1. Technical Field
The present invention relates to a terminal crimped wire including a wire, a terminal, and an anticorrosion material provided to cover the wire exposed on an outside of the crimping terminal.
2. Related Art
WO 2011/125626 A1 discloses a conventional terminal crimped wire. As illustrated in
Even when the conventional terminal crimped wire 150 is poured to water, immersion of the conductor 160 in water is prevented in a manner such that the solder 155 prevents pouring water into the conductor 160 from a front and upper sides of the wire connection portion 152, and the serrations 152b prevent pouring water into the conductor 160 through a gap between the back end of the wire connection portion 152 and the insulation sheath 161 of the wire W. In the case where the conductor 160 is made of aluminum, galvanic corrosion can be prevented. Namely, a water cut-off performance and an anticorrosion property of the terminal crimped wire 150 are improved due to the solder 155 and the serrations 152b.
However, the sealing performance of the terminal crimped wire 150 is decreased in the state where the wire W extending from the crimping terminal is bent. As a result, the water cut-off performance and the anticorrosion property are decreased. That is, when the wire W is bent, a gap may be caused between the wire W and the wire connection portion 152 on the outside of the bent portion of the wire W, and the gap causes pouring water into the conductor 160 of the wire W.
The present invention has been made in view of the above-described problem. It is an object of the present invention to provide a terminal crimped wire capable of improving a sealing performance in a state where a wire extending from the crimping terminal is bent.
A terminal crimped wire according to a first aspect of the present invention includes: a wire including a conductor and an insulation sheath covering a circumference of the conductor, a crimping terminal crimped to the wire, an anticorrosion material which covers an exposed part of the wire drawn out of the crimping terminal, and an elastic member provided along a circumference of the wire. The crimping terminal is crimped to the wire via the elastic member interposed therebetween.
Serrations may be provided on the inner surface of the crimping terminal.
The conductor may be made of aluminum or an aluminum alloy. The crimping terminal may be crimped to the conductor exposed in a manner such that the insulation sheath at a terminal of the wire is removed, and an end portion of the insulation sheath. The elastic member may include a cylindrical elastic sealing member which covers the circumference of the end portion of the insulation sheath towards the exposed conductor and the circumference of the exposed conductor adjacent to the end portion of the insulation sheath. The crimping terminal may include a conductor crimping portion by which the exposed conductor is crimped, and an elastic member crimping portion located in the end portion of the crimping terminal on the wire connection side to crimp a part of the elastic member where the circumference of the exposed conductor is covered. A gap in the crimping terminal crimping the wire may be covered with the anticorrosion material.
The crimping terminal may include a pair of crimping pieces integrally crimped to the exposed conductor and the insulation sheath. The anticorrosion material may be solder. The solder may cover the outer surface of the conductor drawn out of the crimping pieces and a gap in the crimping pieces.
The part of the elastic member covering the circumference of the exposed conductor may have a length in the extending direction of the wire which is set in a manner such that the part of the elastic member can fit in a terminal housing portion of a connector housing.
Lip portions may be provided on and project from an inner surface of the elastic member in a corrugated pattern in cross section so as to decrease an inner diameter of the elastic member.
A groove may be provided on the inner surface of the elastic member crimping portion in the direction perpendicular to the extending direction of the wire.
The anticorrosion material may be applied in a manner as to be distant from the insulation sheath in the extending direction of the wire.
The elastic member crimping portion may be integrated with the conductor crimping portion in the extending direction of the wire without interposing a gap therebetween.
In accordance with the terminal crimped wire according to the first aspect of the present invention, since the elastic member is interposed between the wire and the crimping terminal, a gap through which water can pour is not easily caused between the wire and the crimping terminal on the outside of the bent portion of the wire in the case where the wire extending from the crimping terminal is bent. Therefore, it is possible to improve a sealing performance in the state where the wire extending from the crimping terminal is bent, and thereby to improve a water cut-off performance and an anticorrosion property.
Hereinafter, embodiments of the present invention will be explained with reference to the drawings.
As illustrated in
The terminal connection portion 2 includes a square cylindrical portion 3, and an elastic contact piece (not illustrated) disposed inside the cylindrical portion 3. When the mating terminal is inserted into the cylindrical portion 3, the mating terminal comes into close contact with the cylindrical portion 3 by an elastic restoring force of the elastic contact piece. As a result, the mating terminal is electrically connected to the terminal connection portion 2.
The wire connection portion 10 includes a wire connection portion bottom wall 11, a pair of wire connection portion side walls 12 extending from both side edges of the wire connection portion bottom wall 11, and a pair of crimping pieces 13 further extending from the respective wire connection portion side walls 12. A plurality of serrations 11a are provided on inner surfaces of the wire connection portion bottom wall 11 and the wire connection portion side walls 12. Each of the serrations 11a extends in a direction perpendicular to the axis direction of the wire W.
Each of the crimping pieces 13 includes a conductor crimping portion 13a located towards a front side, and a sheath crimping portion 13b connected to the conductor crimping portion 13a and located towards a rear side. In each of the crimping pieces 13, an extending height of the sheath crimping portion 13b is higher than that of the conductor crimping portion 13a. In the pair of the crimping pieces 13, the conductor crimping portions 13a are crimped to the conductor 30, and the sheath crimping portions 13b are crimped to the insulation sheath 31 while interposing an elastic member 16 between the sheath crimping portions 13b and the insulation sheath 31. Namely, the conductor 30 and the insulation sheath 31 are integrally crimped by the crimping pieces 13.
The elastic member 16 is deformed by a compression force applied from the crimping pieces 13 and the insulation sheath 31. The elastic member 16 is formed into a cylindrical shape made of, for example, silicone rubber, and is preliminarily fitted to the circumference of the insulation sheath 31 before crimping.
The crimping pieces 13 are crimped in a manner such that the respective edges come into contact with each other (see
The neck portion 20 includes a neck portion bottom wall 21, and a pair of neck portion side walls 22 elongated upward from both edges of the neck portion bottom wall 21. The neck portion bottom wall 21 and the neck portion side walls 22 are integrated with each wall of the terminal connection portion 2 and each wall of the wire connection portion 10, respectively.
An area in the wire connection portion 10 where water maybe poured the wire W, is covered with solder 25 as an anticorrosion material. In particular, the solder 25 is provided to cover the conductor 30 exposed on the outside of the pair of the crimping pieces 13, and cover a gap between the pair of the crimping pieces 13. The solder 25 is provided in a manner such that the solder in a molten state is applied by use of a soldering iron, or soldering paste is applied and then heated.
The elastic member 16 is interposed between the crimping pieces 13 and the insulation sheath 31. Therefore, even when the wire W extending from the wire connection portion 10 is bent, a gap through which water can be poured is not easily caused between the wire connection portion 10 and the insulation sheath 31. In particular, the elastic member 16 on the outside of the bent portion of the wire W is deformed in an elastic restoring direction to fill a gap caused between the wire connection portion 10 and the insulation sheath 31. Therefore, a sealing performance in the state where the wire extending from the wire connection portion 10 is bent, can be improved. In the terminal crimped wire 1 according to the present embodiment, an anticorrosion property can be improved since the conductor 30 is made of aluminum or an aluminum alloy. Further, a water cut-off performance can be improved in the case where the conductor 30 is made of copper.
Installing the elastic member 16 to the circumference of the wire W can be automatically processed by a machine. Therefore, the water cut-off performance between the wire connecting portion 10 and the wire W can be improved without debasement of processing performance.
The serrations 11a are provided on the inner surface of the wire connection portion 10. Therefore, the sealing performance between the wire connection portion 10 and the wire W can be further improved. In addition, a fixing capacity of the wire W can also be improved.
Although the terminal crimped wire 1 according to the first embodiment is provided with the serrations 11a on the inner surface of the wire connection portion 10, the serrations 11a are not necessarily provided.
Although the solder 25 is used as the anticorrosion material in the terminal crimped wire 1 according to the first embodiment, grease, a hot-melt adhesive, or the like may be used as the anticorrosion material.
Although the conductor 30 in the terminal crimped wire 1 according to the first embodiment is made of aluminum or an aluminum alloy, the conductor 30 may be made of copper or the like.
As illustrated in
The conductor 30 is formed by stranding a plurality of strands 30a made of aluminum or an aluminum alloy. The insulation sheath 31 is made of insulating synthetic resin, and covers the circumference of the conductor 30 so that the conductor 30 is externally insulated. The conductor 30 may be a single core wire made of aluminum or an aluminum alloy.
The elastic member 16A is made of an elastic material such as silicone rubber, and the inner diameter of the cylindrical shape thereof is slightly smaller than the diameter of the conductor 30. Therefore, the elastic member 16A comes into close contact with the circumference of the insulation sheath 31 and the circumference of the exposed conductor 30.
The inner diameter of the elastic member 16A can be set to be slightly smaller than the diameter of the insulation sheath 31 by use of, for example, a heat-shrinkable elastic material. In this case, the elastic member 16A is placed in a predetermined position on the wire W, and then heated, so that the elastic member 16A is brought into close contact with the wire W.
The crimping terminal 5 is formed in a manner such that a flat plate made of metal such as copper or a copper alloy is bent by press working. The crimping terminal 5 includes a terminal connection portion 51 to be connected with a mating terminal (not illustrated), a crimping piece 52 connected to the wire W, a neck portion 56 connecting the terminal connection portion 51 to the crimping piece 52.
The terminal connection portion 51 includes a square cylindrical portion 51a, and an elastic contact piece portion (not illustrated) disposed inside the cylindrical portion 51a. When the mating terminal is inserted into the cylindrical portion 51a, the mating terminal comes into close contact with the cylindrical portion 51a by an elastic restoring force of the elastic contact piece. As a result, the mating terminal is electrically connected to the terminal connection portion 51.
The crimping piece 52 includes a conductor crimping portion 53 crimped to the exposed conductor 30, an elastic member crimping portion 54 located in the end portion of the crimping terminal 5 on the wire W side to crimp a part 17 (hereinafter, referred to as sealing portion 17) of the elastic member 16A which covers the circumference of the exposed conductor 30, and a connection portion 55 integrally connecting the conductor crimping portion 53 to the elastic member crimping portion 54.
The conductor crimping portion 53 includes a conductor crimping portion bottom wall 53a on which the conductor 30 is placed, and a pair of conductor crimping portion side walls 53b elongated upward from both edges of the conductor crimping portion bottom wall 53a and crimped in a manner as to cover the conductor 30 from both sides to the upper side of the conductor 30. As illustrated in
The elastic member crimping portion 54 is integrated with the conductor crimping portion 53 along the extending direction of the wire W without providing a gap therebetween, and is located in the end portion of the crimping terminal 5 to which the wire W is connected.
In particular, the elastic member crimping portion 54 includes an elastic member crimping portion bottom wall 54a on which the sealing portion 17 is placed, and a pair of elastic member crimping portion side walls 54b crimped in a manner as to cover the sealing portion 17 from both sides to the upper side of the sealing portion 17. The height of the respective elastic member crimping portion side walls 54b is set in a manner such that upper edge portions of the pair of the elastic member crimping portion side walls 54b come into contact with each other so as to cover the circumference of the sealing portion 17.
Namely, the height of the respective elastic member crimping portion side walls 54b is set according to the diameter of the sealing portion 17. The diameter of the sealing portion 17 is larger than that of the conductor 30 by the thickness of the elastic member 16A. Therefore, the height of the respective elastic member crimping portion side walls 54b is set to be higher than that of the respective conductor crimping portion side walls 53b.
As illustrated in
A groove 54c is provided on the inner surface of the elastic member crimping portion 54 in the direction perpendicular to the extending direction of the wire W. At the point of crimping the sealing portion 17 by the elastic member crimping portion 54, the elastic member 16A is deformed to enter the groove 54c. The groove 54c thus prevents the wire W from being removed from the crimping terminal 5 by a tensile force in the extending direction of the wire W.
As illustrated in
The length of the sealing portion 17 in the extending direction of the wire W is set in a manner such that the sealing portion 17 can fit in a terminal housing portion 110 of a connector housing 100 in which the terminal crimped wire 1A is housed. In particular, as illustrated in
The connection portion 55 includes a connection portion bottom wall 55a integrated with the conductor crimping portion bottom wall 53a at the front edge and integrated with the elastic member crimping portion bottom wall 54a at the rear edge, respectively, and a pair of connection portion side walls 55b integrated with the pair of the conductor crimping portion side walls 53b at front edges, and integrated with the pair of the elastic member crimping portion side walls 54b at rear edges, respectively. Each of the connection portion side walls 55b is connected to the conductor crimping portion side wall 53b and the elastic member crimping portion side wall 54b at the front and rear edges, respectively, which are different in height. Therefore, the upper edge surface of each connection portion side wall 55b is inclined upward from the front edge to the rear edge.
When the wire W is crimped by the crimping terminal 5, the joint 57, which is a gap 90 in the crimping terminal 5, and the opening 58 are sealed with the sealing material 25 such as solder. The sealing material 25 is applied in a manner as to be distant from the insulation sheath 31. Due to the space provided between the insulation sheath 31 and the sealing material 25, a thermal influence on the insulation sheath 31 is reduced at the point of applying the sealing material 25.
The sealing material 25 is not limited to solder, and may be synthetic resin such as ultraviolet curable resin, or the like. However, a conductive material is preferably used for the sealing material 25 in view of preventing an increase in resistance as much as possible.
A conventional crimping terminal having a similar shape to the crimping terminal 5 may be used, in which the insulation sheath 31 is crimped by a portion corresponding to the elastic member crimping portions 54. In this case, the insulation sheath 31 is removed in a manner such that the exposed length of the conductor 30 at a terminal portion Wa of the wire W is set to be longer than that in a conventional wire crimped by the conventional crimping terminal, so that the insulation sheath 31 is not crimped by the crimping terminal 5.
Next, a procedure of assembling the wire W and the crimping terminal 5 in the terminal crimped wire 1A according to the second embodiment is explained below with reference to
First, an operator inserts the wire W into the elastic member 16A, and removes the insulation sheath 31 of the terminal portion Wa of the wire W (see
Then, the operator moves the elastic member 16A to cover the circumference of the end portion 31a of the insulation sheath 31 on the exposed conductor 30 side and the circumference of the exposed conductor 30 adjacent to the end portion 31a (see
Then, the operator crimps the crimping terminal 5 to crimp the wire W (see
Thereafter, the operator seals the joint 57 of the crimping terminal 5 and the opening 58 with the sealing material 25, thereby completing the procedure of assembling the wire W and the crimping terminal 5 (see
The terminal crimped wire 1A according to the second embodiment obtains a water cut-off performance in a manner such that the exposed conductor 30 and the end portion 31a of the insulation sheath 31 adjacent to the conductor 30, are covered with and brought into close contact with the elastic member 16A, and such that the joint 57, which is the gap 90 of the crimping terminal 5, and the opening 58 are sealed with the sealing material 25. In addition, the conductor crimping portion 53 is crimped to the exposed conductor 30, so that the crimping terminal 5 is connected to the conductor 30 without increasing resistance. Further, not a part of the elastic member 16A where the insulation sheath 31 is covered but a part of the elastic member 16A where the exposed conductor 30 is directly covered, is crimped by the crimping terminal 5. Therefore, an increase in width of the terminal crimped wire 1A in the diametrical direction is prevented. Thus, the terminal housing portion 110 of the connector housing 100 in which the terminal crimped wire 1A is housed, is not required to have a large size. Accordingly, the conductor 30 can be tightly covered with the crimping terminal 5 in a watertight manner without increasing resistance, which expands versatility.
The part of the terminal crimped wire 1A according to the second embodiment where the insulation sheath 31 is removed, is housed in the connector housing 100. Therefore, the width in the diametrical direction of the terminal crimped wire 1A can be minimized, and the terminal housing portion 110 is thus not required to have a large size. As a result, versatility can be expanded.
In the terminal crimped wire 1A according to the second embodiment, the elastic member 16A is deformed at the point of crimping by the elastic member crimping portion 54, and the elastic member 16A thus enters the groove 54c. Accordingly, the wire W is prevented from being removed from the crimping terminal 5 by a tensile force in the extending direction of the wire W.
In the terminal crimped wire 1A according to the second embodiment, the sealing material 25 is applied in a manner as to be distant from the insulation sheath 31. Therefore, a thermal influence on the insulation sheath 31 is reduced at the point of applying the sealing material 25.
In the terminal crimped wire 1A according to the second embodiment, the elastic member crimping portion 54 is integrated with the conductor crimping portion 53 with no gap in the extending direction of the wire W. Therefore, the water cut-off performance of the crimping terminal 5 can be improved.
A terminal crimped wire 1B according to a modified example 1 of the second embodiment is explained below with reference to
As illustrated in
A plurality of lip portions 18 are provided on and project from the inner surface of the elastic member 16B in a corrugated pattern in cross section so as to decrease the inner diameter of the elastic member 16B. Due to the provision of the lip portions 18, it is possible to surely prevent water from pouring into the elastic member 16B through the back end of the elastic member 16B.
The terminal crimped wire 1B according to the modified example 1 can obtain the same effects as the terminal crimped wire 1A according to the second embodiment. In addition, since it is possible to surely prevent water from pouring into the elastic member 16B, the water cut-off performance can be improved.
As illustrated in
A terminal crimped wire 1C according to a modified example 2 of the second embodiment is explained below with reference to
The terminal crimped wire 1C according to the modified example 2 is different from the terminal crimped wire 1A according to the second embodiment in that a crimping terminal 6 is provided instead of the crimping terminal 5. Other components are the same as the second embodiment, and the same components are indicated by the same reference numerals as the second embodiment.
The crimping terminal 6 is a so-called closed barrel type crimping terminal. Therefore, the sealing material 25 is only applied to an opening 68 in the crimping terminal 6.
The terminal crimped wire 1C according to the modified example 2 can obtain the same effects as the terminal crimped wire 1A according to the second embodiment. In addition, since the exposed part of the conductor 30 drawn out of the crimping terminal 6 can be minimized, the water cut-off performance of the crimping terminal 6 can be further improved.
A terminal crimped wire 1D according to a modified example 3 of the second embodiment is explained below with reference to
The terminal crimped wire 1D according to the modified example 3 is different from the terminal crimped wire 1A according to the second embodiment in that a crimping terminal 7 is provided instead of the crimping terminal 5. Other components are the same as the second embodiment, and the same components are indicated by the same reference numerals as the second embodiment.
A pair of slits 73 is provided between a conductor crimping portion 71 and an elastic member crimping portion 72 of the crimping terminal 7, in a manner as to be elongated downward from each upper edge surface. With such configuration, the height of a pair of conductor crimping portion side walls 71b is set to be different from that of a pair of elastic member crimping portion side walls 72b. Namely, the crimping terminal 7 does not include the connection portion 55 of the terminal crimped wire 1A according to the second embodiment.
In the case of using the crimping terminal 7, the opening 73, which is the gap 90 provided by the pair of the slits 73 is sealed with the sealing material 25.
A conventional crimping terminal having a similar shape to the crimping terminal 7 may be used, in which the insulation sheath 31 is crimped by a portion corresponding to the elastic member crimping portion 72. In this case, the insulation sheath 31 is removed in a manner such that the exposed length of the conductor 30 at the terminal portion Wa of the wire W is set to be longer than that in a conventional wire crimped by the conventional crimping terminal, so that the insulation sheath 31 is not crimped by the crimping terminal 7.
The terminal crimped wire 1D according to the modified example 3 can obtain the same effects as the terminal crimped wire 1A according to the second embodiment.
A terminal crimped wire 1E according to a modified example 4 of the second embodiment is explained below with reference to
The terminal crimped wire 1E according to the modified example 4 is different from the terminal crimped wire 1A according to the second embodiment in that a crimping terminal 8 is provided instead of the crimping terminal 5. Other components are the same as the second embodiment, and the same components are indicated by the same reference numerals as the second embodiment.
The crimping terminal 8 includes a pair of elastic member holding piece portions 84 to hold the elastic member 16A. Each elastic member holding piece portion 84 is provided with a slit 83 formed into a cantilever shape and elongated downward from each upper edge surface of an elastic member crimping portion 82.
The terminal crimped wire 1E according to the modified example 4 can obtain the same effects as the terminal crimped wire 1A according to the second embodiment.
The terminal crimped wire 1A according to the second embodiment was exemplified by the case in which the length of the part of the elastic member 16A where the exposed conductor 30 is covered, is set according to the dimension of the terminal housing portion 110 of the connector housing 100. However, the length of the part of the elastic member 16A where the exposed conductor 30 is covered, is not limited to this case, and may be set in a manner such that the part of the elastic member 16A covering the exposed conductor 30 is crimped by the elastic member crimping portions 54. This is because, in the case where the terminal crimped wire 1A including the insulation sheath 31 is housed in the terminal housing portion 110, an increase of the width in the diametrical direction of the insulation sheath 31 covered with the elastic member 16A can be prevented since the insulation sheath 31 is not crimped by the crimping terminal 5 in the terminal crimped wire 1A.
Thus, depending on the connector housing 100, the terminal crimped wire 1A including the part where the insulation sheath 31 is covered with the elastic member 16A, can be housed in the terminal housing portion 110.
Although the present invention has been described above by reference to the embodiments, the present invention is not limited to these embodiments, and various modifications and improvements can be made within the scope of the present invention.
Number | Date | Country | Kind |
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2012-081796 | Mar 2012 | JP | national |
2012-169788 | Jul 2012 | JP | national |
This application is a Continuation of PCT Application No. PCT/JP2013/001954, filed on Mar. 22, 2013, and claims the priority of Japanese Patent Applications No. 2012-081796, filed on Mar. 30, 2012, and No. 2012-169788, filed on Jul. 31, 2012, the content of all of which is incorporated herein by reference.
Number | Date | Country | |
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Parent | PCT/JP2013/001954 | Mar 2013 | US |
Child | 14496397 | US |