This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2016474776, filed Sep. 7, 2016, the entire contents of which are incorporated herein by reference.
The present invention relates to an electric connector and a connector device.
In Japanese Unexamined Patent Publication No. 2015-185541, a connector device is disclosed in which printed wiring boards (hereinafter, simply referred to also as “boards”) are electrically connected to each other. Such a connection is a so-called board-to-board connection. The connector device includes a plug connector and a receptacle connector. The plug connector mounted in a board is fitted into the receptacle connector mounted in another board. According to such fitting, the boards are electrically connected to each other.
According to one viewpoint of the present disclosure, there is provided an electric connector configured to be inserted into a counterpart connector arranged in a counterpart main body such that a plurality of counterpart terminals are aligned in a first direction. The electric connector includes: a main body having an insulating property that has a housing portion of a concave shape, which the counterpart connector can be inserted into or extracted from, extending in a second direction; and main body terminals that are electrically connected to the counterpart terminals in a state in which the counterpart connector is inserted into the housing portion. The housing portion includes: one pair of principal wall faces, in which a plurality of the main body terminals are arranged to be aligned in the second direction, extending in the second direction and facing each other; a first-end wall face that connects one principal wall face to the other principal wall face on the side of one end of the one pair of the principal wall faces; and a second-end wall face that connects one principal wall face to the other principal wall face on the side of the other end of the one pair of the principal wall faces. At least parts of the first-end wall face are first guide areas that face each other in a facing direction of the one pair of the principal wall faces and have a gap width in the facing direction decreasing from the second-end wall face toward the first-end wall face in the second direction. The first guide areas guide the counterpart connector such that the first direction of the counterpart connector is lined up in the second direction of the housing portion by regulating movement of the counterpart connector in the facing direction of the principal wall faces when an end portion of the counterpart main body is in contact with the counterpart connector at the time of inserting the counterpart connector into the housing portion.
According to another viewpoint of the present disclosure, there is provided a connector device including a plug connector that is arranged in a plug main body such that a plurality of plug terminals are aligned in a first direction; and a receptacle connector that is configured to be inserted into or extracted from the plug connector. The receptacle connector includes: a main body having an insulating property that has a housing portion of a concave shape, which the plug connector can be inserted into or extracted from, extending in a second direction; and main body terminals that are electrically connected to the plug terminals in a state in which the plug connector is inserted into the housing portion. The housing portion includes: one pair of principal wall faces, in which a plurality of the main body terminals are arranged to be aligned in the second direction, extending in the second direction and facing each other; a first-end wall face that connects one principal wall face to the other principal wall face on the side of one end of the one pair of the principal wall faces; and a second-end wall face that connects one principal wall face to the other principal wall face on the side of the other end of the one pair of the principal wall faces. At least parts of the first-end wall face are first guide areas that face each other in a facing direction of the one pair of the principal wall faces and have a gap width in the facing direction decreasing from the second-end wall face toward the first-end wall face in the second direction. The first guide areas guide the counterpart plug connector such that the first direction of the plug connector is lined up in the second direction of the housing portion by regulating movement of the plug connector in the facing direction of the principal wall faces when an end portion of the plug main body is in contact with the plug connector at the time of inserting the plug connector into the housing portion.
An embodiment according to the present disclosure described below is an example for describing the present invention. Thus, the present invention is not limited to the following contents.
[1] According to one viewpoint of the present disclosure, there is provided an electric connector configured to be inserted into a counterpart connector arranged in a counterpart main body such that a plurality of counterpart terminals are aligned in a first direction. The electric connector includes: a main body having an insulating property that has a housing portion of a concave shape, which the counterpart connector can be inserted into or extracted from, extending in a second direction; and main body terminals that are electrically connected to the counterpart terminals in a state in which the counterpart connector is inserted into the housing portion. The housing portion includes: one pair of principal wall faces, in which a plurality of the main body terminals are arranged to be aligned in the second direction, extending in the second direction and facing each other; a first-end wall face that connects one principal wall face to the other principal wall face on the side of one end of the one pair of the principal wall faces; and a second-end wall face that connects one principal wall face to the other principal wall face on the side of the other end of the one pair of the principal wall faces. At least parts of the first-end wall face are first guide areas that face each other in a facing direction of the one pair of the principal wall faces and have a gap width in the facing direction decreasing from the second-end wall face toward the first-end wall face in the second direction. The first guide areas guide the counterpart connector such that the first direction of the counterpart connector is lined up in the second direction of the housing portion by regulating movement of the counterpart connector in the facing direction of the principal wall faces when an end portion of the counterpart main body is in contact with the counterpart connector at the time of inserting the counterpart connector into the housing portion.
In a state in which the counterpart connector and the electric connector are fitted with each other, the first direction of the counterpart connector is lined up in the second direction of the electric connector. Accordingly, in order to fit the counterpart connector into the electric connector, it is necessary to insert the counterpart connector into the electric connector in a state in which the first direction of the counterpart connector is lined up in the second direction of the electric connector. While the counterpart connector and the electric connector are separate from each other at the beginning, when the end portion of the counterpart main body of the counterpart connector is inserted into the housing portion of the electric connector, the first direction of the counterpart connector may deviate from the second direction of the electric connector. In such a state, the counterpart connector cannot be fitted into the electric connector.
Here, the end portion of the counterpart connector is brought into contact with one of wall faces configuring the housing portion of the electric connector. According to such a contact, the movement of the counterpart connector is regulated. For example, in a case where the counterpart connector is brought into contact with the principal wall face, the movement of the counterpart connector in a direction facing the principal wall face is regulated. In other words, the counterpart connector can move in the second direction. The counterpart connector that can move in the second direction finally arrives at the first-end wall face. Also in the first guide area of the first-end wall face, the movement of the counterpart connector in the direction facing the principal wall face is regulated. In other words, the counterpart connector can move along the first guide area of the first-end wall face. The first guide areas have a gap width in the direction facing the principal wall face gradually decreasing. Thus, when the counterpart connector is moved in the state being in contact with the first guide area, the movement of the counterpart connector is restricted to movement in a direction obliquely intersecting the second direction. The movement in the obliquely intersecting direction has a movement component in a direction orthogonal to the second direction. For this reason, even when the counterpart connector deviates from the electric connector at the beginning, the counterpart connector moves while being in contact with the first guide area. According to such movement, the position of the counterpart connector is corrected such that the first direction of the counterpart connector is gradually lined up in the second direction of the electric connector. In other words, as the counterpart connector moves in the state of being in contact with the first guide area, the position of the counterpart connector is gradually corrected to a position at which fitting can be performed. Then, finally, a state is formed in which the first direction of the counterpart connector is lined up in the second direction of the electric connector. Accordingly, the counterpart connector can be fitted into the electric connector. According to the electric connector of the present disclosure, even in a case where the position of the counterpart connector with respect to the electric connector at the beginning is a position at which fitting cannot be performed, the position of the counterpart connector can be corrected to a position at which fitting can be performed. Accordingly, the electric connector according to the present disclosure can improve the efficiency of an operation of fitting the counterpart connector and the electric connector with each other.
[2] In the electric connector according to the present disclosure, at least a part of the second-end wall face may be second guide areas that face each other in the facing direction of the one pair of the principal wall faces and has a gap width in the facing direction gradually decreasing from the first-end wall face toward the second-end wall face in the second direction. The second guide areas may guide the counterpart connector such that the first direction of the counterpart connector is lined up in the second direction of the housing portion by regulating movement of the counterpart connector in the facing direction of the principal wall faces when an end portion of the counterpart main body is in contact with the counterpart connector at the time of inserting the counterpart connector into the housing portion.
According to such a configuration, in a case where the counterpart connector that is brought into contact with the principal wall face is moved to the side of one end portion of the housing portion, the position of the counterpart connector with respect to the electric connector is corrected to a position at which fitting can be performed. Accordingly, the efficiency of the operation of fitting the counterpart connector and the electric connector with each other can be improved.
[3] In the electric connector according to the present disclosure, the first-end wall face and the second-end wall face may exhibit planar shapes. According to such a configuration, the movement amount of the counterpart connector in the facing direction with respect to the movement amount in the second direction can be a desired constant value.
[4] In the electric connector according to the present disclosure, the first-end wall face and the second-end wall face may exhibit curved shapes. According to such a configuration, the inclinations of the first guide area and the second guide area with respect to the second direction changes according to a position within the areas. Accordingly, the ratio of the movement amount of the counterpart connector in the facing direction to the movement amount in the second direction can be changed.
[5] In the electric connector according to the present disclosure, the first guide areas and the second guide areas may include portions formed using metal materials. According to such a configuration, the surface strength of the first guide area and the second guide area can be improved. Accordingly, the counterpart connector that is brought into contact with the first guide area and the second guide area can be moved with being rubbed with the first guide area and the second guide area.
[6] In the electric connector according to the present disclosure, the first guide areas and the second guide areas may include the portions formed using the metal materials in portions facing the first-end wall face and portions facing the second-end wall face. According to such a configuration, the surface strength of each of the portions facing the first-end wall face can be improved. In addition, the surface strength of each of the portions facing the second-end wall face can be improved.
[7] In the electric connector according to the present disclosure, the housing portion may include an opening receiving the counterpart connector. The opening may be formed by end edges of the one pair of the principal wall faces, an end edge of the first-end wall face, and an end edge of the second-end wall face. The main body may include at least one of a first chamfer continuous to the end edge of the first guide area included in the end edge of the first-end wall face and a second chamfer continuous to the end edge of the second guide area included in the end edge of the second-end wall face.
When the counterpart connector and the electric connector are in a plan view, there may be cases where the counterpart connector deviates from the electric connector. According to such a deviation, there may be cases where a physical interference between the electric connector and the counterpart connector occurs. In such cases, the counterpart connector cannot be inserted into the housing portion of the electric connector. The counterpart connector is moved in a state in which the counterpart connector is in contact with the first chamfer and the second chamfer. Then, the counterpart connector moves along the surfaces of the first chamfer and the second chamfer. Then, finally, the counterpart connector arrives at the first guide area and the second guide area that are continuous to the first chamfer and the second chamfer. After the counterpart connector arrives at the first guide area and the second guide area, the counterpart connector can be moved to the housing portion along the first guide area and the second guide area. Thus, according to the electric connector according to the present disclosure, even when the positions of the counterpart connector and the electric connector at the beginning are positions at which fitting cannot be performed, the position of the counterpart connector with respect to the electric connector can be corrected to a position at which fitting can be performed. Accordingly, the electric connector according to the present disclosure can improve the efficiency of the operation of fitting the counterpart connector and the electric connector with each other.
[8] In the electric connector according to the present disclosure, the first chamfer and the second chamfer may include portions formed using metal materials. According to such a configuration, the surface strength of the first chamfer and the second chamfer can be improved. Accordingly, the counterpart connector that is brought into contact with the first chamfer can be moved with being rubbed with the first chamfer. In addition, the counterpart connector that is brought into contact with the second chamfer can be moved with being rubbed with the second chamfer.
[9] A connector device according to another viewpoint of the present disclosure includes: a plug connector that is arranged in a plug main body such that a plurality of plug terminals are aligned in a first direction; and a receptacle connector that is configured to be inserted into or extracted from the plug connector. The receptacle connector includes: a main body having an insulating property that has a housing portion of a concave shape, which the plug connector can be inserted into or extracted from, extending in a second direction; and main body terminals that are electrically connected to the plug terminals in a state in which the plug connector is inserted into the housing portion. The housing portion includes: one pair of principal wall faces, in which a plurality of the main body terminals are arranged to be aligned in the second direction, extending in the second direction and facing each other; a first-end wall face that connects one principal wall face to the other principal wall face on the side of one end of the one pair of the principal wall faces; and a second-end wall face that connects one principal wall face to the other principal wall face on the side of the other end of the one pair of the principal wall faces. At least parts of the first-end wall face are first guide areas that face each other in a facing direction of the one pair of the principal wall faces and have a gap width in the facing direction decreasing from the second-end wall face toward the first-end wall face in the second direction. The first guide areas may guide the counterpart plug connector such that the first direction of the plug connector is lined up in the second direction of the housing portion by regulating movement of the plug connector in the facing direction of the principal wall faces when an end portion of the plug main body is in contact with the plug connector at the time of inserting the plug connector into the housing portion.
The receptacle connector of the connector device includes the first guide areas. Accordingly, even when the position of the plug connector with respect to the receptacle connector at the beginning is a position at which fitting cannot be performed, the position of the plug connector can be corrected to a position at which fitting can be performed. Accordingly, the electric connector according to the present disclosure can improve the efficiency of an operation of fitting the plug connector and the receptacle connector with each other.
According to the electric connector and the connector device of the present disclosure, the efficiency of the operation of fitting the plug connector and the receptacle connector with each other can be improved.
Hereinafter, one example of an embodiment according to the present disclosure will be described in more details with reference to the drawings. A same reference numeral will be used for the same element or elements having the same function, and duplicate description thereof will not be presented.
As illustrated in
In description presented below, for the convenience of description, various directions will be represented by the XYZ coordinate system. An X-axis direction and a Y-axis direction are included in a virtual plane that is parallel to the printed wiring boards 2 and 3. The X-axis direction coincides with a longitudinal direction of the receptacle connector 10 and the plug connector 50. The longitudinal direction is the horizontal direction in
[Receptacle Connector]
The receptacle connector 10 will be described. As illustrated in
The receptacle housing 11 is a base of the receptacle connector 10. The receptacle housing 11 is formed using a material having an electric insulation property. The receptacle housing 11 exhibits an approximate rectangular parallelepiped shape extending in the X-axis direction (the longitudinal direction, a second direction). The receptacle housing 11 has the Z-axis direction as its normal-line direction. The receptacle housing 11 has a principal face 11a facing the plug connector 50.
In the receptacle housing 11, a housing portion 16 is disposed. The housing portion 16 exhibits a concave shape housing the plug connector 50. The housing portion 16 is a recessed portion with respect to the principal face 11a. The housing portion 16 is a space surrounded by a first principal inner wall face 17, a second principal inner wall face 18, a first-end inner wall face 19 (first-end wall face), a second-end inner wall face 21 (second-end wall face), and a bottom face 23. The first principal inner wall face 17 is one of one pair of principal wall faces. The second principal inner wall face 18 is the other of one pair of principal wall face. The first principal inner wall face 17 and the second principal inner wall face 18 extend in the X-axis direction. The first principal inner wall face 17 faces the second principal inner wall face 18 in the Y-axis direction. The first-end inner wall face 19 is formed on the side of one end of the receptacle housing 11 in the X-axis direction. One end of the first principal inner wall face 17 is connected to one end of the second principal inner wall face 18. The first-end inner wall face 19 includes a plurality of faces having mutually-different normal line directions. The second-end inner wall face 21 is formed on the side of the other end of the receptacle housing 11 in the X-axis direction. The second-end inner wall face 21 connects the other end of the first principal inner wall face 17 to the other end of the second principal inner wall face 18. The second-end inner wall face 21, similar to the first-end inner wall face 19, includes a plurality of faces having mutually-different normal line directions.
The receptacle terminals 12 are conductive parts. The receptacle terminals 12 electrically connect the printed wiring boards 2 and 3. The receptacle terminals 12 are integrally formed using a material having conductivity. Some of the receptacle terminals 12 are electrically connected to electrode pads (not illustrated in the drawing) of the printed wiring board 2 by using solder or the like. Other some of the receptacle terminals 12 are electrically connectable to a plurality of plug terminals 52 (a plurality of counterpart terminals) to be described later. The plurality of receptacle terminals 12 are arranged in the receptacle housing 11 to align in the X-axis direction. Thus, the X-axis line direction is a terminal arrangement direction. In more detail, the receptacle housing 11 includes a plurality of concave portions 24. The plurality of concave portions 24 are recessed with respect to the first principal inner wall face 17 in the Y-axis direction. The receptacle terminal 12 is arranged in each of the plurality of concave portions 24. The receptacle housing 11 further includes a plurality of concave portions 24. The plurality of concave portions 24 are recessed with respect to the second principal inner wall face 18 in the Y-axis direction. Also in each of the plurality of concave portions 24, the receptacle terminal 12 is arranged.
The first receptacle fixing metal fitting 13 is arranged on the side of one end of the receptacle housing 11 in the X-axis direction. On the other hand, the second receptacle fixing metal fitting 14 is arranged on the side of the other end of the receptacle housing 11 in the X-axis direction. In other words, the first receptacle fixing metal fitting 13 and the second receptacle fixing metal fitting 14 are arranged to have the plurality of the receptacle terminals 12 interposed therebetween in the X-axis direction. The first receptacle fixing metal fitting 13 and the second receptacle fixing metal fitting 14 physically connects the receptacle housing 11 to the printed wiring board 2. In addition, the first receptacle fixing metal fitting 13 and the second receptacle fixing metal fitting 14 has the plug connector 50 inserted into the housing portion 16 interposed therebetween. Furthermore, the first receptacle fixing metal fitting 13 and the second receptacle fixing metal fitting 14 may be electrically connected to the plug connector 50 for conduction with the plug connector 50.
The first receptacle fixing metal fitting 13 will be described in detail with reference to
The first receptacle fixing metal fitting 13 includes a board fixing portion 26, a guide portion 27, a holding portion 28, and a metal fitting main body 33 as its main constituent elements. The board fixing portion 26, the guide portion 27, the holding portion 28, and the metal fitting main body 33 are integrated through a plurality of bending portions 29a, 29b, 29c, and 29d and connection portions 31a and 31b.
The board fixing portion 26 is a plate-shaped portion. The board fixing portion 26 is physically fixed to a wiring pattern of the printed wiring board 2 by using solder or the like. The board fixing portion 26 extends in the Y-axis direction when arranged in the receptacle housing 11. The connection portion 31a rises through the bending portion 29a in the Z-axis direction in an approximately center portion of the board fixing portion 26 in the Y-axis direction. At both ends of the connection portion 31a in the Y-axis direction, the bending portions 29b are disposed. In addition, one pair of the connection portions 31b extending in the X-axis direction are connected to both ends of the connection portion 31a. The guide portion 27 extending in the Z-axis direction is connected to one end of each connection portion 31b. The guide portion 27 includes a bending portion 29c and a flat plate portion 32. One end of the bending portion 29c is continuous to the connection portion 31b. The other end of the bending portion 29c is continuous to the flat plate portion 32. The flat plate portion 32 extends from the bending portion 29c in the Z-axis direction. A front end of the flat plate portion 32 is a free end. The guide portion 27 is exposed from the receptacle housing 11. The guide portion 27 configures a part of the first-end inner wall face 19.
The metal fitting main body 33 extends in the X-axis direction at an approximately center portion of the board fixing portion 26 in the Y-axis direction. At the front end of the metal fitting main body 33, a rising portion 34 is formed. The rising portion 34 extends in the Z-axis direction through the bending portion 29d. One pair of holding portions 28 is formed in the metal fitting main body 33. One pair of the holding portions 28 is formed between one end continuous to the board fixing portion 26 and the other end continuous to the rising portion 34. The holding portion 28 exhibits a curved face shape extending in the Y-axis direction and the Z-axis direction. The holding portion 28 is not physically fixed to the receptacle housing 11. The holding portion 28 has elasticity in the Y-axis direction.
[Plug Connector]
The plug connector 50 will be described with reference back to
The plug housing 51 is a base of the plug connector 50. The plug housing 51 is formed using a material having electric insulation. The plug housing 51 exhibits an approximate parallel piped shape extending in the X-axis direction (the longitudinal direction, a first direction). The plug housing 51 includes a first principal outer wall face 57, a second principal outer wall face 58, a first-end outer wall face 59, a second-end outer wall face 61, a principal face 51a, and a board face 51b.
The first principal outer wall face 57 and the second principal outer wall face 58 extend in the X-axis direction. The first principal outer wall face 57 and the second principal outer wall face 58 face each other in the Y-axis direction. The first-end outer wall face 59 is formed on the side of one end of the plug housing 51. The first-end outer wall face 59 connects one end of the first principal outer wall face 57 to one end of the second principal outer wall face 58. The first-end outer wall face 59 includes a plurality of faces having mutually-different normal line directions. The second-end outer wall face 61 is formed on the side of the other end of the plug housing 51. The second-end outer wall face 61 connects the other end of the first principal outer wall face 57 to the other end of the second principal outer wall face 58. The second-end outer wall face 61, similar to the first-end outer wall face 59, includes a plurality of faces having mutually-different normal line directions.
The plug terminals 52 are conductive parts. The plug terminals 52 secure electrical connections between the printed wiring boards 2 and 3. The plug terminals 52 are integrally formed using a material having conductivity. Some of the plug terminals 52 are electrically connected to electrode pads (not illustrated in the drawing) of the printed wiring board 3 by using solder or the like. In addition, other some of the plug terminals 52 are configured to be electrically connectable to the receptacle terminals 12 of the receptacle connector 10. The plurality of the plug terminals 52 are arranged in the plug housing 51 to be aligned in the X-axis direction.
The first plug fixing metal fitting 53 is arranged on the side of one end of the plug housing 51 in the X-axis direction. On the other hand, the second plug fixing metal fitting 54 is arranged on the side of the other end of the plug housing 51 in the X-axis direction. In other words, the first plug fixing metal fitting 53 and the second plug fixing metal fitting 54 are arranged to have the plurality of the plug terminals 52 interposed therebetween in the X-axis direction.
The first plug fixing metal fitting 53 and the second plug fixing metal fitting 54 physically fixes the plug housing 51 to the printed wiring board 3. In addition, when inserted into the housing portion 16, the first plug fixing metal fitting 53 and the second plug fixing metal fitting 54 are interposed between the first receptacle fixing metal fitting 13 and the second receptacle fixing metal fitting 14 of the receptacle connector 10 In addition, the first plug fixing metal fitting 53 may be electrically connected to the first receptacle fixing metal fitting 13 of the receptacle connector 10 for conduction with the receptacle connector 10. In addition, the second plug fixing metal fitting 54 may be electrically connected to the second receptacle fixing metal fitting 14 of the receptacle connector 10.
The first plug fixing metal fitting 53 will be described in detail with reference to
The first plug fixing metal fitting 53 includes a board fixing portion 66, a guide portion 67, and holding target portions 68 as its major constituent elements. The board fixing portion 66, the guide portion 67, and the holding target portions 68 are integrated with a plurality of bending portions 69a, 69b, 69c, and 69d through a connection portion 71a. The board fixing portion 66 is a plate-shaped portion. The board fixing portion 66 is physically fixed to the wiring pattern of the printed wiring board 3 by using solder or the like. The board fixing portion 66 extends in the Y-axis direction. One end of the connection portion 71a is connected to an approximately center portion of the board fixing portion 66 in the Y-axis direction through the bending portion 69a. The metal fitting main body 72 is connected to the other end of the connection portion 71a through the bending portion 69b. The bending portions 69c are disposed in side portions of the metal fitting main body 72 in the Y-axis direction. In addition, one pair of the holding target portions 68 extending in the Z-axis direction are connected to the side portions of the metal fitting main body 72. The holding target portions 68 rises in the Z-axis direction. The holding target portions 68 configure parts of the first principal outer wall face 57 and the second principal outer wall face 58 of the plug housing 51. When the plug connector 50 is fitted into the receptacle connector 10, the holding target portions 68 are sandwiched by the holding portions 28 of the first receptacle fixing metal fitting 13.
The guide portion 67 is further continuous to the metal fitting main body 72. The guide portion 67 includes a bending portion 69d and a flat plate portion 75. One end of the bending portion 69d is continuous to the metal fitting main body 72. The other end of the bending portion 69d is continuous to the flat plate portion 75. The flat plate portion 75 extends from the bending portion 69d in the Z-axis direction. A front end of the flat plate portion 75 is a free end. The guide portion 67 is exposed from the plug housing 51. The guide portion 67 configures a part of the first-end outer wall face 59.
A detailed configuration of the side of one end of the receptacle connector 10 will be described more specifically with reference to
As illustrated in
The first receptacle guide face 19a faces the first receptacle guide face 19b in the Y-axis direction. In other words, one pair of the first receptacle guide faces 19a and 19b have line symmetry with respect to an axial line A1 of the receptacle housing 11 disposed along the X-axis direction. A gap width HR gradually decreases toward the receptacle tip end face 19c. The gap width HR is a length from the first receptacle guide face 19a to the first receptacle guide face 19b in the Y-axis direction. A second gap width HR2 is smaller than a first gap width HR1. The second gap width HR2 is a length from the other end of the first receptacle guide face 19a to the other end of the first receptacle guide face 19b. The first gap width HR1 is a length from one end of the first receptacle guide face 19a to one end of the first receptacle guide face 19b. For example, a relation between the first gap width HR1 and the second gap width HR2 is represented by a ratio. When the first gap width HR1 is “1”, for example, the second gap width HR2 is “0.6”.
Such a structure is due to the inclination of one pair of the first receptacle guide faces 19a and 19b with respect to the X-axis direction. An angle between the first receptacle guide face 19a and the X axis is, for example, 45 degrees. An angle between the first receptacle guide face 19b and the X axis is, for example, 45 degrees. In other words, the first receptacle guide face 19a is inclined with respect to the first principal inner wall face 17. In addition, the first receptacle guide face 19b is inclined with respect to the second principal inner wall face 18.
A detailed configuration of the side of one end of the plug connector 50 will be described with reference to
The first-end outer wall face 59 includes a first plug guide face 59a, a first plug guide face 59b, and a plug tip end face 59c. One end of the first plug guide face 59a is connected to one end of the first principal outer wall face 57. One end of the first plug guide face 59b is connected to one end of the second principal outer wall face 58. One end of the plug tip end face 59c is connected to the other end of the first plug guide face 59a. The other end of the plug tip end face 59c is connected to the other end of the first plug guide face 59b. In other words, the first-end outer wall face 59 is formed in order of the first plug guide face 59a, the plug tip end face 59c, and the first plug guide face 59b between one end of the first principal outer wall face 57 and one end of the second principal outer wall face 58.
The first plug guide face 59a faces the first plug guide face 59b in the Y-axis direction. In other words, the first plug guide face 59a and the first plug guide face 59b have line symmetry with respect to an axial line A2 of the plug housing 51 disposed in the X-axis direction. A housing width HP gradually decreases toward the plug tip end face 59c. The housing width HP is a length from the first plug guide face 59a to the first plug guide face 59b in the Y-axis direction. A second housing width HP2 is smaller than a first housing width HP1. The second housing width HP2 is a length from the other end of the first plug guide face 59a to the other end of the first plug guide face 59b. The first housing width HP1 is a length from one end of the first plug guide face 59a to one end of the first plug guide face 59b. This second housing width HP2 is larger than the first gap width HR1 of the receptacle connector 10. Accordingly, the plug tip end face 59c of the plug connector 50 is not in contact with the receptacle tip end face 19c of the receptacle connector 10. In a state in which the plug connector 50 is fitted into the receptacle connector 10, a gap is formed between the receptacle tip end face 19c and the plug tip end face 59c.
For example, when a relation between the first housing width HP1 and the second housing width HP2 is represented by a ratio, when the first housing width HP1 is “1”, for example, the second housing width HP2 is “0.6”. Such a structure is due to the inclination of the first plug guide face 59a and the first plug guide face 59b with respect to the X-axis direction. For example, an angle between the first plug guide face 59a and the X axis is 45 degrees. An angle between the first plug guide face 59b and the X axis is, for example, 45 degrees. In other words, the first plug guide face 59a is inclined with respect to the first principal outer wall face 57. In addition, the first plug guide face 59a is inclined with respect to the second principal outer wall face 58.
Here, a guide function achieved by the receptacle connector 10 will be described. The guide function is achieved when the plug connector 50 is inserted into the receptacle connector 10. The guide function represents a function of correcting the posture of the plug connector 50 to a posture that can be fitted into the receptacle connector 10. The “posture” described here represents a three-dimensional position having three-dimensional coordinates of the plug connector 50 with respect to the receptacle connector 10 as the reference or an inclination using axial lines of three dimensional coordinates as the reference. When the plug connector 50 is physically fitted into the receptacle connector 10, the posture of the plug connector with respect to the receptacle connector 10 is unique. Accordingly, when the receptacle connector 10 is fitted into the plug connector 50, it is preferable to insert the plug connector 50 after matching the posture of the plug connector 50 with respect to the receptacle connector 10 to a posture that can be fitted. However, in an actual assembly operation, when the plug connector 50 is inserted after matching the posture of the plug connector 50 to a posture that can be fitted, it takes a time. Thus, in a case where the receptacle connector 10 or the plug connector 50 has a function for correcting the posture of the plug connector 50 to a fitting posture, the posture of the plug connector 50 is corrected during an insertion operation although the posture of the plug connector 50 is not matched to a posture that can be fitted at the time of starting the insertion operation. Then, finally, the plug connector 50 can be fitted into the receptacle connector 10.
<First Guide Function>
As illustrated in
On the other hand, as illustrated in
For example, as illustrated in
As illustrated in
The premise of the description presented above is the configuration in which the receptacle connector 10 and the plug connector 50 are disposed to have line symmetry with respect to each of the axial lines A1 and A2. However, the receptacle connector 10 or the plug connector 50 may not have line symmetry with respect to each of the axial lines A1 and A2. In such a case, a state in which the plug connector 50 can be fitted represents a state in which the axial lines A1 and A2 are parallel to each other.
<Second Guide Function>
The first guide function described above, in short, is a function for correcting the posture of the plug connector 50 having the axial line A2 deviating in parallel from the axial line A1 of the receptacle connector 10. The receptacle connector 10 according to the present disclosure further achieves a second guide function. In addition to the form of a parallel deviation, the deviation of the axial line A2 may have a form of deviating to intersect the axial line A1.
As illustrated in
On the other hand, as illustrated in
The configuration of the end portion of the receptacle housing 11 of the receptacle connector 10 will be described from another viewpoint. As illustrated in
The configuration of the end portion of the receptacle connector 10 according to the present disclosure will be further described while compared with a receptacle connector 110 according to a comparative example illustrated in
A first chamfer 37 of the receptacle connector 10 will be described with reference to
The first chamfer 37 illustrated in
As illustrated in
As illustrated in
As illustrated in
<Third Guide Function>
According to the chamfers 37, 38, 77, and 78 described above, a third guide function is achieved. The third guide function, in short, is a function for correcting the position of the plug connector 50 on a virtual plane orthogonal to the Z-axis direction in the plan view of the receptacle connector 10 and the plug connector 50. Described in more detail, as illustrated in
Thus, the receptacle connector 10 and the plug connector 50 according to the present disclosure include the chamfers 37, 38, 77, and 78. The third guide function achieved by the first chamfer 37 and the third chamfer 77 will be described with reference to
The chamfers 37, 38, 77, and 78 do not need to be included in both the receptacle connector 10 and the plug connector 50. The chamfers 37, 38, 77, and 78 may be disposed at least one of the receptacle connector 10 and the plug connector 50. For example, in a case where the chamfers 37 and 38 are included in the receptacle connector 10, the plug connector 50 may not include the chamfers 77 and 78. On the other hand, in a case where the chamfers 77 and 78 are included in the plug connector 50, the receptacle connector 10 may not include the chamfers 37 and 38.
The first guide function and the second guide function described above are targeted for a state in which a part of the plug connector 50 is inserted into the housing portion 16 of the receptacle connector 10 to a state in which the plug connector 50 is fitted. On the other hand, the third guide function is targeted for a state in which the plug connector 50 is not inserted into the housing portion 16 of the receptacle connector 10 at all to a state in which a part of the plug connector 50 is inserted into the housing portion 16 of the receptacle connector 10. For this reason, in a case where the plug connector 50 is inserted into the receptacle connector 10, first, after the third guide function is achieved, the first guide function and the second guide function are achieved. In other words, according to the chamfers 37, 38, 77, and 78 achieving the third guide function, an allowed amount of the deviation can be increased. The allowed amount of the deviation is the amount of a deviation for which the posture of the plug connector 50 can be corrected to a posture that can be inserted into the receptacle connector 10. Accordingly, by arranging the chamfers 37, 38, 77, and 78 such that the third guide function is achieved in addition to the first guide function and the second guide function, the degree of easiness in the operation of inserting the plug connector 50 into the receptacle connector 10 can be further improved. Such a third guide function may be regarded also as an alignment function.
Hereinafter, the operations and the effects of the connector device 1 and the receptacle connector 10 according to the present disclosure will be described.
An operation of assembling an electronic apparatus including a connector device includes an operation of mounting a plug connector and a receptacle connector in boards and an operation of fitting the plug connector and the receptacle connector mounted in the boards with each other after the mounting process. Here, when the boards face each other for the fitting, the plug connector and the receptacle connector are hidden by the boards. Accordingly, there are cases where an operator cannot see the plug connector and the receptacle connector. For this reason, an operator cannot perform the fitting operation through visual observation. Thus, the operator fits the plug connector into the receptacle connector by touch. For this reason, it is difficult to improve the efficiency of the operation of fitting the plug connector and the receptacle connector with each other.
In addition, in a state in which the plug connector 50 and the receptacle connector 10 are fitted with each other, the direction of the axial line of the plug connector 50 is lined up in the direction of the axial line of the receptacle connector 10. Accordingly, in order to fit the plug connector 50 into the receptacle connector 10, first, the direction of the axial line of the plug connector 50 is lined up in the direction of the axial line of the receptacle connector 10. Then, the plug connector 50 is inserted into the receptacle connector 10. While the plug connector 50 and the receptacle connector 10 are separate from each other at the beginning, when the end portion of the counterpart main body of the plug connector 50 is inserted into the housing portion 16 of the receptacle connector 10, the direction of the axial line of the plug connector 50 may deviate from the direction of the axial line of the receptacle connector 10. In this state, the plug connector 50 cannot be fitted into the receptacle connector 10.
In this embodiment, the end portion of the plug connector 50 is brought into contact with one of the wall faces configuring the housing portion 16 of the receptacle connector 10. Thus, the movement of the plug connector 50 is regulated. For example, in a case where the plug connector 50 is brought into contact with the first principal inner wall face 17, the movement of the plug connector 50 in a direction facing the first principal inner wall face 17 is regulated. In other words, the movement of the plug connector 50 in the Y-axis direction is restricted. In other words, the plug connector 50 can move in the X-axis direction.
The plug connector 50 that can move in the X-axis direction finally arrives at the first-end inner wall face 19. Also in the first receptacle guide face 19a of the first-end inner wall face 19, the movement of the plug connector 50 in a direction facing the first principal inner wall face 17 is regulated. In other words, the movement of the plug connector 50 in the Y-axis direction is restricted. In other words, the plug connector 50 can move along the first receptacle guide face 19a of the first-end inner wall face 19. In the first receptacle guide face 19a, the gap width HR in the facing direction gradually decreases. Thus, when the plug connector 50 is moved in the state being in contact with the first receptacle guide face 19a, the movement of the plug connector 50 is restricted to movement in a direction obliquely intersecting the X-axis direction. The movement in the obliquely intersecting direction has a movement component in the Y-axis direction orthogonal to the X-axis direction. For this reason, even when the plug connector 50 deviates from the receptacle connector 10 at the beginning, as the plug connector 50 moves while being in contact with the receptacle guide face 19a, the position of the plug connector 50 is corrected such that the direction of the axial line of the plug connector 50 is gradually lined up in the direction of the axial line of the receptacle connector 10. In other words, as the plug connector 50 moves in the state of being in contact with the first receptacle guide face 19a, the position of the plug connector 50 is gradually corrected to a position at which fitting can be performed. Then, finally, a state is formed in which the direction of the axial line of the plug connector 50 is lined up in the direction of the axial line of the receptacle connector 10. Accordingly, the plug connector 50 can be fitted into the receptacle connector 10. According to the receptacle connector 10, even when the position of the plug connector 50 with respect to the receptacle connector 10 at the beginning is a position at which fitting cannot be performed, the position can be corrected to a position at which fitting can be performed. Accordingly, the receptacle connector 10 can improve the efficiency of the operation of fitting the plug connector 50 and the receptacle connector 10 with each other.
According to the receptacle connector 10, even in a case where the plug connector 50 that is brought into contact with the first principal inner wall face 17 or the second principal inner wall face 18 is moved to a position in the X-axis direction, the position of the plug connector 50 with respect to the receptacle connector 10 can be corrected to a position at which fitting can be performed. Accordingly, the efficiency of the operation of fitting the plug connector 50 and the receptacle connector 10 with each other can be further improved.
In the receptacle connector 10, the first-end inner wall face 19 and the second-end inner wall face 21 exhibit planar shapes. According to such a configuration, in the plug connector 50, a movement amount in the facing direction with respect to the movement amount in the direction of the axial line can be a desired constant value.
According to the receptacle connector 10, the surface strength of each of facing portions of the first-end inner wall face 19 can be improved. In addition, the surface strength of each of facing portions of the second-end inner wall face 21 can be improved.
The receptacle connector 10 includes the first chamfer 37 and the second chamfer 38. When the plug connector 50 and the receptacle connector 10 are in a plan view, there may be cases where the plug connector 50 deviates from the receptacle connector 10. According to such a deviation, there may be cases where a physical interference M between the receptacle connector 10 and the plug connector 50 occurs. In such cases, the plug connector 50 cannot be inserted into the housing portion 16 of the receptacle connector 10. However, according to the receptacle connector 10, when the plug connector 50 is moved to the bottom side of the housing portion 16 in the state in which the plug connector 50 is in contact with the first chamfer 37 or the second chamfer 38, the plug connector 50 is moved along the surface of the first chamfer 37 or the second chamfer 38. Then, the plug connector 50 arrives at the first receptacle guide face 19a or the first receptacle guide face 19b. The first receptacle guide face 19a is a face to which the first chamfer 37 or the second chamfer 38 is continuous. First, the plug connector 50 arrives at one pair of the first receptacle guide faces 19a and 19b. Thereafter, the plug connector 50 can be moved to the bottom side of the housing portion 16 along the first receptacle guide face 19a or the first receptacle guide face 19b. Thus, according to the receptacle connector 10, even when the positions of the plug connector 50 and the receptacle connector 10 at the beginning are positions at which fitting cannot be performed, the position of the plug connector 50 with respect to the receptacle connector 10 can be corrected to a position at which fitting can be performed. Accordingly, the receptacle connector 10 can further improve the efficiency of the operation of fitting the plug connector 50 and the receptacle connector 10 with each other.
In the receptacle connector 10, the first chamfer 37 and the second chamfer 38 include portions formed using metal materials. According to such a configuration, the surface strength of the first chamfer 37 or the second chamfer 38 can be improved. Accordingly, the plug connector 50 brought into contact with the first chamfer 37 or the second chamfer 38 can be moved with being rubbed with the first chamfer 37 or the second chamfer 38.
As above, the present invention has been described in detail with reference to the embodiments. However, the present invention is not limited to the embodiments described above. In the present invention, various changes can be made in a range not departing from the concept of the invention.
In the description presented above, the first-end inner wall face 19 and the second-end inner wall face 21 have been described to have planar shapes. However, the first-end inner wall face 19 and the second-end inner wall face 21 are not limited to the planar shapes. For example, as illustrated in
In addition, as illustrated in
According to the receptacle connector 10 described above, the inclination of one pair of the first receptacle guide faces 19a and 19b with respect to the X-axis direction changes according to a position on the face. Accordingly, the ratio of the movement amount in the Y-axis direction to the movement amount in the X-axis direction can be changed.
Number | Date | Country | Kind |
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2016-174776 | Sep 2016 | JP | national |