This application is based on and claims priority from Japanese patent application No. 2019-097970 filed on May 24, 2019, the entire contents of which are incorporated herein by reference.
The present invention relates to a connector which is fixed to a wire harness in a state of being held on an outer peripheral surface of the wire harness by winding a tape, and a wire harness including the connector.
In the related art, as shown in
The connector 100 shown in
[Patent Document 1] JP-A-2009-170289
However, the rib 101 and the width increasing portion 102 are protrusions on an external surface of the connector 100. Therefore, an outermost shape of the connector 100 may increase, and the weight may also increase. Further, when the connector 100 is handled, an external object is likely to hit these protrusions, and a risk of breakage of the connector is increased.
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a connector capable of regulating a position displacement with respect to a wound tape while eliminating a protrusion on an external surface of a connector housing as much as possible, thus avoiding breakage caused by catching during handling without causing an increase in outermost shape and an increase in weight, and a wire harness including the connector.
In order to achieve the above object, the connector and wire harness according to the present invention are characterized by the following (1) to (3).
(1) A connector which is held on an outer peripheral surface of a wire harness in a posture that an axial direction of the connector is directed in an extending direction of the wire harness, and which is fixed to the wire harness in this state by winding a tape, the connector comprising:
a connector housing,
wherein the connector housing includes an outer peripheral wall on which a tape is to be peripherally wound, and an outermost surface of the outer peripheral wall of the connector housing is provided with a plurality of planar outer surfaces which are respectively planar surfaces along the axial direction and have such a relationship that peripherally adjacent planar outer surfaces intersect each other; and ridge line portions along the axial direction in which the peripherally adjacent planar outer surfaces intersect each other,
wherein the ridge line portion is provided with a corner-removed chamfered portion which has a smaller peripheral width than the planar outer surfaces on both sides thereof, and a non-chamfered portion which is located at a rear end portion of the chamfered portion in a ridge line direction, and
wherein the non-chamfered portion protrudes outward from a surface of the chamfered portion, is on an inner side of or on extending surfaces of the planar outer surfaces on both sides of the chamfered portion, and is engaged with a side edge of a tape wound around the outer surfaces so as to be used as a position displacement regulation projection configured to regulate an axial position displacement of the connector housing with respect to the tape.
(2) The connector according to above (1),
wherein the connector is a joint connector in which a joint terminal configured to contact a plurality of mating terminals so as to short-circuit the mating terminals is accommodated inside the connector housing.
(3) A wire harness comprising:
a wire harness body formed of a plurality of electric wires; and
a joint connector configured to electrically short-circuit wire-side terminals which are a plurality of mating terminals respectively provided at ends of a plurality of electric wires included in the wire harness body,
wherein the joint connector is the connector according to above (2), and
wherein the connector housing of the joint connector is held on an outer peripheral surface of the wire harness body in a posture that an axial direction of the joint connector is directed in an extending direction of the wire harness body, and is fixed to the wire harness body by winding the tape at a position of the chamfered portion on the outer peripheral wall of the connector housing.
According to the connector having a configuration described in the above (1), the corner-removed chamfered portion and the non-chamfered portion which is left without being chamfered are formed on the ridge line portion along the axial direction in which the outer surfaces of the connector housing intersect. Further, the non-chamfered portion located at the rear end of the chamfered portion in the ridge line direction is defined as the position displacement regulation projection of the connector housing with respect to the wound tape. The position displacement regulation projection is implemented by the non-chamfered portion, and protrudes outward from the surface of the chamfered portion. Therefore, it is possible to prevent position displacement of the connector housing with respect to the tape wound at the position of the chamfered portion. The position displacement regulation projection implemented by the non-chamfered portion is on the inner side of or on the extending surfaces of the planar outer surfaces on both sides of the chamfered portion. That is, the position displacement regulation projection does not protrude outside of the planar outer surface. Therefore, a protrusion protruding from an external surface of the connector housing can be eliminated as much as possible, thus, an increase in outermost shape and an increase in weight can be avoided, and moreover, breakage caused catching during handling can be prevented.
According to the connector having a configuration described in the above (2), when the joint connector is fixed to the outer peripheral surface of the wire harness by winding a tape, the position displacement with respect to the tape can be prevented. Moreover, since the protrusion protruding from the outer surface of the connector housing is eliminated as much as possible, an increase in outermost shape and an increase in weight of the connector can be avoided, and further, breakage during handling can be prevented.
According to the wire harness having a configuration described in the above (3), the joint connector used for short-circuiting the branch lines from the wire harness body can be fixed to the outer peripheral surface of the wire harness body by winding a tape, and the position displacement therebetween can be prevented. Further, since the protrusion protruding from the outer surface of the connector housing is eliminated as much as possible, an increase in outermost shape and an increase in weight of the connector can be avoided, and further, breakage during handling can be prevented.
According to the present invention, the position displacement with respect to the wound tape can be regulated while eliminating the protrusion protruding from the external surface of the connector housing as much as possible, therefore, an increase in outermost shape (outer dimension) and an increase in weight can be avoided, and moreover, the breakage caused by catching during handling can be avoided.
The present invention has been briefly described above. Further, details of the present invention will be clarified by reading a mode (hereinafter, referred to as “embodiment”) for carrying out the invention to be described below with reference to accompanying drawings.
A specific embodiment of the present invention will be described below with reference to the drawings.
A connector according to the present embodiment is a joint connector in which joint terminals that contact a plurality of mating terminals to short-circuit the mating terminals are accommodated inside a connector housing. In a use state, the joint connector is fixed to a wire harness by winding a tape.
As shown in
As shown in
As shown in
The partition wall 13 is provided as a separation wall perpendicular to the axial direction. The front space 14A located on a front side of the partition wall 13 is configured as a fitting hole (hereinafter also referred to as “mating connector fitting hole 14A”) into which the mating connector CN is to be fitted. Further, the rear space 14B located on a rear side of the partition wall 13 is configured as a fitting hole (hereinafter also referred to as “joint terminal unit fitting hole 14B”) into which the terminal holder 21 of the joint terminal unit 20 is to be fitted.
When the terminal holder 21 of the joint terminal unit 20 is fitted into the rear space 14B, the pin-shaped electrical contact portions 31 of the joint terminal 30 protrude into the front space 14A passing through holes 18a provided in the partition wall 13. Further, when the mating connector CN is fitted into the front space 14A from the front, terminals (also referred to as mating terminals or wire-side terminals) of the mating connector CN is brought into contact with the electrical contact portions 31 of the joint terminals 30. As shown in the exploded view of
As shown in
As shown in
When the connector 1 is used, as shown in
First, the outermost surface of the outer peripheral wall 11 is provided with a plurality of planar outer surfaces (an upper surface 11a, left and right surfaces 11b, and a lower surface 11c) which are planar surfaces along the axial direction and have such a relationship that peripherally adjacent planar outer surfaces intersect each other. The outermost surface of the outer peripheral wall 11 is provided with ridge line portions 11r along the axial directions in which the peripherally adjacent planar outer surfaces (the upper surface 11a, the left and right surfaces 11b, and the lower surface 11c) intersect each other. Further, the ridge line portion 11r is provided with a corner-removed chamfered portion 11s which has a smaller peripheral width than the planar outer surfaces (the upper surface 11a, the left and right surfaces 11b, and the lower surface 11c) on both sides thereof, and a non-chamfered portion 11t which is located at a rear end of the chamfered portion 11s in a ridge line direction. The non-chamfered portion 11t is a portion where a corner is left without being chamfered. In
The non-chamfered portion 11t protrudes outward from a surface of the chamfered portion 11s and is on an inner side of or on extending surfaces of the planar outer surfaces (the upper surface 11a, the left and right surface 11b, and the lower surface 11c) on both sides of the chamfered portion 11s (on the extending surface in this example). As shown in
Locking arms 15 are respectively provided on the left and right walls (the left and right walls on which the left and right surfaces 11b are formed) among the peripheral wall (the outer peripheral wall 11 of the connector housing 10) of the rear space (joint terminal unit fitting hole) 14B of the connector housing 10 into which the terminal holder 21 of the joint terminal unit 20 is to be fitted. The locking arms 15 of the left and right walls lock the terminal holder 21 of the joint terminal unit 20 fitted in the joint terminal unit fitting hole 14B. Guide grooves 16 are provided above and below each locking arm 15. The guide groove 16 is a groove for guiding the guide rib 29a of the terminal holder 21 when the joint terminal unit 20 is fitted into the connector housing 10.
The pair of parallel guide grooves 16 are formed from a rear end edge 11x of the outer peripheral wall 11 of the connector housing 10 toward the front, and thus the locking arm 15 has a front end connected to the outer peripheral wall 11, extends rearward in a cantilever manner, and is flexibly deformable outward. A locking beak 15a having a trapezoidal cross section, for example, is formed on an inner surface on a free end (rear end) side of the locking arm 15. Then, when the terminal holder 21 is fitted into the joint terminal unit fitting hole 14B from behind, corresponding to a process of the fitting operation, the locking arm 15 is flexibly deformed outward due to interference with the terminal holder 21, and is resumed from the flexible deformation at a stage where the locking beak 15a rides over the locking portion 29 of the terminal holder 21, and the locking beak 15a is kept in a position behind the locking portion 29. Therefore, the locking beaks 15a are engaged with the locking portions 29, and the locking arms 15 lock the terminal holder 21.
When being engaged with the locking portion 29 of the terminal holder 21, the locking beak 15a of the locking arm 15 is positioned behind the locking portion 29, so that the terminal holder 21 is position-regulated so as not move rearward. Moreover, in this state, the terminal holder 21 is position-regulated in a forward direction by, for example, abutting against the partition wall 13 inside the connector housing 10. Therefore, the terminal holder 21 is position-regulated so as not to move forward or rearward.
In this state, for example, when the joint connector 1 falls from the rear end to a floor surface and a large external force is applied to a rear end edge of the locking arm 15 or the rear end edge 11x of the connector housing 10, a strong impact force acts on locking portions between the locking beak 15a and the locking portion 29, and this locking portion may be damaged.
Therefore, in the joint connector 1, as a countermeasure, first, as shown in
When the joint connector 1 is to be assembled, first, the joint terminals 30 and the ferrites 38 are assembled to the terminal holder 21 to form the joint terminal unit 20. Next, the joint terminal unit 20 is fitted into the joint terminal unit fitting hole 14B from a rear side of the connector housing 10. Then, for example, a front end of the terminal holder 21 is abutted on a rear end of the partition wall 13 of the connector housing 10, and the joint terminal unit 20 is position-regulated in the forward direction. At the same time, the locking arms 15 are engaged with and locked in the locking portions 29 of the terminal holder 21, and assembly of the joint connector 1 is completed. At this time, the guide ribs 29a of the terminal holder 21 are guided in the guide grooves 16 on the connector housing 10 side. In this state, the pin-shaped electrical contact portions 31 of the joint terminals 30 pass through the partition wall 13 of the connector housing 10 and protrude into the front space 14A. Further, as described above, the four projection portions 26a provided on the rear wall 23 of the terminal holder 21 protrude rearward from the rear end edge 11x of the connector housing 10 (with reference to
Therefore, in a case where the joint connector 1 is handled independently, when the joint connector 1 is dropped from the rear end side to the floor surface, a collision force first acts on the terminal holder 21 but not on the connector housing 10. Therefore, the collision force is transmitted to the connector housing 10 via abutting portions at a front end of the terminal holder 21, it is possible to prevent a strong impact from acting on the engagement portions between the locking arm 15 and the locking portion 29, and the breakage can be prevented.
Next, a case where the joint connector 1 is used will be described.
As shown in
According to the joint connector 1, in a state in which the joint connector 1 is fixed by winding a tape, the position displacement of the joint connector 1 with respect to the tape T and the wire harness body W1 can be prevented by the position displacement regulation projections 11t provided on the outer peripheral wall 11 of the connector housing 10. That is, in the use state, an external force may act on the joint connector 1 in a direction indicated by an arrow F in
In particular, in the joint connector 1, the ridge line portion 11r along the axial direction in which the outer surfaces (the upper surface 11a, the left and right surfaces 11b, and the lower surface 11c) of the connector housing 10 intersect is provided with the corner-removed chamfered portion 11s and the non-chamfered portion 11t which is left without being chamfered. Further, the non-chamfered portion 11t located at the rear end of the chamfered portion 11s in the ridge line direction is defined as the position displacement regulation projection of the connector housing 10 with respect to the wound tape T. The position displacement regulation projection 11t is implemented by the non-chamfered portion and protrudes outward from the surface of the chamfered portion 11s. Therefore, the position displacement of the connector housing 10 with respect to the tape T wound at the position of the chamfered portion 11s can be prevented. The position displacement regulation projection 11t implemented by the non-chamfered portion is on the inner side of or on the extending surfaces of the planar outer surfaces (the upper surface 11a, the left and right surfaces 11b, and the lower surface 11c) on both sides of the chamfered portion 11s. That is, the position displacement regulation projection 11t does not protrude outside the planar outer surfaces (the upper surface 11a, the left and right surfaces 11b, and the lower surface 11c) at least. Therefore, the protrusion protruding from an external surface of the connector housing 10 can be eliminated as much as possible, thus, an increase in outermost shape of the joint connector 1 and an increase in weight can be avoided, and moreover, damage caused catching during handling can be prevented.
In the case of
As described above, since at least two position displacement regulation projections 11t are caught on the wound tape T in either case, the position displacement of the joint connector 1 can be effectively prevented.
Here, features of the connector and the wire harness according to the embodiment of the present invention described above will be briefly summarized in the following [1] to [3].
[1] A connector which is held on an outer peripheral surface of a wire harness (W1) in a posture that an axial direction of the connector is directed in an extending direction of the wire harness (W1), and which is fixed to the wire harness (W1) in this state by winding a tape, includes a connector housing (10),
the connector housing (10) includes an outer peripheral wall (11) on which a tape is to be peripherally wound, and an outermost surface of the outer peripheral wall (11) of the connector housing (10) is provided with: a plurality of planar outer surfaces (11a, 11b, 11c) which are respectively planar surfaces along the axial direction and have such a relationship that peripherally adjacent planar outer surfaces intersect each other; and ridge line portions (11r) along the axial direction in which the peripherally adjacent planar outer surfaces intersect each other,
the ridge line portion (11r) is provided with a corner-removed chamfered portion (11s) which has a smaller peripheral width than the planar outer surfaces (11a, 11b, 11c) on both sides thereof, and a non-chamfered portion (11t) which is located at a rear end portion of the chamfered portion (11s) in a ridge line direction, and
the non-chamfered portion (11t) protrudes outward from a surface of the chamfered portion (11s), is on an inner side of or on extending surfaces of the planar outer surfaces (11a, 11b, 11c) on both sides of the chamfered portion (11s), and is engaged with a side edge of a tape (T) wound around the outer surfaces (11a, 11b, 11c) so as to be used as a position displacement regulation projection (11t) configured to regulate an axial position displacement of the connector housing (10) with respect to the tape (T).
[2] The connector (1) described in the above [1] is a joint connector (1) in which a joint terminal (30) configured to contact a plurality of mating terminals so as to short-circuit the mating terminals is accommodated inside the connector housing (10).
[3] A wire harness includes: a wire harness body (W1) formed of a plurality of electric wires; and a joint connector (1) configured to electrically short-circuit wire-side terminals which are a plurality of mating terminals respectively provided at ends of a plurality of electric wires (W2) included in the wire harness body (W1),
the joint connector (1) is the connector described in the above [2], and
the connector housing (10) of the joint connector (1) is held on an outer peripheral surface of the wire harness body (W1) in a posture that an axial direction of the joint connector (1) is directed in an extending direction of the wire harness body (W1), and is fixed to the wire harness body (W1) by winding the tape (T) at a position of the chamfered portion (11s) on the outer peripheral wall (11) of the connector housing (10).
Number | Date | Country | Kind |
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2019-097970 | May 2019 | JP | national |