1. Field of the Invention
The present invention relates to a terminal fitting and a wire with a terminal fitting.
2. Description of the Related Art
Japanese Unexamined Patent Publication No. 2010-146939 discloses a structure for soldering and connecting a coaxial center conductor to a terminal. Paste solder is attached to the center core in advance. The center core is placed on a terminal arrangement surface of the terminal together with the attached paste solder and, in that state, the paste solder is melted to connect the center core to the terminal.
In the above case, it is difficult to attach a predetermined amount of solder to the center core. Thus, the supply amount of solder may vary for each terminal, which is not favorable in terms of quality stability.
The present invention was completed based on the above situation and aims to easily and properly control the supply amount of solder.
A terminal fitting according to the invention has a soldering portion to which a conductor of a wire is to be soldered, solid solder for soldering the conductor to the soldering portion in a solid state and a holding portion that holds the solid solder until the solid solder is melted and the conductor is soldered.
The holding portion may include at least one holding piece that comes into contact with the solid solder in a direction intersecting an extending direction of the wire.
The holding piece may have a step serving as a reference in positioning the conductor between the holding piece and an outer surface of the solid solder. The step avoids the need to provide a special positioning means and the configuration can be simplified.
The holding piece may be tapered toward its projecting end to have a smaller width in the front-back direction.
Plural holding pieces may be provided and may have parts to be overlapped in the width direction.
The holding portion may crimp and hold the solid solder so that the solid solder is fixed stably and firmly to the holding portion.
The holding portion may resiliently hold the solid solder. Thus, a special mounting apparatus is not necessary to mount the solid solder into the holding portion and the solid solder can be mounted easily.
The terminal fitting may comprises a terminal connection portion to be connected to a mating terminal fitting. The soldering portion may be wider than a bottom plate of the terminal connecting portion by having a coupling arranged between the terminal connecting portion and the soldering portion.
The soldering portion may comprise a curved solder attaching surface, provided to enclose at least part of the conductor of the wire and to which solder is attached by heating and melting the solid solder.
The invention also relates to a wire with a terminal fitting of the present invention is a wire connected to a terminal fitting including a soldering portion and at least one holding portion for holding solid solder, and the solid solder is melted and a conductor of the wire is soldered to the soldering portion.
The conductor is connected to the soldering portion by melting the solid solder held in or at the holding portion. Thus, the terminal fitting is supplied in a state where the solder is held in the form of the solid solder in the holding portion, handling is excellent. In addition, since the supply amount of solder used for the connection of the terminal fitting and the conductor can be specified in advance as the solid solder, the supply amount of solder can be easily and properly controlled.
These and other objects, features and advantages of the invention will become more apparent upon reading the following detailed description of preferred embodiments and accompanying drawings. It should be understood that even though embodiments are separately described, single features thereof may be combined to additional embodiments.
A first embodiment of the invention is described with reference to
As shown in
A substantially cylindrical lead thread solder 60 (e.g. a lead-free tin solder) is shown in
The terminal main body 10 is formed unitarily by folding, embossing and/or bending an electrically conductive metal plate (e.g. made of copper or copper alloy) and is long and narrow in the front-back direction. Specifically, the terminal main body 10 includes a terminal connecting portion 12 on a front part, a wire connecting portion 13 on a rear part and a coupling 14 extending between and coupling the wire connecting portion 13 and the terminal connecting portion 12.
As shown in
A resilient contact piece 18 is provided in the terminal connecting portion 12, as shown in
The wire connecting portion 13 includes the soldering portion 11 in the form of a strip extending long and narrow in the front-back direction and having a curved arcuate cross-sectional shape, as shown in
Further, as shown in
The soldering portion 11 is wider than the bottom plate 15 of the terminal connecting portion 12 by having the coupling 14 between the wire connecting portion 12 and the soldering portion 11, as shown in
Further, as shown in
Each of the holding pieces 19 has a base end portion 23 connected to the soldering portion 11 between the front and rear slits 22. The holding pieces 19 are strips that project from the base ends 23 in directions perpendicular to the front-back direction. Specifically, the holding pieces 19 are tapered toward their projecting ends to have a smaller width in the front-back direction and are displaced from each other in the front-back direction. The holding pieces 19 function to crimp and hold the solid solder 60 as described later.
The holding pieces 19 are kept in an open state before the solid solder 60 is mounted to the terminal main body 10 and stand up from the opposite side edges of the front end part of the soldering portion 11, as shown in
In the above state, the solid solder 60 is placed on the solder attaching surface 21 of the soldering portion 11 and the solid solder 60 is mounted in the terminal main body 10. At this time, the front end of the solid solder 60 is arranged substantially on the front end of the soldering portion 11 and the rear end thereof is arranged before the rear end of the soldering portion 11.
The holding pieces 19 then are deformed by an unillustrated caulking apparatus (anvil and crimper, etc.) to press an upper end part of the solid solder 60. In this way, as shown in
Specifically, as shown in
The terminal fitting shown in
Subsequently, as shown in
The solid solder 60 then is heated and melted, as shown in
As described above, according to the first embodiment, the supply amount of solder is set to be a predetermined specified amount of the solid solder 60 when soldering the conductor 91 of the wire 90 to the soldering portion 11 of the terminal fitting. Thus, the supply amount of solder does not vary in each terminal fitting to be produced and supply stability and quality stability is improved.
Further, the respective holding pieces 19 are crimped to hold the solid solder 60. Thus, the state where the solid solder 60 is held by the respective holding pieces 19 can be maintained reliably until the solid solder 60 is melted. Furthermore, the step 25 between the rear end of the rear holding piece 19 and the outer peripheral surface of the solid solder 60 is a reference in positioning the conductor 91 of the wire 90, and a special structure is not required for positioning the conductor 91 of the wire 90 so that the configuration is simplified.
The holding portion 20A comprises two deflectable and deformable holding pieces 19A. As shown in
Specifically, as shown in
In mounting the solid solder 60, the solid solder 60 is pulled down to a solder attaching surface 21 of the soldering portion 11 from above. In the process of lowering the solid solder 60, the solid solder 60 is inserted between the inner ends 26 of the holding pieces 19A and, associated with that, the holding pieces 19A are deflected and deformed out with the base ends 23A as supports. When the lower end of the solid solder 60 reaches a position to contact the solder attaching surface 21, as shown in
According to the second embodiment, the solid solder 60 can be mounted easily between the both holding pieces 19A by deflecting the holding pieces 19A from above in one action.
The holding portion 20B comprises a single holding piece 19B in the form of a strip projecting up from one side edge of a front end part of a soldering portion 11. Although not shown in detail, a base end portion 23B of the holding piece 19B is arranged between front and rear slits 22B formed on the one side of the soldering portion 11 (see
Specifically, as shown in
The solid solder 60 is inserted laterally between the holding piece 19B and the soldering portion 11. Thus, the solid solder 60 contacts the tip 27 of the holding piece 19B in the extending direction while sliding on the solder attaching surface 21. Additionally, the holding piece 19B is deflected and deformed up with the base end 23B as a supporting. When the lower end of the solid solder 60 reaches the widthwise central part of the solder attaching surface 21 of the soldering portion 11 as shown in
According to the third embodiment, associated with the deflection of the holding piece 19B, the solid solder 60 can be mounted easily laterally between the holding piece 19B and the soldering portion 11 in one action. Further, according to the third embodiment, the entire configuration can be further simplified since the holding portion 20B is the single holding piece 19B.
The holding portion 20C is formed by bending a plate piece of a metal plate and includes, as shown in
The solid solder 60 is inserted into between the holding piece 19C and the soldering portion 11 from behind. Thus, the solid solder 60 slides on the outer surface of the folded part of the holding piece 19C along the solder attaching surface 21 and, hence, the holding piece 19C is deflected and deformed up with a coupled part to the beam 29 as a supporting. The solid solder 60 moves forward until the front end thereof reaches a position corresponding to the front end of the soldering portion 11, as shown in
According to the fourth embodiment, associated with the deflection of the holding piece 19C, the solid solder 60 can be mounted easily between the holding piece 19C and the soldering portion 11 from behind in one action.
The invention is not limited to the above described embodiments. For example, the following modes also are included in the scope of the invention.
The solid solder may be plate solder in the form of a strip long in the front-back direction. According to this, the conductor of the wire can be placed on a flat plate surface of the plate solder, whereby support stability at the time of setting the conductor is excellent.
In the first embodiment, the both holding pieces may be arranged at the same position in the front-back direction. In this case, the both holding pieces may be fixed to the solid solder in such a manner as to be placed one over the other in the height direction.
In the first embodiment, the holding pieces may be deformed to be wound around the outer peripheral surface of the solid solder.
The solid solder may be held in the holding portion while being lifted from the upper surface (solder attaching surface) of the soldering portion and the conductor of the wire may be inserted into between the solid solder and the soldering portion.
Number | Date | Country | Kind |
---|---|---|---|
2014-025465 | Feb 2014 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
3744128 | Fisher | Jul 1973 | A |
4995838 | Ayer | Feb 1991 | A |
5281760 | Kikuchi | Jan 1994 | A |
5418331 | Delalle | May 1995 | A |
5725400 | Morikawa | Mar 1998 | A |
20070095555 | Venaleck | May 2007 | A1 |
20130008714 | Morikawa | Jan 2013 | A1 |
20140202751 | Bugg | Jul 2014 | A1 |
20150229090 | Hasagawa | Aug 2015 | A1 |
Number | Date | Country |
---|---|---|
2010-123449 | Jun 2010 | JP |
2010-146939 | Jul 2010 | JP |
2013133409 | Sep 2013 | WO |
Number | Date | Country | |
---|---|---|---|
20150229035 A1 | Aug 2015 | US |