JP7274007B2 - CABLE RETAINING MEMBER AND CABLE CONNECTOR DEVICE HAVING CABLE RETAINING MEMBER - Google Patents

Description

The present invention relates to a cable holding member and a cable connector device having the cable holding member.

For example, a cable connector device, that is, a terminal unit, disclosed in Patent Document 1 includes a holding block made of an insulating material for holding a shielded wire, which is a cable, as a cable holding member, and an insulating block to which a terminal is attached. A block and a shield member covering the outside of the insulating block and the holding block. A shielded wire consists of an inner conductor and an insulating material covering it, like a general cable.

JP-A-11-224723 WO2018/016389

In the terminal unit of Patent Literature 1, similarly to the conventional cable holding member, the shielded wire, which is a cable, is arranged inside the holding block with its end face exposed.
However, when the end face of the cable is exposed in this way, there is a risk of dielectric breakdown occurring between the end face and the shield member covering the outside of the holding block. In recent years, withstanding voltage standards have become more and more stringent, and there is an urgent need to solve the problem of dielectric breakdown.

The present invention has been made to solve such problems in the prior art, and can effectively prevent dielectric breakdown even when a cable is held with its end face exposed. A cable retention device and a cable connector device having such a cable retention member are provided.

In order to solve the above problems, a cable holding member according to one aspect of the present invention includes a main body having a through hole through which a cable can be passed through the opening from one end side to the other end side, and a bent portion along the bent portion. a cover member provided to be bendable with respect to the main body, wherein the cover member covers the opening end surface of the opening located on the other end side or the vicinity thereof when the cover member is bent with respect to the main body; A cable connector device according to an aspect of the present invention has such a cable holding member, which is characterized in that it can be covered by a surface intersecting the insertion direction of the cable in the through hole.
According to the cable holding member and the cable connector device of this aspect, one end of the cable can be covered with the surface intersecting the insertion direction of the cable at or near the opening end surface of the opening of the through hole through which the cable is inserted. Therefore, even when the end face of the cable is exposed, it is possible to effectively prevent dielectric breakdown that may occur between the shield member attached later. As is clear from the above description and the following detailed description, the term "near" the "open end face" in this specification means that dielectric breakdown that may occur between one end of the cable and the shield member is prevented. Means close enough to be effectively prevented.

It is possible to provide a cable holding device that can effectively prevent dielectric breakdown even when a cable is held with its end face exposed, and a cable connector device having such a cable holding member. .

1 is a perspective view of a cable connector device according to one preferred embodiment of the present invention using a cable retaining member according to one preferred embodiment of the present invention; FIG. FIG. 2 is an exploded perspective view showing a state in which a case is removed from the cable connector device of FIG. 1; FIG. 3 is an exploded perspective view showing a state in which a shell is removed from the state in FIG. 2; FIG. 4 is an exploded perspective view showing a state in which a cable holding member is removed from the state shown in FIG. 3; It is the perspective view which looked at the state which attached the terminal support to the housing from the rear side. FIG. 4 is a front view showing a state in which the case is removed from the cable connector device; FIG. 7 is a cross-sectional view taken along line AA of FIG. 6; It is the perspective view which looked at the front side of the cable holding member from the upper side. It is the perspective view which looked at the front side of the cable holding member from the bottom side. It is the perspective view which looked at the rear side of the cable holding member from the upper side. It is the perspective view which looked at the rear side of the cable holding member from the bottom side. It is a figure which shows step by step how to attach a cable with respect to a cable holding member. It is a figure which shows step by step how to attach a cable with respect to a cable holding member. It is a figure which shows step by step how to attach a cable with respect to a cable holding member. FIG. 4 is a diagram showing step by step how to attach a cable to a cable holding member; FIG. 11 is a perspective view showing a modification of the cable holding member; 9 is a perspective view corresponding to FIG. 8 of a cable holding member according to another modified example; FIG. FIG. 18 is a perspective view showing a state in which the covering portion is rotated in the cable holding member of FIG. 17; FIG. 10 is a perspective view corresponding to FIG. 9 of a cable holding member according to another modification; FIG. 20 is a perspective view showing a state in which the covering portion is rotated in the cable holding member of FIG. 19; FIG. 11 is a perspective view corresponding to FIG. 10 of a cable holding member according to another modified example; FIG. 22 is a perspective view showing a state in which the covering portion is rotated in the cable holding member of FIG. 21; FIG. 11 is a front view of a cable holding member according to another modified example; FIG. 22 is a sectional view taken along line II of FIG. 21; FIG. 23 is a cross-sectional view taken along line II-II of FIG. 22; 26 is a cross-sectional view taken along line III-III of FIG. 25; FIG.

Exemplary embodiments for carrying out the present invention will now be described in detail with reference to the drawings. However, the dimensions, materials, shapes, relative positions of components, etc. described in the following embodiments are arbitrary and can be changed according to the configuration of the device to which the present invention is applied or various conditions. For example, this configuration can be suitably applied to the cable connector disclosed in International Publication No. 2018/016389 (Patent Document 2). It can also be applied to this configuration. Also, unless otherwise stated, the scope of the invention is not limited to the embodiments specifically described below.

FIG. 1 is a perspective view of a cable connector device 1 according to one preferred embodiment of the invention using a cable retaining member according to one preferred embodiment of the invention.

In this embodiment, the cable connector device 1 is formed as a plug connector. A mating connector device (not shown) mated with the cable connector device 1 is formed as a receptacle connector. The mating connector may be, for example, a board-type connector connected to a board, or may be a cable-type connector like the cable connector device 1 .

The cable connector device 1 can be mated with and removed from a mating connector device along the illustrated arrow "x" direction. The mating of the cable connector device 1 and the mating connector device can be locked using metal shells provided on each. When the cable connector device 1 and the mating connector device are mated, the tapered cylindrical shell 50 provided in the shielding shell 30 of the cable connector device 1 is inserted into the mating hole provided in the shell of the mating connector device. At this time, the locking protrusion 35 elastically protruding from the hole 53 provided in the tubular shell 50 fits into the through hole which is the locked portion provided in the shell of the mating connector. As a result, the mating of the cable connector device and the mating connector device is locked. The locked state can be released, for example, by pushing the button 13 exposed from the resin case 12 toward the inside of the cable connector device 1 along the "y" direction.

2 to 4 show exploded perspective views of the cable connector device 1. FIG. FIG. 2 shows the cable connector device 1 of FIG. 4 shows a state in which the shell 30 is further removed from the state of FIG. 2, and FIG. 4 shows a state in which the cable holding member 60 is further removed from the state of FIG.

The cable connector device 1 mainly includes insulating cases 12A and 12B forming the outermost shell of the cable connector device 1, a metallic conductive shell 30 whose outer peripheral surface is covered by these cases 12A and 12B, An insulating housing 20 whose outer peripheral surface is covered with a shell 30, an insulating cable holding member 60 holding each twisted pair cable 5 included in the electric cable 4, and a terminal 11 attached to the housing 20 are supported. It includes an insulative terminal support 70 for Although the twisted pair cable 5 is exemplified in this embodiment as an example of the electric cable 4, it is of course not intended to be limited to the twisted pair cable 5. FIG. Of course, the device 1 can be applied to various cables other than twisted cables.

As best shown in FIG. 3, the shell 30 includes a body shell 31, a plate-like shell 40 connected to each other, and a tubular shell 50. As shown in FIG. The body shell 31 is made by punching and bending a single metal plate. Similarly, the plate-like shell 40 and the cylindrical shell 50 are also made by punching and bending another metal plate. formed. The plate-like shell 40 and the main body shell 31 are combined with each other to mainly cover the side outer peripheral surface of the housing main body 29 . On the other hand, the tubular shell 50 has a substantially rectangular tubular shape as a whole, and mainly covers the outer peripheral surface of the side portion of the inserted portion 25 projecting from the housing body 29 . The body shell 31 includes a base portion 36, a crimped portion 36a extending rearward of the base portion 36 for the electric cable 4, and an elastic piece 33 extending forward of the base portion 36 and having a free end on the mating side with a mating connector device. . A locking protrusion 35 is provided at the tip of the elastic piece 33 to form a lock with a mating connector device. However, for the sake of convenience, the crimped portion 36a shown in FIG. 3 shows the state when the cable is crimped. in a state.

FIG. 5 shows a rear perspective view of the terminal support 70 attached to the housing 20, and FIG. 6 shows the housing 20 in the state shown in FIG. FIG. 7 shows a front view of the state in which 60B and the shell 30 are attached, in other words, the state in which the cases 12A and 12b are removed from the cable connector device shown in FIG. , respectively.

The housing 20 is manufactured by integrally molding resin, and includes a housing main body 29 and an inserted portion 25 projecting from the housing main body 29 toward a mating connector device (see FIG. 1). The housing body 29 is complemented by the terminal support 70 and the cable holding member 60 to form a substantially rectangular parallelepiped shape. The inserted portion 25 is a portion that is inserted into the mating hole of the mating connector device together with the cylindrical shell 50, and has a mating convex portion (not shown) provided in the mating hole of the mating connector device. A fitting recess 28 is formed into which a connector (not shown) is inserted.

The housing main body 29 includes a thick base portion 21 and two plate-like side walls 26 extending to the rear of the base portion 21 , that is, to the side opposite to the inserted portion 25 . A space 26f formed between the plate-like side walls 26 is provided with a pair of terminal support bodies 70A and 70B (hereinafter referred to as "A" or "B" only when it is necessary to distinguish between the two terminals. The same is true for the components of supports 70A, 70B.) are similarly installed together with paired cable retention members 60A, 60B. The terminal supports 70A, 70B have the same size and shape as each other in this embodiment. Similarly, the cable retaining members 60A, 60B also have the same size and shape as each other. Using the same size and shape facilitates parts management and simplifies the manufacturing process.

The terminal support 70 supports the terminals 11 in a cantilevered manner. The terminals 11 are integrated into the terminal support 70 by integral molding during manufacturing. However, the terminals 11 may be incorporated into the terminal support 70 later by using press fitting or the like. A part of the terminal 11 is exposed to the outside even after the assembly. For example, the front of the terminal 11, that is, the vicinity of the tip 11f of the terminal 11 extending toward the base 21 side of the housing 20, and the rear of the terminal 11, that is, the cable pressure contact portion 11b to which the twisted pair cable 5 is pressure contacted, and The peripheral wiring portion 11e remains exposed.

The terminal support 70 has a plate-like main body 77 . The upper surface 77a of the main body 77 has an upright portion 75, the left and right side surfaces of the main body 77 have locking projections 71a that protrude outward, and the rear edge of the main body 77 has a U-shape that is notched toward the inside in plan view. A shaped notch 76 is provided in each.

When attaching the terminal supports 70 to the housing 20, first, the pair of terminal supports 70A, 70B are butted against each other at their flat bottom surfaces in a predetermined direction. When the pair of terminal supports 70A and 70B are butted against each other, the terminals 11 supported by the terminal supports 70 are provided between their contact points 11d in an object to be contacted, for example, a mating hole of a mating connector device. A gap may be formed into which the mating projection is inserted. The tip 11f of the terminal 11 forming the contact 11d can be elastically displaced along the "z" direction in order to elastically contact an object to be contacted. The abutted pair of terminal supports 70 are then attached in situ to housing 20 along a direction parallel to their abutting surfaces. The terminal support 70 is guided to a predetermined position in the housing 20 by sliding the left and right side surfaces 71 of the terminal support 70 along the guide grooves 26c provided in the inner wall of the plate-like side wall 26. As shown in FIG. As a result, the lock protrusion 71a provided on the side surface 71 of the terminal support 70 fits into the lock hole 26b provided in the plate-like side wall 26 of the housing 20, and the terminal support 70 is locked to the housing 20. As shown in FIG.

The cable pressure contact portion 11b extends in the same direction "z" as the standing portion 75 on the upper surface 77a of the main body 77 of the terminal support 70. As shown in FIG. The cable pressure contact portions 11b of the plurality of terminals 11 are alternately arranged along the "y" direction. The tip portion 14 of the cable pressure contact portion 11b is bifurcated to form a groove, into which each of the cables 5 held by the cable holding member 60 is press-fitted. The outer coating 5b of the cable 5 press-fitted into the groove is cut here, and as a result, the inner conductor 5a (see FIG. 12, etc.) such as a core wire is sandwiched in the groove, and the cable 5 and the terminal 11 are electrically connected. Each of the cable pressure contact portions 11b is physically and electrically connected to the wiring portion 11e.

8 to 11 are perspective views showing the state of the cable holding member 60 before the cable is attached, such as at the time of shipment. 8 is a perspective view of the front side of the cable holding member 60 in such a state as seen from above, FIG. 9 is a perspective view of the cable holding member 60 as seen from the bottom side, and FIG. 10 is the cable holding member 60 in the same state. FIG. 11 is a perspective view of the rear side as seen from above, and FIG. 11 is a perspective view of this as seen from the bottom side.

The cable holding member 60 mainly includes a substantially rectangular parallelepiped main body 67 and a cantilever-like arm portion 61 . The cable holding member 60 is integrally molded from resin.

A plurality of through-holes 63 are provided in the interior of the body 67 along the front-to-rear direction “x” to allow the cable 5 to be retained. Each through-hole 63 is provided with an opening 63b on one end (n) and an opening 63a on the other end (m). The cable 5 can be inserted along the . 8 and 9, these through-holes 63 have a semi-circular or quarter-circular cross section near the opening 63a on the other end side (m), in other words, The other end (m) of the through-hole 63 consists only of the bottom side, that is, the cable mounting portion 63c on which the cable 5 is mounted, and the upper side is open. This open portion can be covered with a portion (second portion 65d) of the covering portion 65, which will be described later. In other words, the upper portion of the through-hole 63 can be completely closed. The inner diameter of the through-hole 63 is set to be substantially the same as or slightly smaller than the outer diameter of the cable 5 . 5 can be prevented from being carelessly omitted. In this embodiment, a plurality of through-holes 63 are provided, but the number of through-holes 63 does not necessarily have to be plural, and only one may be provided.

The covering portion 65 is a plate-like body forming a part of the main body 67, and is provided in a state that it can be bent with respect to the main body 67 along the bent portion 65e. To enable and/or facilitate folding, the thickness of fold 65e is reduced relative to its perimeter, for example, by utilizing step 650, as shown in this embodiment. May be set. The stepped portion 650 includes a relatively thick first stepped portion 651 positioned on the other end side (m) and a relatively thin second stepped portion 652 positioned on the one end side (n).
Although it has such a stepped portion 650, in any cross section of the covering portion 65 perpendicular to the direction along the bent portion 65e, that is, in the width direction "y", in other words, in any "xz plane" , and the covering portion 65 are substantially L-shaped in side view as a whole. For example, the plate-shaped first portion 65c, which forms part of the L-shape, is wider in the width direction "y" than the plate-shaped second portion 65d, for example, which forms another part of the L-shape. is set short in The first portion 65c is partially connected along this width direction "y" with the second portion 65d, while the second portion 65d is attached to the main body 67 at the bend 65e. It is connected to the upper surface 67a of the main body 67 in a bendable state. At the time of shipment or the like, the covering portion 65, particularly the second portion 65d thereof, is raised at an angle of approximately 90 degrees with respect to the upper surface 67a of the main body 67 at the bent portion 65e.
After that, when the covering portion 65, particularly the second portion 65d thereof, is bent at or near the bent portion 65e in the "θ" The vicinity thereof is covered with a plane (yz plane) that intersects the cable insertion direction "x1", and the second portion 65d is located on the one end side ( n) of the through-hole 63, the upper open portion of the cable mounting portion 63c is defined by the plane “xy plane” formed by the cable insertion direction “x1” and the direction “y” along the bent portion 65e. cover. Both the first portion 65c and the second portion 65d are closed and are not provided with holes or the like. Therefore, the opening end face 67j is substantially completely covered with the first portion 65c and the second portion 65d with respect to the “yz plane” and the upper opening portion with respect to the “xy plane”. will be

In order to maintain the folded state of the covering portion 65, it is preferable to provide locking means between the main body 67 and the covering portion 65. As shown in FIG. In the present embodiment, as locking means, the main body 67 has a concave portion 67g as a concave locking portion, and the cover portion 65 has a convex portion 65a as a convex locked portion that is locked to the locking portion. are provided respectively. The convex portion 65a protrudes in a direction corresponding to the bending direction “θ” of the covering portion 65 with respect to the main body 67, while the concave portion 67g is depressed in a direction corresponding to the bending direction “θ” of the covering portion 65. As shown in FIG. In order to secure the engagement more reliably, here, two sets of the convex portion 65a and the concave portion 67g are provided, and each of these sets is located at a position other than the position where the through hole 63 is provided on the opening end face 67j. In this embodiment, it is arranged outside the through-holes 63 in the arrangement direction “y” of the plurality of through-holes 63 . Further, in order to secure the locking more securely, a bulging portion 65b is provided at the tip of the convex portion 65a, and a corresponding bulging portion 67h is provided at the back of the concave portion 67g. Since the protrusions 65b and 67h are provided, the protrusion 65a is press-fitted into the recess 67g when the protrusion 65a and the recess 67g are engaged with each other. It is sufficient for the locking means to maintain the bent state of the covering portion 65 with respect to the main body 67. Therefore, contrary to the embodiment, the concave portion may be provided on the covering portion 65 and the convex portion may be provided on the main body 67. Locking means other than projections and recesses, such as adhesive, may be used. In addition, it is sufficient that the convex portion and the concave portion are arranged at a position other than the position where the through hole 63 is provided, and they do not necessarily need to be arranged outside the through hole 63 in the arrangement direction "y", which will be described later. As shown in a modified example (FIG. 16), it may be arranged centrally in the arrangement direction "y".

A bottom surface 67b of the main body 67 is provided with an insertion hole 64 into which the cable pressure contact portion 11b (see FIG. 5) of the terminal 11 is inserted. The insertion hole 64 communicates with a through hole 63 through which the twisted pair cable 5 is inserted. The cable can be cut by the cable pressure contact portion 11b inserted through the cable.
A bottom surface 67 b of the main body 67 is also provided with a projection 66 that fits into a notch 76 (see FIG. 5) provided in the terminal support 70 when the cable holding member 60 is attached to the housing 20 . The protrusion 66 is erected along the mounting direction of the cable holding member 60 with respect to the housing 20, ie, the bottom surface 67b, along the direction "Z".

Side surfaces 67c and 67d of the main body 67 are engaged with engagement holes 26a (see FIGS. 4 and 5) provided in the plate-like side wall 26 of the housing 20 on one end side (n) in the front-rear direction "x", respectively. A locking protrusion 62 is provided. When the cable holding member 60 is attached to the housing 20, the cable holding member 60 can be locked to the housing 20 by engaging the locking projections 62 with the locking holes 26a.

On the other hand, on the other end side (m) of these side surfaces 67c and 67d in the front-rear direction "x", the one end side (n) or the other end of the through-hole 63 is located relative to the opening end face 67j of the opening 63a. Extensions (61, 67d1) extending along the cable insertion direction "x1" toward the side (m) are formed. In particular, the extension provided on the side surface 67 c is formed by a portion of the arm portion 61 . These extensions (61, 67d1) are opposed to each other so as to sandwich an opening end face 67j of the opening 63a, and end faces 61c, 67e of these extensions (61, 67d1) are designed to allow the cable to pass through the through hole 63. It is adjusted to lie in the plane “yz plane” intersecting the direction “x1”. By providing such end surfaces 61c and 67e, it becomes easy to cut the cable at a predetermined position. This point will be further described later.

The arm portion 61 forming an extension of the side surface 67c extends below the bottom surface 67b along the direction "Z" along the mounting direction of the cable holding member 60 to the housing 20, similarly to the protrusion 66. ing. A locking protrusion 61 a that can be locked to a portion of the main body 77 of the terminal support 70 is provided near the free end of the arm portion 61 . The arm portion 61 is a portion used for fixing the cable holding member 60 to the housing 20, similarly to the locking protrusion 62, and is a hole 78 formed by the housing 20 and the terminal support 70 ( 5), it is engaged with a portion of the main body 77 with the terminal support 70. As shown in FIG. In order to facilitate locking, these arm portions 61 are provided so as to be elastically displaceable in the plate thickness direction.

The cable holding member 60 is attached to the housing 20 after the terminal support 70 is attached to the housing 20, that is, to the housing 20 in the state shown in FIGS. After the cable holding member 60 is positioned with respect to the housing 20, for example, using a fingertip or a jig, the force that simultaneously pinches the upper surfaces 67a of the pair of cable holding members 60A and 60B (see FIG. 4) facing each other is applied. It can be attached to the housing 20 by adding time. Using this force, the cable 5 can be cut by the cable pressure contact portion 11 b and fixed at a predetermined position of the housing 20 and the cable holding member 60 .

A method of attaching the cable 5 to the cable holding member 60 will be described with reference to FIGS. 12 to 15. FIG. First, as shown in FIG. 12, the cable 5 is passed through the through hole 63 provided inside the main body 67 . The cable 5 is inserted into the through-hole 63 through the opening 63b located on one end side (n) and taken out to the outside through the opening 63a located on the other end side (m). At this time, the cable 5 is inserted into the through hole 63 until the tip of the cable 5 reaches a position sufficiently distant from the end surfaces 61c and 67e of the extensions (61 and 67d1) of the side surfaces 67c and 67d of the main body 67 in the insertion direction "x1". pull it out from

Next, as shown in FIG. 13, the cable 5 is cut using the end faces 61c, 67e of the extended portions of the side faces 67c, 67d. Specifically, the cable 5 is cut by moving the side surface of a blade of a cutter or the like in contact with both of the end faces 61c and 67e and along the end faces 61c and 67e. By cutting in this manner, one end of each cable 5, that is, the cut surface "K" of the internal conductor 5a exposed to the outside, is aligned with the end surface 61c of the extension (61, 67d1) in the front-rear direction "x". It is positioned at substantially the same position as 67e.

Next, as shown in FIG. 14, the cable 5 is pulled along the front-back direction "x" in the direction "x2" opposite to the insertion direction "x1", and the cut surface "K" of the cable 5 is aligned with the opening 63a. It is arranged on or near the opening end face 67j. When the cut surface "K" of the cable 5 is arranged near the opening 63a, it is preferably positioned so as not to collide with the cable 5 when the cover 65 is rotated later.

Finally, as shown in FIG. 15, the covering portion 65, in other words, the first portion 65c and the second portion 65d of the covering portion 65 are rotated in the "θ" direction. As a result, one end of the cable 5 arranged in the through-hole 63, that is, the cut surface "K", in other words, the opening end surface 67j of the opening 63a or the vicinity thereof is the surface that intersects the insertion direction "x1" of the cable 5. (yz plane). The open portion of the through-hole 63 located on the one end side (n) of the opening end surface 67j can be covered by the closed second portion 65d of the cover portion 65. As shown in FIG. As a result, it is possible to effectively prevent dielectric breakdown from occurring between the subsequently attached shell 30 and the inner conductor 5 a of the cable 5 . Even when the covering portion 65 is rotated in the "θ" direction in this way, the length of the second portion 65d in the width direction "y" is Since the first portion 65c is set slightly shorter than the length in the same direction "y" of the first portion 65c, the first portion 65c does not collide with the extensions (61, 67d1) of the side surfaces 67c, 67d.

FIG. 16 shows a modification of the cable holding member in a manner similar to that of FIG. In FIG. 16, the same members as those of the embodiment shown in FIG. 1 etc. are denoted by the same reference numerals, and the corresponding members are denoted by "-1" after the reference numerals. In the modified example, unlike the embodiment shown in FIG. 1 and the like, only one set of the convex portion 65a-1 and the concave portion 67g-1 is provided on the covering portion 65-1. In addition, since only one set of the convex portion 65a-1 and the concave portion 67g-1 is provided, the position where they are provided is the center in the length direction of the covering portion 65-1, in other words, the arrangement direction "y" of the through holes 63. The locking force is ensured by providing it in the center of the.

Another modification of the cable holding member will be described with reference to FIGS. 17 to 25. FIG. For the sake of convenience, in these figures, members that are substantially the same as members of the embodiment shown in FIG. In this modification, as in the modification shown in FIG. 16, the locking means provided between the main body 67 of the cable holding member and the covering portion 80 is modified.

17 is a perspective view of the cable holding member corresponding to FIG. 8, and FIG. 18 is a perspective view showing a state in which the covering portion of the cable holding member shown in FIG. 17 is rotated in the same manner as in FIG. . Similarly, FIG. 19 is a perspective view of the cable holding member corresponding to FIG. 9, and FIG. 20 is a perspective view showing a state in which the covering portion of the cable holding member shown in FIG. 19 is rotated. Furthermore, FIG. 21 is a perspective view of the cable holding member corresponding to FIG. 10, and FIG. 22 is a perspective view showing a state in which the covering portion of the cable holding member shown in FIG. 21 is rotated. FIG. 23 shows a front view of the cable holding member shown in FIG. 17 and the like. Further, FIG. 24 shows a sectional view taken along line II of FIG. 21, FIG. 25 shows a sectional view taken along line II-II of FIG. 22, and FIG. 26 shows a sectional view taken along line III-III of FIG.

In another modification, as locking means, a convex locking portion 90a is formed on a convex body 90 formed as a part of the main body 67, and a correspondingly concave locked portion 88 is formed on the covering portion. 80, respectively.

The convex body 90 has a symmetrical shape in the width direction “y” and mainly has a main portion 93 and a rod-shaped body 91 . The main part 93 and the rod-like body 91 are arranged in the "x1" direction, more specifically, in the direction in which the covering part 80 approaches the main body 67 when the covering part 80 is folded. It is provided so as to protrude from 67 .

The main portion 93 is a substantially plate-like portion, and is provided in a state of further protruding in the “x1” direction from the opening end surface 67j of the main body 67 . The main portion 93 has a predetermined extent in the “xy plane” and is in the thickness direction “z”, in other words, both the cable insertion direction “x1” and the direction “y” along the bent portion 80e. It has a predetermined thickness in the orthogonal direction. As is clear from FIG. 18 and the description given later, the upper surface 93a of the main portion 93 can form part of the ceiling of the cable holding member when the covering portion 80 is bent with respect to the main body 67. As shown in FIG. Since the bottom surface (92, 90a) of the main portion 93 faces the open side of the cable mounting portion 63c, the central region 92 of the bottom surface, particularly in the width direction "y", is mounted on the cable mounting portion 63c. It is arch-shaped so as not to interfere with the insertion of the cable. The locking portions 90a are formed as elongated rectangular locking surfaces extending along the "xy plane" at positions sandwiching both sides of the central region 92 in the width direction "y". A front surface of the main portion 93, particularly a locking portion of the main portion 93, which prevents collision between the main portion 67 and the cover portion 80 when the cover portion 80 is bent with respect to the main portion 67, is provided on the side near the upper surface 93a. A taper 93b is provided on the 90a so that the locked portion 88 of the covering portion 80 can be smoothly locked.

The rod-shaped body 91 is a total of two substantially rod-shaped portions (91A, 91B) provided on each side of the main portion 93 in the width direction "y", and, like the main portion 93, extends in the "x1" direction. It is provided in a protruded state. The degree of projection is greater than that of the main portion 93 , and the projection extends beyond not only the opening end face 67 j of the main body 67 but also the main portion 93 . As a result, the rod-shaped bodies 91A and 91B extend outward from the main portion 93 in a state of being continuous with the main portion 93 in the "xy plane" to form an extension portion. The rod-shaped bodies 91A and 91B are positioned closer to the cable mounting portion 63c than the main portion 93 in the thickness direction "z". , is located below the main portion 93 . Since the side surface 91b of the rod-shaped body 91 faces the open side of the cable mounting portion 63c like the central region 92 of the bottom surface of the main portion 93, the insertion of the cable mounted on the cable mounting portion 63c is not hindered. It is arched like this.

Like the covering portion 65 shown in FIG. 1 and the like, the covering portion 80 has a substantially L-shape when viewed from the side, and includes a first portion 80c and a second portion 80d.
The first portion 80c is provided with two receiving portions 81A, 81B corresponding to the rod-shaped bodies 91A, 91B. The receiving portions 81A and 81B are recessed along the “x1” direction so that they can receive the rod-shaped bodies 91A and 91B when the covering portion 80 is folded with respect to the main body 67 . The first portion 80c is further provided with a groove 80a that straddles the receiving portions 81A and 81B in the width direction "y" near the joint with the second portion 80d. The groove 80a has a surface 88 extending along the "xy plane" in the vicinity of the locking surface 90a provided on the convex body 90 when the covering part 80 is bent with respect to the main body 67. can form. This surface 88 is used to form a locked portion. When the covering portion 80 is bent with respect to the main body 67, an engaging surface 90a that is an engaging portion provided on the convex body 90 of the main body 67 and a locked surface that is a portion to be engaged provided on the covering portion 80 are formed. Cover 65 is locked to body 67 by designing 88 to face each other and to impinge these faces.

The second portion 80d is provided with a through hole 94a that penetrates the covering portion 80 in the thickness direction "z" using the slit 94. As shown in FIG. In this modified example, the through hole 94a has a substantially rectangular shape, but the shape is not limited to this. The main portion 93 of the convex body 90 has a shape corresponding to the through hole 94a in the "xy plane", but is set to have smaller dimensions than the through hole 94a. Therefore, when the covering portion 80 is bent with respect to the main body 67, the main portion 93 enters the through hole 94a in the thickness direction "z". In other words, the main portion 93 overlaps the through hole 94a in at least a part of the region in the "xy plane" to close the through hole 94a.

As described above, since the rod-shaped bodies 91A and 91B are formed as extending portions extending outward from the main portion 93 in the "xy plane", Since it is positioned closer to the cable mounting portion 63c than the main portion 93, these rod-like bodies 91A and 91B are formed by the slits 94 formed in the second portion 80d for providing the through holes 94a. The gap will be completely closed in the "xy plane".

Furthermore, the rod-shaped bodies 91A and 91B formed as extensions have the function of increasing the creepage distance. As well shown in FIG. 26, in this configuration, even when the cover portion 80 is bent with respect to the main body 67, the main portion 93 and the extension portions 91A and 91B are separated from the cover portion 80. In addition, for example, a gap "G" is formed between the upper surface 91a of the extending portions 91A and 91B and the covering portion 80. As shown in FIG. As a result, the electric signal entering the cable holding member through the slit 94 or the like flows through the upper surface 91a of the rod-shaped body 91 and further through the arch-shaped side surface 91b, thereby reducing the risk of adversely affecting the cable. can. As described with reference to FIG. 7 and the like, the cable holding member is covered by the shell 30 during actual use, so there is a high risk of adversely affecting the cable. Such adverse effects can be effectively eliminated or reduced by being completely occluded in the "-y plane".

It should be noted that the present invention is not limited to the above-described embodiments, and various other modifications are possible. For example, in the present embodiment, the bendable cover portion 65 is provided as part of the main body 67, but the cover portion 65 only needs to cover one end of the cable 5 so as to prevent dielectric breakdown. , need not necessarily be provided as part of the main body 67, and need not be provided in a bendable manner. Furthermore, it is sufficient that the covering portion 65 is provided as a covering member capable of covering the opening end surface 67j of the opening portion 63a or its vicinity to prevent dielectric breakdown. 67 may be hinged. The shape of the covering portion 65 or the covering member is not particularly limited as long as the above object can be achieved. For example, it may have a rounded shape or a shape with a thickness. As such, the drawings and descriptions herein are illustrative only and are not limiting.

Many modifications or other embodiments of the invention will come to mind to one skilled in the art to which the invention pertains with the help of the teachings presented in the foregoing description, and those skilled in the art will It will be apparent that variations and modifications may be made to the invention without departing from the scope or spirit of the invention. It is therefore to be understood that the invention is not limited to the particular embodiments disclosed, but modifications and other embodiments are intended to be included within the scope of the appended claims. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

1 Cable connector device 60 Cable holding member 63 Through hole 63a Opening 65 Covering part (covering member)
65a convex portion 67 main body 67g concave portion 67j opening end faces 61, 67d extensions 67e, 61c end face x1 insertion direction yz plane intersecting plane

Claims (14)

a main body having a through hole through which a cable can be inserted from one end side to the other end side through the opening;
a cover member provided so as to be bendable with respect to the main body along the bent portion;
When the cover member is bent with respect to the main body, at least a portion of the cover member causes the opening end face of the opening located on the other end side or the vicinity thereof to cross the insertion direction of the cable in the through hole. It is configured so that it can be covered by the surface to be
The main body is provided with a locking surface formed in a convex shape and extending along a surface formed by the insertion direction of the cable and the direction along the bent portion,
An engaging surface that is formed in a concave shape on the cover member and is engaged with the engaging surface, the engaging surface being engaged with the engaging surface when the covering member is bent with respect to the main body, the insertion direction of the cable and the bending. a locked surface extending along a surface formed by a direction along the part is provided;
An insulating cable holding member, wherein the locking surface and the locked surface face each other when the covering member is bent with respect to the main body. 2. The cable retaining member according to claim 1, wherein the cover member is formed as part of the main body, and the thickness of the bent portion is thinner than its peripheral portion. 3. The covering member according to claim 1, wherein the covering member is formed as a part of the main body and has a substantially L shape in at least one cross section of the covering member perpendicular to the direction along the bent portion. cable holding member; When the cover member is bent with respect to the main body, a first portion forming part of the substantially L-shape covers the opening end surface or the vicinity thereof, and another part of the substantially L-shape. is configured to be able to cover the open portion of the cable mounting portion of the through hole located on the one end side of the open end face in the direction along the insertion direction of the cable 4. The cable retention member of claim 3, wherein a 5. The cable holding member according to any one of claims 1 to 4 , wherein the locking surface is provided at a position other than the position where the through hole is provided on the opening end face. 6. A cable retention member as claimed in claim 4 and claim 5 when dependent on claim 4, wherein the second portion is closed. the second portion has a through hole,
the main body has a convex body provided with the locking surface, which protrudes from the main body in the insertion direction of the cable;
When the covering member is bent with respect to the main body, at least part of the convex body is at least partly aligned with the through hole in a plane formed by the insertion direction of the cable and the direction along the bent portion. 7. A cable retention member according to claim 5 or claim 6, depending on claim 4, which is configured to overlap in areas. The convex body has a smaller dimension than the through hole in a plane defined by the cable insertion direction and the direction along the bent portion, and the cable is bent when the cover member is bent with respect to the main body. 8. The cable holding member according to claim 7 , having a main portion that enters the through hole in a direction perpendicular to both the insertion direction and the direction along the bent portion. The convex body is positioned closer to the cable mounting portion than the main portion in a direction perpendicular to both the cable insertion direction and the direction along the bent portion, and is positioned closer to the cable mounting portion than the main portion. 9. The cable retention member according to claim 8 , further comprising an extension extending outwardly of said main portion in a plane defined by a direction along . 10. The cable holding member according to claim 9 , wherein a gap is formed between the main portion and/or the extension portion and the covering portion when the covering member is bent with respect to the main body. . 11. The cable retaining member according to any one of claims 8 to 10 , wherein said locking surface is provided on said main portion. A part of the main body forms an extension part which is arranged opposite to the opening end face so as to sandwich the opening end face and extends from the one end side toward the other end side of the opening end face along the insertion direction of the cable. 12. The cable holding device according to any one of claims 1 to 11 , wherein an end face of said extension portion is positioned in a plane intersecting with the insertion direction of said cable. a main body having a through hole through which a cable can be inserted from one end side to the other end side through the opening;
a cover member provided so as to be bendable with respect to the main body along the bent portion;
When the cover member is bent with respect to the main body, at least a portion of the cover member causes the opening end face of the opening located on the other end side or the vicinity thereof to cross the insertion direction of the cable in the through hole. It is configured so that it can be covered by the surface to be
The cover member is formed as a part of the main body, and has a substantially L shape in at least one cross section of the cover member perpendicular to the direction along the bent portion,
When the cover member is bent with respect to the main body, a first portion forming part of the substantially L-shape covers the opening end surface or the vicinity thereof, and another part of the substantially L-shape. is configured to be able to cover the open portion of the cable mounting portion of the through hole located on the one end side of the open end face in the direction along the insertion direction of the cable cage,
An engaging portion formed in a convex shape on the main body and an engaged portion formed in a concave shape to be engaged with the engaging portion are provided on the cover member, respectively,
the second portion has a through hole,
The main body has a convex body provided with the locking portion, which protrudes from the main body in the insertion direction of the cable,
When the covering member is bent with respect to the main body, at least part of the convex body is at least partly aligned with the through hole in a plane formed by the insertion direction of the cable and the direction along the bent portion. An insulating cable retention member configured to overlap in areas. an insulating housing;
an insulating terminal support for supporting terminals and a cable retention member according to any one of claims 1 to 13 , attachable to the housing;
a shell covering outer peripheral surfaces of the housing, and the terminal support and the cable holding member attached to the housing;
A cable connector device, wherein the cable holding member is provided with an insertion hole communicating with the through hole of the cable holding member into which a part of the terminal can be inserted.

Images