The present disclosure relates to a terminal and an electric cable including a terminal.
A known female terminal that is to be coupled to a male terminal is described in Japanese Unexamined Patent Application Publication No. 2003-331966. The female terminal includes a rectangular tubular portion in which the male terminal is to be inserted. An elastic contact tab is disposed in the rectangular tubular portion. The male terminal that is inserted in the rectangular tubular portion is pressed toward an inner wall of the rectangular tubular portion by the elastic contact tab such that the male terminal and the female terminal are electrically connected.
[Patent Document 1]
Japanese Unexamined Patent Application Publication No. 2003-331966
Recently, the female terminal used for a vehicle has been demanded to be miniaturized. For example, the walls of the rectangular tubular portion may be formed from one metal plate to miniaturize the female terminal.
However, according to the above configuration, the rectangular tubular portion may be deformed to open by the resilient force of the elastic contact tab when the male terminal is pressed toward the inner wall of the rectangular tubular portion by the elastic contact tab.
To suppress the opening deformation of the rectangular tubular portion, the walls of the rectangular tubular portion may be formed by overlapping metal plate portions. The strength of the rectangular tubular portion is increased by overlapping the metal plate portions and the opening deformation may be suppressed.
However, in the above configuration, the female terminal is increased in size by overlapping the metal plate portions and such a configuration is not preferable.
The technology described herein was made in view of the above circumstances. An object is to provide a technology related to a miniaturized terminal.
The present disclosure is related to a terminal to be coupled to a mate terminal. The terminal includes a tubular portion and a spring tab. The mate terminal is to be inserted in the tubular portion and the spring tab is within the tubular portion. The tubular portion includes a spring-side wall, a connection wall, a first side wall that is continuous from the connection wall and the spring-side wall, and a second side wall that is continuous from the spring-side wall. The spring tab presses the mate terminal, which is inserted in the tubular portion, from the spring-side wall toward the connection wall. The tubular portion includes a connection portion that connects the spring tab and the connection wall. The tubular portion includes an opening limiter portion that contacts the connection portion from an opposite direction from a pressing direction in which the spring tab presses the mate terminal toward the connection wall.
According to the present disclosure, the terminal can be miniaturized.
First, embodiments according to the present disclosure will be listed and described.
(1) The present disclosure is related to a terminal to be coupled to a mate terminal. The terminal includes a tubular portion and a spring tab. The mate terminal is to be inserted in the tubular portion and the spring tab is within the tubular portion. The tubular portion includes a spring-side wall, a connection wall, a first side wall that is continuous from the connection wall and the spring-side wall, and a second side wall that is continuous from the spring-side wall. The spring tab presses the mate terminal, which is inserted in the tubular portion, from the spring-side wall toward the connection wall. The tubular portion includes a connection portion that connects the spring tab and the connection wall. The tubular portion includes an opening limiter portion that contacts the connection portion from an opposite direction from a pressing direction in which the spring tab presses the mate terminal toward the connection wall.
With the opening limiter portion contacting the connection portion that is continuous from the connection wall, the connection wall is less likely to open.
(2) The connection wall may include a receiving recess and the opening limiter portion may be within the receiving recess.
The opening limiter portion is disposed in the receiving recess of the connection wall. With such a configuration, the opening limiter portion protrudes from an outer surface of the connection wall with a small protrusion dimension. This can miniaturize the terminal as a whole.
(3) An outer surface of the opening limiter portion may be flush with an outer surface of the connection wall.
The connection wall is less likely to open while suppressing the terminal from increasing in size.
(4) The connection portion may be continuous from an edge of the connection wall, the edge of the connection wall being close to the second side wall and the opening limiter portion may be continuous from the second side wall.
Since the connection portion is close to the second side wall and the second side wall includes the opening limiter portion, the connection portion and the opening limiter portion are close to each other. This allows the opening limiter portion to contact the connection portion easily.
(5) A wire coupling portion may be continuous from the tubular portion and may be coupled to an electric wire. The wire coupling portion may include a holding portion that holds the electric wire. A shell may be arranged outside the holding portion. The shell may include a pressing portion that presses the holding portion toward the electric wire.
With the pressing portion pressing the holding portion toward the electric wire, the terminal is connected to the electric wire. With such a configuration, a large jig such as an anvil and a crimper is not necessary to crimp a barrel portion on the electric wire and this can reduce a cost for coupling the terminal to the electric wire.
(6) The shell may be slidable relative to the holding portion in a direction in which the electric wire extends.
The terminal is coupled to the electric wire by sliding the shell relative to the holding portion, that is, with a simple method. This improves work efficiency in coupling of the terminal to the electric wire.
(7) The present disclosure is related to an electric cable including a terminal. The electric cable including a terminal includes the terminal according to any one of (1) to (6) and an electric wire coupled to the terminal.
Embodiments according to the present disclosure will be described. The present invention is not limited to the embodiments. All modifications within and equivalent to the technical scope of the claimed invention may be included in the technical scope of the present invention.
A first embodiment according to the present disclosure will be described with reference to
[Electric Wire 11]
As illustrated in
[Terminal 12]
As illustrated in
[Terminal Body 15]
The terminal body 15 is formed into a predetermined shape by pressing a metal plate. The metal of which the terminal body 15 is made may be selected from any kinds of metal including copper, copper alloy, aluminum, aluminum alloy, and stainless steel where appropriate. The terminal body 15 in this embodiment may be made of copper or copper alloy. Surfaces of the terminal body 15 may be plated. The plating metal may be selected from any kinds of metal such as tin, nickel, and silver where appropriate. The terminal body 15 in this embodiment is tin-plated.
As illustrated in
[Tubular Portion 17]
As illustrated in
The spring tab 19 includes a basal portion 19A and a spring body portion 19B that extends frontward from the basal portion 19A. The basal portion 19A is contacted with the rear end portion of the spring-side wall 30. A height of the basal portion 19A in an upper-lower direction is substantially same as a height of the spring-side wall 30 in the upper-lower direction. The spring body portion 19B extends frontward from a rear end portion of the tubular portion 17.
As illustrated in
As illustrated in
[Wire Coupling Portion 20]
As illustrated in
An upper holding protrusion 23A protrudes downward from a section of a lower surface of the upper holding section 18A in front of a rear edge of the upper holding section 18A. A lower holding protrusion 23B protrudes upward from a section of an upper surface of a rear edge of the lower holding section 18B. The lower holding protrusion 23B is displaced from the upper holding protrusion 23A in the front-rear direction.
A lower surface of the upper holding section 18A and an upper surface of the lower holding section 18B dig into an oxide layer formed on the surface of the core wire 13 and locally strip the oxide layer so that the metal surface of the core wire 13 is exposed. With the metal surface contacting the upper holding section 18A and the lower holding section 18B, the core wire 13 is electrically connected to the terminal body 15.
[Slider 16]
As illustrated in
As illustrated in
As illustrated in
As illustrated in
When the holding protrusions 28 of the terminal body 15 are held in the permanent receiving holes 27 of the slider 16, the slider 16 is held at the permanent holding position relative to the terminal body 15. As illustrated in
As described above, while the slider 16 is fitted on the section of the terminal body 15 including the upper holding section 18A and the lower holding section 18B, the slider 16 is slidable in the front-rear direction between the temporary holding position and the permanent holding position.
As illustrated in
As illustrated in
As illustrated in
As illustrated in
[Opening Limiter Portion 38]
As illustrated in
The opening limiter portion 38 is on the right edge of the rear portion of the second side wall 33. The opening limiter portion 38 is bent downward and fitted in the receiving recess 37. The opening limiter portion 38 is bent in a direction along a wall surface of the connection wall 31 (downward) from the connection wall 31-side edge of the second side wall 33. Namely, the opening limiter portion 38 is continuous from the second side wall 33. An inner shape of the receiving recess 37 is same as or slightly greater than an outer shape of the opening limiter portion 38. A right surface of the connection wall 31 is flush with a right surface of the opening limiter portion 38.
As illustrated in
As illustrated in
As illustrated in
[Steps of Coupling Electric Wire 11 and Terminal 12]
Next, one example of steps of coupling the electric wire and the terminal 12 will be described. The steps of coupling the electric wire 11 and the terminal 12 are not limited to those described below.
The terminal body 15 and the slider 16 are prepared with a known method. The slider 16 is attached to the terminal body 15 from the rear. The slider 16 is held at the temporary holding position relative to the terminal body 15. Although details are not illustrated, the slider 16 may be held at the temporary holding position relative to the terminal body 15 with a known holding structure.
The section of the core wire 13 of the electric wire 11 is exposed by striping the section of the insulating sheath 14 with a known method.
The electric wire 11 is inserted frontward into the slider 16 from the rear end of the slider 16. The front end portion of the core wire 13 is guided into the slider 16 from the rear end of the slider 16. When the electric wire 11 is pushed further forward, the front end of the core wire 13 enters the inside of the terminal body 15 and reaches the gap between the upper holding section 18A and the lower holding section 18B.
When the slider 16 is held at the temporary holding position relative to the terminal body 15, the gap between the upper holding section 18A and the lower holding section 18B is greater than the outer diameter of the core wire 13.
Next, the slider 16 is slid frontward. The slider 16 is moved frontward relative to the terminal body 15 by the jig 45 and is held at the permanent holding position.
With the slider 16 held at the permanent holding position relative to the terminal body 15, the upper pressing portion 25A of the slider 16 contacts the upper holding section 18A of the terminal body 15 from above and presses the upper holding section 18A downward. The lower pressing portion 25B of the slider 16 contacts the lower holding section 18B of the terminal body 15 from below and presses the lower holding section 18B upward. Therefore, the core wire 13 is sandwiched between the upper holding section 18A and the lower holding section 18B in the upper-lower direction.
As illustrated in
When the core wire 13 is sandwiched between the upper holding section 18A and the lower holding section 18B in the upper-lower direction, the core wire 13 is sandwiched between the upper holding protrusion 23A on the upper holding section 18A and the lower holding protrusion 23B on the lower holding section 18B. The core wire 13 is stretched in the front-rear direction and bent in the upper-lower direction. According to the configuration, the core wire 13 is firmly held and thus the electric wire 11 and the terminal 12 are held together with a greater force even when the electric wire 11 is pulled. The electric cable 10 including the terminal is complete.
Next, operations and effects of this embodiment will be described. This embodiment is related to the terminal 12 that is to be coupled to the mate terminal 50. The terminal 12 includes the tubular portion 17 and the spring tab 19. The mate terminal 50 is to be inserted in the tubular portion 17 and the spring tab 19 is within the tubular portion 17. The tubular portion 17 includes the spring-side wall 30, the connection wall 31, the first side wall 32 that is continuous from the connection wall 31 and the spring-side wall 30, and the second side wall that is continuous from the spring-side wall 30. The spring tab 19 presses the mate terminal 50, which is inserted in the tubular portion 17, from the spring-side wall 30 toward the connection wall 31. The tubular portion 17 includes the connection portion 39 that connects the spring tab 19 and the connection wall 31. The tubular portion 17 includes the opening limiter portion 38 that contacts the connection portion 39 from the opposite direction from the pressing direction (the right direction in this embodiment) in which the spring tab 19 presses the mate terminal 50 toward the connection wall 31.
The electric cable 10 including the terminal according to this embodiment includes the terminal 12 and the electric wire 11 coupled to the terminal 12.
With the opening limiter portion 38 contacting the connection portion 39 that is continuous from the connection wall 31, the connection wall 31 is less likely to be deformed to open.
According to this embodiment, the connection wall includes the receiving recess 37 and the opening limiter portion 38 is in the receiving recess 37.
The opening limiter portion 38 is disposed in the receiving recess 37 of the connection wall 31. With such a configuration, the opening limiter portion 38 protrudes from the outer surface of the connection wall 31 with a small protrusion dimension. This can miniaturize the terminal 12 as a whole.
In this embodiment, the outer surface of the opening limiter portion 38 is flush with the outer surface of the connection wall 31. This suppresses the terminal 12 from increasing its size and suppresses the connection wall 31 from being deformed and opening.
In this embodiment, the connection portion 39 is continuous from the second side wall 33-side edge of the connection wall 31 and the opening limiter portion 38 is continuous from the second side wall 33.
Since the connection portion 39 is close to the second side wall 33 and the second side wall 33 includes the opening limiter portion 38, the connection portion 39 and the opening limiter portion 38 are close to each other. This allows the opening limiter portion 38 to contact the connection portion 39 easily.
In this embodiment, the wire coupling portion 20 that is connected to the electric wire 11 is continuous from the tubular portion 17. The wire coupling portion 20 includes the upper holding section 18A and the lower holding section 18B that sandwich the electric wire 11. The slider 16 is outside the upper holding section 18A and the lower holding section 18B. The slider 16 includes the upper pressing portion 25A and the lower pressing portion 25B that press the upper holding section 18A and the lower holding section 18B toward the electric wire 11.
With the upper pressing portion 25A and the lower pressing portion 25B pressing the upper holding section 18A and the lower holding section 18B toward the core wire 13 of the electric wire 11, the terminal 12 is connected to the core wire 13 of the electric wire 11. With such a configuration, a large jig such as an anvil and a crimper is not necessary to crimp a barrel portion on the surface of the electric wire 11 and this can reduce a cost for coupling the terminal 12 to the electric wire 11.
In this embodiment, the slider 16 is slidable in the extending direction (the front-rear direction), in which the electric wire 11 extends, relative to the upper holding section 18A and the lower holding section 18B.
In this embodiment, the terminal 12 is coupled to the electric wire 11 by sliding the slider 16 relative to the upper holding section 18A and the lower holding section 18B, that is, with a simple method. This improves work efficiency in coupling of the terminal 12 to the electric wire 11.
(1) The receiving recess 37 may be formed by reducing a thickness of a portion of the connection wall 31.
(2) The opening limiter portion 38 may be thinner than other portions of the terminal 12.
(3) The coupling structure of the electric wire 11 and the terminal 12 is not limited but may include other structure as appropriate. For example, the terminal may include a barrel that is to be crimped on the outer surface of the electric wire 11.
(4) The terminal 12 may include only one holding section or three or more holding sections.
Number | Date | Country | Kind |
---|---|---|---|
2019-132786 | Jul 2019 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2020/025477 | 6/29/2020 | WO |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2021/010147 | 1/21/2021 | WO | A |
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Number | Date | Country | |
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20220376419 A1 | Nov 2022 | US |