This application is based on and claims priority from Japanese Patent Applications No. 2017-109220 filed on Jun. 1, 2017, the entire contents of which are incorporated herein by reference.
The invention relates to a connector housing.
JP-A-2009-170289 discloses a connector housing fixed to an outer peripheral surface of an electric wire bundle. So as to fix the connector housing to the electric wire bundle, a tape is collectively wound around the outer peripheral surface of the electric wire bundle and an outer peripheral surface of the connector housing.
In the connector housing of JP-A-2009-170289, on a side wall of the connector housing in an opposite side of a side wall at which the connecting housing is in contact with the electric wire bundle, ribs project outward are provided. The tape is wound along the ribs. This configuration would suppress displacement of the tape.
For facilitation of the tape winding, a pair of ribs may be provided on the side wall in the opposite side of the side wall at which the connector housing is contacted with the electric wire bundle, and the tape may be wound between the pair of ribs. The connector housing of JP-A-2009-170289 may be modified by adding another rib at a position where it faces a previously formed rib.
However, when the above connector housing is resin molded using a mold set, the molding process thereof tends to be complicated. When the connector housing is molded using the mold set, a separating direction of two molds is set in a longitudinal direction of an electric wire side terminal. However, in order to form a space which is sandwiched between the two ribs, it is necessary to use a slide core which slides in a direction orthogonal to the separating direction.
Therefore, the molding process of the connector housing tends to be complicated since the slide core is required.
Embodiments relates to a connector housing which is to be attached on an outer peripheral surface of a cylindrical member and is wound with tape together with the cylindrical member, and in which its molding process would be simplified.
In accordance with one or more embodiments, in a connector housing having a cylindrical shape, the connector housing includes a first side wall in an outer peripheral of the connector housing and a second side wall in the outer peripheral of the connector housing. The first side wall is to be pressed against a cylindrical member extending in a first direction. The second side wall is opposed to the first side wall in a second direction perpendicular to the first direction. The second side wall is formed with a front-side rib at one end of the second side wall in the first direction and a rear-side rib at the other end of the second side wall in the first direction. The front-side rib protrudes from the second side wall in the second direction and extends in a third direction which is perpendicular to both the first direction and the second direction. The rear-side rib projects from the second side wall in the second direction and extends in the third direction. The front-side rib and the second side rib do not face to each other in the first direction.
In accordance with one or more embodiments, in a connector housing having a cylindrical shape, the connector housing includes a first side wall in an outer peripheral of the connector housing and a second side wall in the outer peripheral of the connector housing. The first side wall is to be pressed against a cylindrical member extending in a first direction. The second side wall is opposed to the first side wall in a second direction perpendicular to the first direction. The second side wall is formed with a rib. The rib protrudes from the second side wall in the second direction and extend in a third direction which is perpendicular to both the first direction and the second direction. The rib is formed at only one end of the second side wall in the first direction.
Other aspects and advantages of the invention will be apparent from the following description and the appended claims.
Connector housings according to exemplary embodiments are described with reference to drawings.
Firstly, referring to
A resin-made connector housing 10 is a housing of a joint connector to be engaged with a housing (not shown) of a mating connector and, in use, it is fixed to an outer peripheral surface of a cylindrical member such as a corrugated tube or a corrugated pipe. The joint connector includes a joint terminal to be connected in common to multiple terminals stored in the housing of the mating connector with which the joint connector is engaged, and has a function to short-circuit the multiple terminals of the mating connector with which the joint connector is engaged. Here, in a certain type of joint connector, a terminal mounted on the tip of an electric wire is inserted directly into the joint connector not through the above-mentioned mating connector. This invention would be applied to this type of joint connector. Further, this invention would also be applied not only to a joint connector but also to an ordinary connector used to connect together electric wires.
Hereinafter, for convenience of explanation, an x axis direction (a front-rear direction), a y axis direction (a left-right direction), a z axis direction (a vertical direction), and front, rear, left, right, upper and lower directions are defined as shown in
As shown in
The side wall 20 includes an upper wall 40, a lower wall 50, a left wall 60 and a right wall 70. As shown in
The lower wall 50 includes on its outer peripheral surface (outer surface) a concave surface 51 which is concaved in an arc shape and extends in the front-rear direction over the whole area in the front-rear direction of the lower wall 50. In this embodiment, the concave surface 51 is configured of an arc portion having a single radius of curvature. As described later, the concave surface 51 provides a surface to make contact with the outer peripheral surface of the corrugated tube C in order to fix the connector housing 10 to the corrugated tube C (see
The left wall 60 has on its outer peripheral surface (outer surface) a pair of male-side through locks 61 extending in the front-rear direction, while the right wall 70 has on its outer peripheral surface (outer surface) a pair of female-side through locks 71 extending in the front-rear direction. The paired male-side through locks 61 and female-side through locks 71 are engaged with each other.
Therefore, in a state where the paired male-side through locks 61 of one connector housing 10 and the paired female-side through locks 71 of the other connector housing 10 are arranged so as to face each other, when the paired male-side through locks 61 are engaged with the paired female-side through locks 71, the two connector housings 10 are connected and fixed to each other.
In a state where the two connector housings 10 are connected and fixed together, a lock beak 62 (see
The rear wall 30, as shown in
As shown in
As shown in
Thus, the connector housing 10 are maintain a proper posture with respect to the corrugated tube C, that is, a posture in which the connector housing 10 has no bias with respect to the axis of the corrugated tube C. Also, even when the extending direction of the corrugated tube C is somehow shifted from the front-rear direction of the connector housing 10 locally or wholly before the connector housing 10 is pressed, there would be obtained a state where such portion of the corrugated tube C as is pressed against the concave surface 51 extends straight in the front-rear direction of the connector housing 10.
Next, while maintaining the pressing of the corrugated tube C by the concave surface 51, as shown in
Consequently, in a proper posture where the front-rear direction of the connector housing 10 coincides with the extending direction of the corrugated tube C, the connector housing 10 would be easily fixed to the outer peripheral surface of the corrugated tube C. Also, in winding, the tape T would be easily wound with the paired ribs 41 as a reference. Further, as shown in
As described above, according to the connector housing 10 of the first embodiment, the concave surface 51 is formed in the outer peripheral surface of the lower wall 50. Thus, even when the connector housing 10 is arranged on the outer peripheral surface of the corrugated tube C, by pressing the connector housing 10 against the corrugated tube C while making one direction of the concave surface 51 extend along the extending direction of the corrugated tube C, the connector housing 10 would maintain a proper posture with respect to the corrugated tube C. Also, by pressing the concave surface 51 against the corrugated tube C, it is easily possible to obtain a state where such portion of the corrugated tube C as is pressed against the concave surface 51 extends straight in the front-rear direction of the connector housing 10. In this state, by winding the tape T so as to collectively cover the outer peripheral surface of the corrugated tube C and the outer peripheral surface of the side wall 20 of the connector housing 10, the connector housing 10 would be easily fixed to the outer peripheral surface of the corrugated tube C in a proper posture where the front-rear direction of the connector housing 10 coincides with the extending direction of the corrugated tube C.
Also, the paired ribs 41 are formed on the upper wall 40. Therefore, in winding, the tape T would be wound easily with the paired ribs 41 as a reference and displacement of the tape T in the width direction (in the front-rear direction of the connector housing 10) would be suppressed.
Next, description is given below of a connector housing 11 according to a second embodiment with reference to
Particularly, as can be understood from
Thus, even when the connector housing 11 must be fixed to two kinds of corrugated tubes C having different outside diameters respectively, the connector housing 11 would be fixed in a proper posture with respect to these two kinds of corrugated tubes C. Specifically, when the connector housing 11 is fixed to a corrugated tube C having a relatively small outside diameter equivalent to the radius of curvature of the arc portion 52, the outer peripheral surface of the corrugated tube C comes into contact with the arc portion 52 of the concave surface 51. On the other hand, when the connector housing 11 is fixed to a corrugated tube C having a relatively large outside diameter equivalent to the radius of curvature of the arc portion 53, the outer peripheral surface of the corrugated tube C comes into contact with the paired left and right arc portions 53 of the concave surface 51.
Also, as can be understood from
As shown in
Therefore, as shown in
As shown in
As shown in
As shown in
When assembling the connected connector housing 12 shown in
As shown in
In this state, as shown in
As described above, according to the connector housing 11 of the second embodiment, the concave surface 51 of the lower wall 50 is configured such that it includes the arc portion 52 and arc portions 53 having different radii of curvature. Thus, even when the connector housings 11 must be fixed to the respective multiple kinds of corrugated tubes C having different outside diameters, the connector housings 11 would maintain a proper posture with respect to the respective corrugated tubes C.
Further, in the respective four corner portions of the concave surface 51 of the lower wall 50, there are formed the notches 54 that are formed by cutting out the front-rear direction two ends of the arc portions 53. Thus, when the multiple connector housing 11 are assembled and arranged in a line in the same direction in such a manner that the ribs 41 of one of the adjoining connector housings 11 are allowed to advance into the notches 54 of the concave surface 51 of the other connector housing 11, the assembly height (in
Next, description is given of a connector housing 13 according to a third embodiment with reference to
The engagement projection 55, as shown in
Next, referring to
In the connector housing 13, the engagement projection 55 is formed in the substantially central portion of the concave surface 51 in the front-rear direction (x direction), whereas, in the connector housing 14, as shown in
As can be understood from the connector housings 13 and 14, the engagement projections 55 and 56 would provide the below-mentioned operation and effect peculiar to the third embodiment regardless of the front-rear direction (x direction) positions where they are formed in the concave surface 51.
According to the connector housings 13 and 14 of the third embodiment, the engagement projections 55 and 56 are formed in the concave surface 51. Thus, when the connector housings 13 and 14 are arranged on the outer peripheral surface of the corrugated tube C, the engagement projections 55 and 56 are engaged with the valley of the corrugated tube C formed in a flexible tube shape. This enables the connector housings 13 and 14 to be caught in the corrugated tube C. Accordingly, when winding the tape T so as to collectively cover the outer peripheral surface of the corrugated tube C and the outer peripheral surfaces of the side walls 20 of the connector housings 13 and 14, the connector housings 13 and 14 would be prevented from slipping on the outer surface of the corrugated tube C. As a result, an operator would stably wind the tape on the connector housings 13 and 14 fixed to the outer surface of the corrugated tube C.
Also, the engagement projections 55 and 56 are formed as ribs which are provided along the peripheral direction of the arc-like recessed concave surface 51. This structure enables the engagement projections 55 and 56 to secure a sufficient engagement margin with respect to the valley formed along the peripheral direction of the corrugated tube C. This enables more suppression of slipping of the connector housings 13 and 14 on the outer surface of the corrugated tube C.
Here, in the third embodiment, description has been given of an example in which the engagement projection 55 is formed as the rib. However, the engagement projection may have other shape than the rib-like shape. For example, even when it is a conical or cylindrical projection projecting in one location, the engagement projections 55 and 56 would be engaged with the valley of a flexible-tube-like shaped corrugated tube C. In this manner, the shape of the engagement projection would be changed properly according to the degree of engagement to be secured with respect to the valley formed along the peripheral direction of the corrugated tube C.
In the above description, the projection height of the engagement projection from the concave surface 51 is set to be approximately equal to the distance between a mountain and a valley of the outer surface of the corrugated tube C. However, the projection height of the engagement projection may be shorter or longer than the distance between a mountain and a valley of the outer surface of the corrugated tube C. When the projection height of the engagement projection is reduced, the engagement margin to be secured with respect to the valley formed along the peripheral direction of the corrugated tube C becomes shallower; meanwhile, when the projection height of the engagement projection is increased, the engagement margin becomes deeper. In this manner, the engagement force required for the engagement projection would be adjusted according to the size of the projection height of the engagement projection. Here, when the projection height of the engagement projection is set longer than the distance between the mountain and valley of the outer surface of the corrugated tube C, the tip of the engagement projection comes into contact with the corrugated tube C. Even in this case, when some deformation is permitted on the outer surface of the corrugated tube C, such contact provides no obstacle to stable tape winding. Rather, biting of the engagement projection into the outer surface of the corrugated tube C would suppress slipping of the connector housings 13 and 14 on the outer surface of the corrugated tube C. This enables stable tape winding with respect to the connector housings 13 and 14 fixed more firmly to the outer surface of the corrugated tube C.
Here, the structure described in the third embodiment would be applied to the connector housing according to the first or second embodiment. Particularly, the above-mentioned engagement projection would be applied to the concave surface 51 which has been described in the second embodiment and includes the arc portions 52 and 53 having different radii of curvature. In this case, the engagement projections are provided respectively in the arc portions 52 and 53.
Next, referring to
In the connector housings according to the first to third embodiments, on the outer peripheral surfaces (outer surfaces) of the front-rear direction two ends of the upper wall 40, there are provided the paired parallel ribs 41 so as to face each other. In the connector housing 15 according to the fourth embodiment, the two ribs 42 are formed on the outer peripheral surfaces (outer surfaces) of the front-rear direction two ends of the upper wall 40 in common with the other embodiments, but they are not formed so as to face each other. That is, a front-side rib 43 situated on the front-side end of the upper wall 40 is formed in the left-right direction central portion of the front-side end, while the rear-side end of the upper wall 40 situated rearward of the front-side rib 43 is cut out. Meanwhile, rear-side ribs 44 situated in the rear-side end of the upper wall 40 are formed on the left-right direction two sides of the rear-side end, while such portion of the front-side end of the upper wall 40 as is situated forward of the rear-side rib 44 is cut out. Thus, in the ribs 42, the front-side rib 43 and rear-side rib 44 are alternately arranged in the front-rear two ends of the upper wall 40 so that they do not face each other.
Next, referring to
In a connector housing 15B according to the first modification of the fourth embodiment, as shown in
Also, in the connector housing 15C according to a second modification of the fourth embodiment, as shown in
Also, in the connector housing 15D according to a third modification of the fourth embodiment, as shown in
Also, in a connector housing 15E according to a fourth modification of the fourth embodiment, as shown in
Also, in the connector housing 15F according to a fifth modification of the fourth embodiment, as shown in
Also, in the connector housing 15G according to a sixth modification of the fourth embodiment, as shown in
When the connector housing of one or more embodiments is manufactured by resin molding using a mold, two molds for forming the internal space S of the connector housing are arranged respectively in the front-rear direction of the connector housing. In this case, as described above, the ribs 42, 42B, 42C, 42D, 42E, 42F and 42G are formed so as not to face each other in the front-rear two ends of the upper wall 40 (see
Even in the case that the ribs 42, 42B, 42C, 42D, 42E, 42F and 42G are formed in the above-mentioned manner, when winding the tape T on the connector housing 15, the tape T would be easily wound in such a manner that it is situated between the paired ribs 42, 42B, 42C, 42D and 42E, or with one of the paired ribs 42F and 42G as a reference. Also, one or more embodiments would suppress displacement of the tape T in its width direction (in the front-rear direction of the connector housing 15).
Here, only in order to attain an object to remove the mold without using the slide core, there may be employed an idea that no ribs are formed in the front-rear two ends of the upper wall 40.
Also, the fourth embodiment is characterized by the shapes of the ribs 42, 42B, 42C, 42D, 42E, 42F and 42G. However, the shapes of other members than the ribs 42, 42B, 42C, 42D, 42E, 42F and 42G are not limited to the shapes that have been described in the first to fourth embodiments. According to one or more embodiments, in the front-rear direction two ends of the upper wall 40, the front-side rib 43 and rear-side rib 44 are arranged alternately so as not to face each other.
Here the invention is not limited to the above exemplary embodiments but various modifications may be employed. For example, the invention is not limited to the above exemplary embodiments but may be appropriately modified, improved or the like. Further, the materials, shapes, dimensions, number, arrangement locations and the like of the composing elements of the above-mentioned respective embodiments are arbitrary but not limitative so long as they can attain the object.
Also, in the second embodiment, the concave surface 51 of the lower wall 50 is configured such that it includes two kinds of arc portions having different radii of curvature. However, the concave surface 51 may also be configured to include three or more kinds of arc portions having different radii of curvature.
Also, in the second embodiment, the notch 54 is formed in the concave surface 51 of the lower wall 50 by cutting out a part of the arc portion of the concave surface 51. However, such notch may not be formed.
In accordance with exemplary embodiments as shown in the figures, a connector housing (15, 15B, 15C, 15D, 15E) has a cylindrical shape. The connector housing includes a first side wall (50) in an outer peripheral (20) of the connector housing, and a second side wall (40) in the outer peripheral (20) of the connector housing. The first side wall (50) is to be pressed against a cylindrical member (C) extending in a first direction (X). The second side wall (40) is opposed to the first side wall (50) in a second direction (Z) perpendicular to the first direction (X). The second side wall (40) is formed with a front-side rib (43, 43B, 43C, 43D, 43E) at one end of the second side wall (40) in the first direction (X) and a rear-side rib (44, 44B, 44C, 44D, 44E) at the other end of the second side wall (40) in the first direction (X). The front-side rib (43, 43B, 43C, 43D, 43E) protrudes from the second side wall (40) in the second direction (Z) and extends in a third direction (Y) which is perpendicular to both the first direction (X) and the second direction (Z). The rear-side rib (44, 44B, 44C, 44D, 44E) projects from the second side wall (40) in the second direction (Z) and extends in the third direction (Y). The front-side rib (43, 43B, 43C, 43D, 43E) and the second side rib (44, 44B, 44C, 44D, 44E) do not face to each other in the first direction (X).
According to the structure, since it is not necessary to remove the molds using the slide core, the molding process thereof would be simplified.
In accordance with exemplary embodiments as shown in Figures, a connector housing (15F, 15G) has a cylindrical shape. The connector housing has a first side wall (50) in an outer peripheral (20) of the connector housing, and a second side wall (40) in the outer peripheral (20) of the connector housing. The first side wall (50) is to be pressed against a cylindrical member (C) extending in a first direction (X). The second side wall (40) is opposed to the first side wall (50) in a second direction (Z) perpendicular to the first direction (X). The second side wall (40) is formed with a rib (42F, 42G). The rib (42F, 42G) protrudes from the second side wall (40) in the second direction (Z) and extends in a third direction (Y) which is perpendicular to both the first direction (X) and the second direction (Z). The rib (42F, 42G) is formed at only one end of the second side wall (40) in the first direction (X).
According to the structure, since it is not necessary to remove the molds using the slide core, the molding process thereof would be simplified.
According to exemplary embodiments, in a connector housing which is arranged on the outer peripheral surface of a cylindrical member and is wound with tape together with the cylindrical member, its molding process would be simplified even when manufactured using a mold.
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2017-109220 | Jun 2017 | JP | national |
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Entry |
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20180351302 A1 | Dec 2018 | US |