portion may cover the rail portion from the outside and engage with the rail portion. Since the sliding portion engages with the rail portion, it is possible to suppress or prohibit the separation of the locking member from the first connector in the direction of engagement.
In some example connectors, the first contact may further include a clamping portion provided to sandwich the cable at a position near a base end of the cable in relation to the fitting portion in the axial direction. The projection portion may be configured to contact the clamping portion while regulating the enlargement of the fitting portion. In this way, since the projection portion that extends toward the slit along the fitting portion may be configured to contact the clamping portion, the projection portion is sandwiched between the fitting portion and the clamping portion. Accordingly, since the position of the projection portion that regulates the enlargement in the vicinity of the slit is easily fixed, it is possible to further securely maintain the state of engagement between the first connector and the second connector.
In some example connectors, the pair of arm portions may be configured to be elastically deformable in a vertical direction (i.e., the direction of engagement). Since the pair of arm portions is configured to be elastically deformable, the projection portion may be configured to be moved over other components even when the projection portion interferes with other components (for example, the clamping portion) while sliding the pair of arm portions. That is, it is possible to further easily move the pair of arm portions.
Accordingly, it is possible to provide an electrical connector and a locking member of the electrical connector capable of securely maintaining a state of engagement while also maintaining the functionality of the connector.
In the description below, a repetitive description will be omitted by using the same reference numerals for the same components or components having the same function.
[Outline of Electrical Connector]
An outline of an example electrical connector will be described with reference to
Additionally, in some example embodiments the axial direction of the coaxial cable SC is understood as being in an “X direction”, the direction of engagement between the plug connector 10 and the receptacle connector 100 when the plug connector 10 and the receptacle connector 100 are fitted to each other is a “Z direction”, and a direction orthogonal to the X direction and the Z direction is a “Y direction”. Further, in some example embodiments, an attachment end portion of the plug connector 10 in the coaxial cable SC in the X direction may be considered a “front end” and an opposite end portion may be considered a “rear end”. Further, the “top” of the plug connector 10 which is visible in
[Plug Connector]
Next, further details of the plug connector 10 will be described with reference to
(Coaxial Cable)
The coaxial cable SC may comprise a wire which is used in a small terminal such as a cellular phone in order to transmit a high-frequency signal among various signal processing elements (for example, an antenna, a control chip for controlling the antennal, a substrate, and the like) built-in the small terminal. The coaxial cable SC includes an inner conductor SC1 (see
In some example embodiments, the inner conductor SC1 is electrically connected to a signal contact member 102 (to be described later) of the receptacle connector 100 connected to a signal terminal 201 of the printed wiring board 200 through the inner conductor contact 13, thereby obtaining a signal transmission circuit. Further, the outer conductor of the coaxial cable SC is electrically connected to a ground contact member 103 (to be described later) of the receptacle connector 100 connected to a ground terminal 202 of the printed wiring board 200 though the outer conductor shell 11, thereby obtaining a ground circuit.
(Outer Conductor Shell)
The outer conductor shell 11 may comprise a conductive ground contact member electrically connected to the outer conductor of the coaxial cable SC. The outer conductor shell 11 is provided to cover the periphery of the insulation housing 12 as shown in
The fitting portion 11a may be formed in a cylindrical shape (a tubular shape) in which the Z direction is the axial direction and the insulation housing 12 is coaxially accommodated in a cylindrical hole. An inner peripheral surface of the fitting portion 11a contacts an outer peripheral surface of the insulation housing 12. A projection portion 11c which projects inward in the radial direction (toward the center side of the cylindrical shape of the fitting portion 11a) along the entire circumference is provided at the lower end of the fitting portion 11a (see
The lid portion 11b is a portion which covers an upper surface of the fitting portion 11a. The lid portion 11b is integrally formed with the fitting portion 11a. The lid portion 11b is provided with the rail portion 11e extending in the X direction.
The lid portion 11b includes a fixed portion 11f and a cover portion 11g. The fixed portion 11f is a portion in which the plug connector 10 is attached to the coaxial cable SC. The fixed portion 11f is provided along the coaxial cable SC. The fixed portion 11f is configured to be bendable and is a plate-shaped member having a U-shape when at rest. The fixed portion 11f covers the outer peripheries of the protection coating and the outer conductor of the coaxial cable SC and the front end is clamped to be fixed to the coaxial cable SC so that the plug connector 10 is attached to the coaxial cable SC. The cover portion 11g covers and closes an opening portion of the upper surface of the fitting portion 11a.
The rail portion 11e is integrally formed with the cover portion 11g and extends in the X direction. The rail portion 11e is provided in substantially the entire length of the cover portion 11g in the X direction. The rail portion 11e includes a first rail 11h which is provided in the vicinity of the front end of the plug connector 10 in the X direction and a second rail 11i which is provided to the rear of the first rail 11h in the X direction. Both the first rail 11h and the second rail 11i are provided at both ends of the cover portion 11g in the Y direction. As shown in
As shown in
The first wall portion 11k and the second wall portion 11m contact the locking member 30 when the sliding portion 39 (to be described later) of the locking member 30 slides. The first wall portion 11k and the second wall portion 11m are not contiguous in the X direction and a notch portion 11o (e.g., an engagement portion) is formed therebetween. The notch portion 11o is located to the rear of the fitting portion 11a in the X direction. Both the first rail 11h and the second rail 11i are plate-shaped members integrally formed with the cover portion 11g and the first connection portion 11j. In some examples, the first wall portion 11k, the second connection portion 11l, the second wall portion 11m, and the cover portion 11n described above are formed by bending, for example, both end portions of the cover portion 11g in the Y direction.
(Insulation Housing)
The insulation housing 12 is formed in a cylindrical shape and is an insulator (see
(Inner Conductor Contact)
The inner conductor contact 13 is attached to the insulation housing 12 by press-inserting. The inner conductor contact 13 includes a connection portion 13a connected to the inner conductor SC1 of the coaxial cable SC and a pair of contact portions 13b extending from the connection portion 13a in the Z direction (the direction of engagement) and electrically connected to the inner conductor SC1 (see
[Locking Member]
Next, a detail of the locking member 30 will be described with reference to
(Main Body)
The main body 31 includes a flat portion 34 and a connecting portion 35. The flat portion 34 is a substantially rectangular flat plate which is provided to cover the lid portion 11b of the outer conductor shell 11, more specifically, the cover portion 11g (see
(Regulation Portion)
The regulation portion 32 is configured to regulate or prohibit the enlargement of the fitting portion 11a. More specifically, the regulation portion 32 may be configured to regulate the enlargement of the fitting portion 11a in order to keep the state of engagement between the concave portion 103a of the ground contact member 103 and the projection portion 11c of the fitting portion 11a prior to removing the fitting portion 11a from the ground contact member 103 (see
The front end portion 36 may be configured to position the fitting portion 11a when the enlargement of the fitting portion 11a is regulated by contact between the locking member 30 and the front end of the fitting portion 11a in the X direction (e.g., when the locking member 30 is positioned at the regulation position to be described later with respect to the plug connector 10). The front end portion 36 comprises a shape generally corresponding to a partial cylindrical shape in order to increase the contact area with the cylindrical fitting portion 11a. That is, the front end portion 36 closest to a pair of extension portions 41 and 42, to be described later (see
The pair of arm portions 37 and 38 regulates or prohibits the enlargement of the fitting portion 11a by sandwiching the fitting portion 11a from the outside in the radial direction (the Y direction). A first arm portion 37 contiguously extends from one side of the front end portion 36 in the negative X direction, and a second arm portion 38 contiguously extends from the other side of the front end portion 36 parallel to the first arm portion 37 in the negative X direction. A gap between the pair of arm portions 37 and 38 is narrower than the outer diameter of the fitting portion 11a when it is enlarged, and the gap is set to be substantially the same as, for example, the outer diameter of the fitting portion 11a when it is not enlarged. In some example embodiments, the “outer diameter of the fitting portion 11a” means the outer diameter of the fitting portion 11a which is located at the same height as the pair of arm portions 37 and 38 (the same position in the Z direction) when the locking member 30 is attached to the plug connector 10.
The lengths of the pair of arm portions 37 and 38 in the X direction are set to be the same as each other. As shown in
(Guide Portion)
As shown in
As shown in
The sliding portion 39 includes a first protrusion portion 39b (see
The positioning portion 40 corresponds to a pair of plate-shaped pieces which is integrally formed with the flat portion 34 at both sides of the flat portion 34 in the Y direction and is provided to the rear of the sliding portion 39 in the X direction. As shown in
The pair of extension portions 41 and 42 contiguously extends from the pair of arm portions 37 and 38 of the regulation portion 32. That is, a first extension portion 41 contiguously extends from the first arm portion 37 in the negative X direction and a second extension portion 42 contiguously extends from the second arm portion in the negative X direction. As shown in
As shown in
[Detail of Electrical Connector]
Next, additional details of the electrical connector 1 including the plug connector 10 to which the locking member 30 is attached will be described with reference to
As shown in
Meanwhile, as shown in
Next, a configuration for detecting the regulation position or the standby position by the operator will be described in detail. For example, as shown in
Then, as described above, a position of the first protrusion portion 39b substantially matches each position of the rear ends of the pair of arm portions 37 and 38 in the X direction, and a position of the front end 11x of the first rail 11h substantially matches a position of the front end 11y of the slit formed in the fitting portion 11a in the X direction. Furthermore, as shown in
Further, for example, as shown in
Then, as described above, the position of the first protrusion portions 39b substantially matches the corresponding positions of the rear ends of the pair of arm portions 37 and 38 in the X direction and, as shown in
Next, a separation preventing structure configured to prevent the separation of the electrical connector 1 will be described in further detail. Specifically, the separation preventing structure may be configured to prevent the separation of the locking member 30 from the plug connector 10. As shown in
As shown in
As shown in
[Fitting and Locking of Electrical Connector]
Next, the connection and removal of the plug connector 10 and the receptacle connector 100 will be described with reference to
The receptacle connector 100 includes, as shown in
The regulation portion 32 is located at the standby position as shown in
In the connecting operation, the projection portion 11c of the fitting portion 11a engages with the concave portion 103a of the ground contact member 103 and the plug connector 10 is fitted to the receptacle connector 100. In the state of engagement, the pair of contact portions 13b of the plug connector 10 contacts the signal contact member 102 of the receptacle connector 100. In addition, the fitting portion 11a is made to be insertable onto and removable from the ground contact member 103 when the fitting portion is enlarged and is not made to be insertable onto and removable from the ground contact member 103 when the fitting portion is not enlarged.
As shown in
[Operation and Effect]
Next, the operation and effect of the electrical connector 1 will be described.
The electrical connector 1 according to some example embodiments includes the plug connector 10 and the locking member 30 attached to the plug connector 10. The plug connector 10 includes the conductive outer conductor shell 11 which is electrically connected to the ground contact member 103 of the receptacle connector 100 which is the mating connector. The outer conductor shell 11 includes the cylindrical fitting portion 11a fitted to the ground contact member 103. An outer diameter of the fitting portion 11a is configured to be enlarged when the fitting portion is attached to or removed from the ground contact member 103. The locking member 30 includes the regulation portion 32 capable of regulating the enlargement of the fitting portion 11a at the time of removing the fitting portion 11a fitted to the ground contact member 103 (see
In the electrical connector 1, the regulation portion 32 of the locking member 30 is configured to regulate or prohibit an increase in outer diameter of the fitting portion 11a. Accordingly, since the enlargement of the fitting portion 11a fitted to the receptacle connector 100 is suppressed, it is possible to securely maintain the state of engagement between the plug connector 10 and the receptacle connector 100. Further, in the electrical connector 1, the guide portion 33 of the locking member 30 guides the regulation portion 32 as it moves between the regulation position where the enlargement of the fitting portion 11a is regulated and the standby position where the fitting portion is not regulated. Accordingly, for example, it is possible to easily perform the insertion and removal of the fitting portion in a state where the regulation portion 32 is located at the standby position with respect to the plug connector 10 at the time of inserting and removing the fitting portion 11a onto and from the ground contact member 103 and to securely maintain the state of engagement in a state where the regulation portion 32 is located at the regulation position with respect to the plug connector 10 at the time of fitting the fitting portion 11a of the plug connector 10 to the ground contact member 103 of the receptacle connector 100. That is, it is possible to securely maintain the state of engagement between the plug connector 10 and the receptacle connector 100 while also maintaining the functionality of the electrical connector, such as connecting and removing the plug connector 10.
The regulation portion 32 includes the pair of arm portions 37 and 38 which regulates the enlargement of the fitting portion 11a by sandwiching the fitting portion 11a from the outside in the radial direction. Since the fitting portion 11a is sandwiched from the outside in the radial direction which is a direction in which the diameter of the fitting portion 11a is widened, the enlargement of the fitting portion 11a can be effectively regulated. That is, it is possible to further securely maintain the state of engagement between the plug connector 10 and the receptacle connector 100.
A gap between the pair of arm portions 37 and 38 is narrower than the outer diameter of the fitting portion 11a which is enlarged. Accordingly, it is possible to simply and easily regulate the enlargement of the fitting portion 11a by sandwiching the fitting portion 11a between the pair of arm portions 37 and 38. In addition, since the force generated when the fitting portion 11a is enlarged is not great enough to bend or expand the relatively rigid pair of arm portions 37 and 38, it is possible to further reliably regulate or prohibit the enlargement of the fitting portion 11a.
The guide portion 33 guides the movement of the regulation portion 32 in a direction intersecting (e.g., perpendicular to) the direction of engagement of the fitting portion 11a. Since the movement of the regulation portion 32 is guided in a direction different from the direction of engagement, it is possible to clearly distinguish the fitting/connecting operation and the locking operation as different operations and thus to improve the functionality.
The plug connector 10 is attached to one end of the coaxial cable SC and the guide portion 33 guides the movement of the regulation portion 32 in the axial direction (the X direction) of the coaxial cable SC. Since the movement of the regulation portion 32 is guided in the axial direction (the X direction) of the coaxial cable SC, the coaxial cable SC does not inhibit the movement of the regulation portion 32 and the regulation portion 32 can be easily moved. Accordingly, the functionality can be improved.
The plug connector 10 includes the 11d portion 11b which covers a surface opposite to a surface facing the ground contact member 103 of the receptacle connector 100 of the fitting portion 11a in the Z direction. Additionally, the plug connector 10 includes the rail portion 11e which is provided in the lid portion 11b and extends in the axial direction (the X direction). The guide portion 33 may include the sliding portion 39 which extends in the axial direction (the X direction) and slides along the rail portion 11e to guide the movement of the regulation portion 32 in the axial direction (the X direction). Since the sliding portion 39 moves along the rail portion 11e of the plug connector 10, it is possible to simply and easily move the regulation portion 32 with respect to the fitting portion 11a.
The sliding portion 39 may include the first protrusion portion 39b which protrudes toward the rail portion 11e, and the rail portion 11e may include the notch portion 11o which engages with the first protrusion portion 39b after a position of the regulation portion 32 reaches the regulation position by the sliding of the sliding portion 39. Since the first protrusion portion 39b engages with the notch portion 11o, the operator can feel a sensation of clicking and thus the operator can detect when the regulation portion 32 becomes engaged in the regulation position.
The guide portion 33 may be configured to face the pair of arm portions 37 and 38 in the direction of engagement and to hold the sliding portion 39. Additionally, the guide portion 33 may include the flat portion 34 which is configured to cover the lid portion 11b and which may be provided with the opening 34a. Accordingly, since it is possible to visually recognize the positions of the pair of arm portions 37 and 38 with respect to the plug connector 10 from the opening 34a when sliding the sliding portion 39, the operator can detect the positions of the pair of arm portions 37 and 38.
The guide portion 33 may include the pair of extension portions 41 and 42 which contiguously extend from the pair of arm portions 37 and 38 of the regulation portion 32. The pair of extension portions 41 and 42 may be disposed to sandwich the fitting portion 11a from the outside in the radial direction while the regulation portion 32 is disposed at the standby position. A gap between the pair of extension portions 41 and 42 may be wider than a gap between the pair of arm portions 37 and 38. Since the extension portions 41 and 42 are configured to sandwich the fitting portion 11a when the regulation portion 32 is located at the standby position, it is possible to further appropriately guide the movement of the arm portions 37 and 38 (the regulation portion 32) with respect to the fitting portion 11a. Further, since a gap between the pair of extension portions 41 and 42 is wider than a gap between the pair of arm portions 37 and 38, the enlargement of the fitting portion 11a can be allowed when the regulation portion 32 is disposed at the standby position, that is, a state where the extension portions 41 and 42 sandwich the fitting portion 11a.
At least one of the pair of extension portions 41 and 42 may include the second protrusion portions 43 and 44 protruding toward the other side, and the second protrusion portions 43 and 44 may be provided at an opposite end of the extension portions 41 and 42 from the arm portions 37 and 38. The second protrusion portions 43 and 44 may protrude to prevent the passage of the fitting portion 11a between the pair of extension portions 41 and 42 as a result of contact with the fitting portion 11a. Since the second protrusion portions 43 and 44 are provided at the ends of the extension portions 41 and 42 and the second protrusion portions 43 and 44 protrude to prevent the passage of the fitting portion 11a, it is possible to prevent the locking member 30 from being separated from the plug connector 10.
While examples according to a first group of embodiments have been described, various modifications of the above-described embodiments can be made without departing from the spirit of the present disclosure. For example, although it has been described that a gap between the pair of extension portions 41 and 42 is wider than a gap between the pair of arm portions 37 and 38 to allow the enlargement of the fitting portion 11a at the standby position, the present disclosure is not limited thereto. For example, the enlargement of the fitting portion 11a may be allowed by setting the rigidity of the pair of extension portions 41 and 42 to be lower than the rigidity of the pair of arm portions 37 and 38.
Further, although it has been described that the sliding portion 39 includes the first protrusion portion 39b and the rail portion 11e includes the notch portion 11o, the present disclosure is not limited thereto. In contrast, the rail portion 11e may include one or more protrusion portions and the sliding portion 39 may include a notch portion which engages with the protrusion portion of the rail portion 11e in the regulation position.
Further, although it has been described that the second protrusion portions 43 and 44 are respectively provided at the pair of extension portions 41 and 42, the present disclosure is not limited thereto. For example, at least one of the pair of extension portions 41 and 42 may be provided with a configuration corresponding to the second protrusion portion.
In the description below, a repetitive description will be omitted by using the same reference numerals for the same components or components having the same function.
[Outline of Electrical Connector]
An outline of an example electrical connector will be described with reference to
Additionally, in some example embodiments the axial direction of the coaxial cable SC is understood as being in an “X direction”, the direction of engagement between the plug connector 510 and the receptacle connector 600 when the plug connector 510 and the receptacle connector 600 are fitted to each other is a “Z direction”, and a direction orthogonal to the X direction and the Z direction is a “Y direction”. Further, in some example embodiments, an attachment end portion of the plug connector 510 in the coaxial cable SC in the X direction may be considered a “front end (a distal end)” and an opposite end portion may be considered a “base end (a rear end)”. Further, the “top” of the plug connector 510 which is visible in
[Plug Connector]
Next, further details of the plug connector 510 will be described with reference to
(Coaxial Cable)
The coaxial cable SC may comprise a wire which is used in a small terminal such as a cellular phone in order to transmit a high-frequency signal among various signal processing elements (for example, an antenna, a control chip for controlling the antennal, a substrate, and the like) built-in the small terminal. The coaxial cable SC includes an inner conductor, an insulator which is provided in the periphery of the inner conductor, an outer conductor which is provided in the periphery of the insulator, and a protection coating which is provided in the periphery of the outer conductor. In the coaxial cable SC, the outer conductor, the insulator, and the inner conductor are exposed stepwise in this order as it goes toward the front end to which the plug connector 510 is attached.
In some example embodiments, the inner conductor is electrically connected to a signal contact member 602 (see
(Outer Conductor Shell)
The outer conductor shell 511 may comprise a conductive ground contact member electrically connected to the outer conductor of the coaxial cable SC. The outer conductor shell 511 is provided to cover the periphery of the insulation housing 512 as shown in
The fitting portion 511a may be formed in a cylindrical shape (a tubular shape) in which the Z direction is the axial direction and the insulation housing 512 is coaxially accommodated in a cylindrical hole. An inner peripheral surface of the fitting portion 511a contacts an outer peripheral surface of the insulation housing 512. A projection portion 511f which projects inward in the radial direction (toward the center axis of the fitting portion 511a) along the entire circumference is provided at the lower end of the fitting portion 511a (see
A rear end portion of the side surface of the fitting portion 511a is provided with a slit 511g (see
The lid portion 511b covers an opening portion of an upper surface of the fitting portion 511a. That is, the lid portion 511b covers the opening located at the opposite side from where the receptacle connector 600 is received in the fitting portion 511a. The lid portion 511b is integrally formed with the fitting portion 511a. The lid portion 511b covers the opening of the fitting portion 511a and extends backward in the X direction to an area provided with the pair of clamping portions 511d and 511d to be described later.
The pair of rail portions 511c extend contiguously from the lid portion 511b in the X direction as shown in
The pair of clamping portions 511d is formed at a position near the base end of the coaxial cable SC in relation to the fitting portion 511a in the X direction (that is, to the rear of the fitting portion 511a) to sandwich the coaxial cable SC. The pair of clamping portions 511d extends contiguously from the lid portion 511b. More specifically, the pair of clamping portions 511D are located on both sides of the lid portion 511b and to the rear of the opening of the fitting portion 511a of the lid portion 511b. The clamping portion 511d includes a side wall portion 511n which extends contiguously downward from the lid portion 511b and a folded-back portion 511o which contiguously extends in the Y direction (specifically, a direction facing the opposite clamping portion 511d) from the lower end of the side wall portion 511n. Each of the folded-back portions 511o of the pair of clamping portions 511d extends to the center portion of the plug connector 510 in the Y direction (see
The fixed portion 511e to which the plug connector 510 is attached, is fixed with respect to the coaxial cable SC. The fixed portion 511e is located along the coaxial cable SC at a position near the base end of the coaxial cable SC (that is, to the rear of the pair of clamping portions 511d and 511d) in relation to the pair of clamping portions 511d and 511d in the X direction. The fixed portion 511e is configured to be bendable and is a plate-shaped member having a U-shape when at rest. The fixed portion 511e covers the outer peripheries of the protection coating and the outer conductor of the coaxial cable SC and the front end is clamped to be fixed to the coaxial cable SC, so that the plug connector 510 is attached to the coaxial cable SC.
(Housing)
The housing 512 is formed in a cylindrical shape and is an insulator (see
(Inner Conductor Contact)
The inner conductor contact 513 is attached to the insulation housing 512 by press-inserting. The inner conductor contact 513 includes a connection portion 513a connected to the inner conductor of the coaxial cable SC and a pair of contact portions 513b extending from the connection portion 513a in the Z direction (the direction of engagement) and electrically connected to the inner conductor (see
[Locking Member]
Next, a detail of the locking member 530 will be described with reference to
The pair of arm portions 531 can regulate the enlargement of the fitting portion 511a by sandwiching the fitting portion 511a from the outside in the radial direction (the Y direction). The pair of arm portions 531 extends in the X direction while facing each other in the Y direction. In the pair of arm portions 531, a shape of a portion sandwiching the fitting portion 511a (a portion facing the fitting portion 511a) is formed into a shape corresponding to the outer shape (that is, the circular shape) of the fitting portion 511a (see
The pair of arm portions 531 includes projection portions 534 which extend toward the slit 511g along the outer edge of the fitting portion 511a when the enlargement of the fitting portion 511a is regulated (that is, when the fitting portion 511a is sandwiched therebetween) (see
The guide portion 532 guides the movement of the pair of arm portions 531 from the standby position, where the pair of arm portions 531 is located near the coaxial cable SC and behind the fitting portion, to the regulation position where the pair of arm portions 531 sandwiches the fitting portion 511a from the outside in the radial direction. In some examples, the movement of the arm portion is guided until the arm portion reaches the regulation position while the locking member 530 is separated from the plug connector 510, and in other examples the movement of the arm portion is guided from a certain area to the other area without the separation of the locking member 530 from the plug connector 510. The regulation position and the standby position indicate the relative positions of the pair of arm portions 531 with respect to the fitting portion 511a.
The guide portion 532 includes a base portion 535 and a pair of sliding portions 536. The base portion 535 is a substantially rectangular flat plate which is flush with a base portion 538 of the connection portion 533 to be described later and covers the upper surface of the lid portion 511b. The pair of sliding portions 536 extends in the X direction and slides along the pair of rail portions 511c to guide the movement of the pair of arm portions 531 in the X direction. The sliding portions 536 are located on both sides of the base portion 535 in the Y direction. The lower ends of the pair of sliding portions 536 are provided with a pair of protrusion portions 537 extending inward toward each other (see
The connection portion 533 is configured to connect the pair of arm portions 531 to the guide portion 532. The connection portion 533 includes a base portion 538 and a pair of connection portions 539. The base portion 538 is a rectangular flat plate which is flush with the base portion 535 of the guide portion 532, is continuous to the rear end of the base portion 535, and covers the upper surface of the lid portion 511b. The pair of connection portions 539 extends contiguously downward from a rear end of the base portion 538 and the lower ends thereof are connected to the rear ends of the pair of arm portions 531.
[Locking Member Attaching and Locking Process]
Next, a process of attaching and locking the locking member 530 to the plug connector 510 will be described in detail with reference to
As shown in
As shown in
In the insertion/connection operation, the projection portion 511f (see
As shown in
[Operation and Effect]
Next, the operation and effect of the electrical connector 501 will be described below.
The electrical connector 501 according to some example embodiments includes the plug connector 510 and the locking member 530 attached to the plug connector 510. The plug connector 510 includes the conductive outer conductor shell 511 electrically connected to the ground contact member 603 of the receptacle connector 600, which is a mating connector, and the outer conductor shell 511 includes the cylindrical fitting portion 511a fitted to the ground contact member 603. The fitting portion 511a has the slit 511g formed in the side surface in the direction of engagement and is enlarged to be widened in the radial direction by using the slit 511g as a boundary at the time of inserting and removing the fitting portion to and from the ground contact member 603. The locking member 530 includes the pair of arm portions 531 configured to regulate the enlargement of the fitting portion 511a by sandwiching the fitting portion 511a from the outside in the radial direction. Additionally, the pair of arm portions 531 includes the projection portion 534 extending toward the slit 511g along the fitting portion 511a while the enlargement of the fitting portion 511a is regulated.
In the electrical connector 501, the pair of arm portions 531 of the locking member 530 can regulate or control the enlargement of the fitting portion 511a. Accordingly, since the enlargement of the fitting portion 511a fitted to the receptacle connector 600 is suppressed, it is possible to securely maintain the state of engagement between the plug connector 510 and the receptacle connector 600. Here, the fitting portion 511a can be enlarged while being widened by using the slit 511g as a boundary. For this reason, it is desirable to control the size of the slit 511g in order to effectively suppress the enlargement. In this regard, in the electrical connector 501, the pair of arm portions 531 and 531 includes the projection portions 534 and 534 extending toward the slit 511g along the fitting portion 511a and the vicinity next to the slit 511g is pressed by the projection portions 534 and 534. Accordingly, since it is possible to further appropriately suppress or prohibit the enlargement of the fitting portion 511a, it is possible to further securely maintain the state of engagement between the plug connector 510 and the receptacle connector 600. Further, by employing the locking member 530 in the electrical connector 501 to regulate the enlargement of the fitting portion 511a, it is also possible to easily perform a removal operation by disengaging the locking member 530 from the fitting portion 511a, such as when there is a need to perform the removal operation after the fitting. That is, according to the electrical connector 501, it is possible to easily perform a series of operations relating to the inserting/connecting operation and securely maintaining the state of engagement without using an adhesive.
The plug connector 510 is attached to one end of the coaxial cable SC and the locking member 530 is movable along the axial direction (the X direction) corresponding to the extension direction of the coaxial cable SC. In this way, since the locking is realized by moving the locking member 530 in a direction (e.g., the X direction) different from the direction of engagement (e.g., the Z direction) of the plug connector 510, it is possible to clearly distinguish the fitting/engagement operation and the locking operation and thus to improve the functionality.
The locking member 530 further includes the guide portion 532 which guides the movement of the pair of arm portions 531 from the standby position, where the pair of arm portions 531 is located near the base end of the coaxial cable SC in relation to the fitting portion 511a in the X direction, to the regulation position where the pair of arm portions 531 sandwiches the fitting portion 511a from the outside in the radial direction. Accordingly, for example, when inserting and removing the fitting portion 511a to and from the ground contact member 603, the insertion and the removal are easily performed while the pair of arm portions 531 is located at the standby position. Then, when fitting the fitting portion 511a of the plug connector 510 to the ground contact member 603 of the receptacle connector 600, the state of engagement can be securely maintained while the pair of arm portions 531 is located at the regulation position. That is, it is possible to securely maintain the state of engagement between the plug connector 510 and the receptacle connector 600 while securing the functionality relating to the insertion and the removal of the plug connector 510. Further, since the standby position is set to a (rear) position near the base end of the coaxial cable SC in relation to the fitting portion 511a, the pair of arm portions 531 is not disposed to the front of the fitting portion 511a during the locking operation, in which the pair of arm portions is moved from the standby position to the regulation position. Accordingly, by disposing the locking member 530 in an area to the rear of the plug connector 510 in the printed wiring board 700, it is possible to mount other electronic components in the front area of the printed wiring board 700 and to improve the mounting efficiency of the printed wiring board 700.
The outer conductor shell 511 further includes the lid portion 511b which covers an opening opposite to an opening that is configured to receive the ground contact member 603 in the fitting portion 511a, and the rail portion 511c which contiguously extends from the lid portion 511b in the X direction. Additionally, the guide portion 532 includes the sliding portion 536 which extends in the X direction and slides along the rail portion 511c to guide the movement of the pair of arm portions 531 in the X direction. Since the sliding portion 536 moves along the rail portion 511c of the plug connector 510, it is possible to easily move the pair of arm portions 531.
The sliding portion 536 covers the outside of the rail portion 511c and engages with the rail portion 511c. Since the sliding portion 536 engages with the rail portion 511c, it is possible to suppress or prohibit the separation of the locking member 530 from the plug connector 510 in the direction of engagement.
The outer conductor shell 511 further includes the pair of clamping portions 511d which is provided at a position near the base end of the coaxial cable SC in relation to the fitting portion 511a in the X direction. The clamping portions 511d may be configured to sandwich the coaxial cable SC and the projection portions 534 may be configured to contact the pair of clamping portions 511d while the enlargement of the fitting portion 511a is regulated. When the projection portion 534 that extends toward the slit 511g along the fitting portion 511a contacts the clamping portion 511d, the projection portion 534 is sandwiched between the fitting portion 511a and the clamping portion 511d. Accordingly, since the position of the projection portion 534 that regulates the enlargement in the vicinity of the slit 511g is easily fixed, it is possible to further securely maintain the state of engagement between the plug connector 510 and the receptacle connector 600.
The pair of arm portions 531 may be elastically displaceable in the vertical direction which is the direction of engagement. Since the pair of arm portions 531 is elastically deformable, the projection portion 534 can be moved over other interfering components (for example the clamping portion 511d) when sliding the pair of arm portions 531. That is, it is possible to further easily move the pair of arm portions 531 to avoid interference. Further, since the projection portion 534 may be configured to extend toward the slit 511g in order to avoid the clamping portion 511d, it is possible to easily fix the position of the projection portion 534 and to further securely maintain the state of engagement between the plug connector 510 and the receptacle connector 600.
An electrical connector comprising: a first contact configured to be electrically connected to a second contact of a mating connector, a cylindrical fitting portion having an outer diameter that is configured to become temporarily enlarged in response to the second contact being inserted into the cylindrical fitting portion; and a locking member including a regulation portion configured to prohibit a subsequent enlargement of the cylindrical fitting portion in order to securely maintain the electrical connection between the first contact and the second contact.
A locking member of an electrical connector comprising: a regulation portion configured to regulate an enlargement of a cylindrical fitting portion of the electrical connector which is electrically connected to a contact of a mating connector, wherein an outer diameter of the cylindrical fitting portion is temporarily enlarged when the mating connector is inserted into the cylindrical fitting portion, and wherein the regulation portion is configured to prohibit a subsequent enlargement of the cylindrical fitting portion in order to securely maintain an electrical connection between the electrical connector and the mating connector
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.
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2017-008749 | Jan 2017 | JP | national |
2017-227677 | Nov 2017 | JP | national |
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Entry |
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Extended Search Report in corresponding European Application No. 18152055.2, dated May 2, 2018, 9 pages. |
Number | Date | Country | |
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20180212363 A1 | Jul 2018 | US |