JP2022185598A - Communication connector - Google Patents

Abstract

To provide a communication connector which can improve the efficiency of an assembling work to a twisted pair cable.SOLUTION: A communication connector 1 comprises: a first terminal 4 which has a first pressure-contact part 42; a second terminal 5 which has a second pressure-contact part 52; a housing 2; and a cover 3 which is engaged with the housing while holding a twisted pair cable 10 that is curved in a U shape, brings a first signal line of the twisted pair cable into pressure-contact with the first pressure-contact part, and brings a second signal line of the twisted pair cable into pressure-contact with the second pressure-contact part. The housing holds the first pressure-contact part and the second pressure-contact part in a displaced manner in a width direction. The cover includes a first holding structure 31 and a second holding structure 32 that hold the twisted pair cable. The first retention structure has a first column part 34 which supports the twisted pair cable. The second holding structure has a second column part 36 which supports the twisted pair cable.SELECTED DRAWING: Figure 10

Description

The present invention relates to communication connectors.

There are connectors that are crimped to electric wires. Patent Literature 1 discloses a daisy chain press-connecting connector used in a wiring method for connecting a plurality of devices in a daisy chain. According to the press-connecting connector for a daisy chain according to Patent Document 1, it is stated that the cables are neatly arranged in a straight harness, and extra cables are not used, resulting in cost reduction.

JP 2014-220142 A

It is desired that the work of assembling a connector to a twisted pair cable can be made more efficient. For example, if two signal lines can be press-contacted to different press-contact portions at the same time, the efficiency of assembly work can be improved.

SUMMARY OF THE INVENTION An object of the present invention is to provide a communication connector capable of streamlining the work of assembling a twisted pair cable.

A communication connector of the present invention comprises a first terminal having a first pressure contact portion, a second terminal having a second pressure contact portion, a housing for holding the first terminal and the second terminal, and a U-shaped curved terminal. A cover that engages with the housing while holding a twisted pair cable, presses a first signal wire of the twisted pair cable against the first pressure contact portion, and presses a second signal wire of the twisted pair cable against the second pressure contact portion. and, the housing holds the first pressure contact portion and the second pressure contact portion in a state of being displaced in a width direction perpendicular to the axial direction of the twisted pair cable, and the cover includes the first pressure contact portion and the second pressure contact portion. a first holding structure positioned on one side in the axial direction with respect to the second pressure contact portion and holding the twisted pair cable; and the other side in the axial direction with respect to the first pressure contact portion and the second pressure contact portion. and a second holding structure for holding the twisted pair cable, wherein the first holding structure presses the twisted pair cable against the first pressure contact portion and the second pressure contact portion. The second holding structure has a first column portion for supporting a twisted pair cable, and the second holding structure includes a second column portion for supporting the twisted pair cable when the twisted pair cable is pressed against the first pressure contact portion and the second pressure contact portion. It is characterized by having a pillar.

In the communication connector according to the present invention, the cover has a first holding structure located on one side in the axial direction with respect to the first pressure contact portion and the second pressure contact portion, and a second holding structure located on the other side in the axial direction. have. The cover can press the twisted pair cable against the first pressure contact portion and the second pressure contact portion while supporting the twisted pair cable by the first column portion of the first holding structure and the second column portion of the second holding structure. ADVANTAGE OF THE INVENTION According to the communication connector which concerns on this invention, it is effective in the efficiency of the assembly|attachment operation|work with respect to a twist pair cable.

FIG. 1 is a diagram showing a communication connector and twisted pair cable according to the embodiment. FIG. 2 is a perspective view of a communication connector according to the embodiment; FIG. 3 is an exploded perspective view of the communication connector according to the embodiment. FIG. 4 is a perspective view of a housing according to the embodiment; FIG. 5 is a side view of the housing holding the first terminal and the second terminal; FIG. 6 is a front view of the cover according to the embodiment; FIG. 7 is a diagram explaining an assembly procedure according to the embodiment. FIG. 8 is a cross-sectional view explaining an assembly procedure according to the embodiment. FIG. 9 is a cross-sectional view explaining an assembly procedure according to the embodiment. FIG. 10 is a cross-sectional view explaining an assembly procedure according to the embodiment. FIG. 11 is a diagram showing a cover holding a twisted pair cable. FIG. 12 is an exploded perspective view of the communication connector according to the second embodiment. FIG. 13 is a front view of a cover according to the second embodiment; FIG. 14 is a diagram showing an assembly process according to the second embodiment. FIG. 15 is an explanatory diagram of a sorting unit according to the second embodiment.

A communication connector according to an embodiment of the present invention will be described in detail below with reference to the drawings. In addition, this invention is not limited by this embodiment. In addition, components in the following embodiments include those that can be easily assumed by those skilled in the art or substantially the same components.

[First embodiment]
A first embodiment will be described with reference to FIGS. 1 to 11. FIG. This embodiment relates to a communication connector. 1 is a diagram showing a communication connector and a twisted pair cable according to the embodiment, FIG. 2 is a perspective view of the communication connector according to the embodiment, FIG. 3 is an exploded perspective view of the communication connector according to the embodiment, and FIG. 5 is a side view of the housing holding the first terminal and the second terminal; FIG. 6 is a front view of the cover according to the embodiment; FIG. 8 is a cross-sectional view for explaining the assembling procedure according to the embodiment; FIG. 9 is a cross-sectional view for explaining the assembling procedure according to the embodiment; and FIG. 10 is the assembling procedure according to the embodiment. , and FIG. 11 is a diagram showing a cover holding a twisted pair cable.

FIG. 8 shows the VIII-VIII section of FIG. FIG. 10 shows the XX section of FIG.

As shown in FIG. 1, the wire harness WH according to the embodiment has a communication connector 1 and a wire bundle 100. As shown in FIG. The wire harness WH may have multiple communication connectors 1 . The wire harness WH is mounted, for example, on a vehicle such as an automobile. In this case, the wire harness WH communicably connects a plurality of devices mounted on the vehicle.

The illustrated wire bundle 100 is a communication cable including a plurality of communication lines W. As shown in FIG. A wire bundle 100 of the present embodiment has twisted pair cables 10 forming a daisy chain. The twisted pair cable 10 has a trunk portion 10a and a branch portion 10b. The trunk portion 10 a is a portion that is bundled together with other communication lines W to form a trunk line 110 of the wire bundle 100 . The trunk line 110 has, for example, an exterior member or tape for bundling a plurality of communication lines W. As shown in FIG. The branch line portion 10 b is a portion of the twisted pair cable 10 branched from the main line 110 . The branch line portion 10b protrudes from the trunk line 110 so as to form a substantially U shape.

A twisted pair cable 10 has a first signal line 11 and a second signal line 12 . The twisted pair cable 10 is formed by twisting a first signal line 11 and a second signal line 12 spirally. The illustrated first signal line 11 and second signal line 12 are coated wires.

The communication connector 1 is connected to the branch line portion 10b of the twisted pair cable 10. As shown in FIG. The communication connector 1 connects, for example, a twisted pair cable 10 to electronic equipment. A communication connector 1 has a housing 2 , a cover 3 , first terminals 4 and second terminals 5 . The first terminal 4 has a first pressure-contact portion 42 that is pressure-contacted with the first signal line 11 . The second terminal 5 has a second press-contact portion 52 that press-contacts the second signal line 12 .

In the communication connector 1 according to this embodiment, the cover 3 is engaged with the housing 2, and at the same time, the two signal lines 11 and 12 are press-contacted to the two press-contact portions 42 and 52, respectively. can be made Therefore, according to the communication connector 1 of this embodiment, the work of assembling the communication connector 1 to the twisted pair cable 10 can be made more efficient.

As shown in FIGS. 2 to 4, the housing 2 has a substantially rectangular parallelepiped shape and has a holding portion 20, a facing wall 21, and a supporting wall 22. As shown in FIGS. The holding portion 20, the opposing wall 21, and the supporting wall 22 are integrally molded, for example, from an insulating synthetic resin.

In the present embodiment, in describing the communication connector 1, the axial direction of the twisted pair cable 10 is simply referred to as "axial direction X". The axial direction X is the longitudinal direction of the branch line portion 10b protruding from the trunk line 110 in a U-shape. As shown in FIG. 2, the communication connector 1 is configured such that the first extension portion 14 and the second extension portion 15 of the twisted pair cable 10 extend from the communication connector 1 along the axial direction X. As shown in FIG. As shown in FIG. 3, the first pressure contact portion 42 and the second pressure contact portion 52 are arranged to be shifted in a direction orthogonal to the axial direction X. As shown in FIG. In the description of the communication connector 1, the "width direction Y" is the direction in which the first pressure contact portion 42 and the second pressure contact portion 52 are arranged, and the "height direction Z" is the direction in which the first pressure contact portion 42 and the second pressure contact portion 52 are arranged. is the direction of projection. The axial direction X, width direction Y, and height direction Z are orthogonal to each other.

The holding portion 20 is formed in a rectangular parallelepiped block shape and holds the first terminal 4 and the second terminal 5 . The support wall 22 protrudes in the width direction Y from the bottom portion 20 a of the holding portion 20 . The bottom portion 20 a is one end portion of the holding portion 20 in the height direction Z. As shown in FIG. The support wall 22 is formed in a flat plate shape and supports the first terminal 4 and the second terminal 5 . The opposing wall 21 is erected in the height direction Z from the tip of the support wall 22 . The opposing wall 21 is formed in a flat plate shape and faces the holding portion 20 in the width direction Y. As shown in FIG.

The holding portion 20 has a first recess 23 and a second recess 24 . The first recess 23 and the second recess 24 extend along the width direction Y from one end of the holding portion 20 to the other end. The first recess 23 holds the connecting portion 41 of the first terminal 4 . The second recess 24 holds the connecting portion 51 of the second terminal 5 . The first recess 23 and the second recess 24 are arranged along the axial direction X. As shown in FIG.

The facing wall 21 has a notch 21 a corresponding to the first terminal 4 and a notch 21 b corresponding to the second terminal 5 . The notch 21a faces the first concave portion 23 in the width direction Y. As shown in FIG. The notch 21b faces the second recess 24 in the width direction Y. As shown in FIG.

The support wall 22 is provided with a convex sorting portion 25 . As shown in FIG. 4, the distribution part 25 protrudes in the height direction Z from the main surface 22b of the support wall 22. As shown in FIG. The projecting direction of the distribution part 25 is the same as the projecting direction of the opposing wall 21 . The position of the distributing portion 25 in the axial direction X is the position between the first concave portion 23 and the second concave portion 24 . The distributing portion 25 is separated from each of the holding portion 20 and the opposing wall 21 in the width direction Y. As shown in FIG.

A gap 26 a for the first signal line 11 is provided between the distribution section 25 and the holding section 20 . A gap 26 b for the second signal line 12 is provided between the distribution section 25 and the opposing wall 21 . The shape of the distributing portion 25 when viewed from the axial direction X is tapered. A tip portion of the sorting portion 25 has a first inclined surface 25a and a second inclined surface 25b. Both the first inclined surface 25a and the second inclined surface 25b are inclined with respect to the height direction Z.

The first inclined surface 25 a faces the holding portion 20 . The first inclined surface 25 a is inclined along the height direction Z so as to be further away from the holding section 20 toward the tip of the distributing section 25 . The second inclined surface 25 b faces the opposing wall 21 . The second slanted surface 25b is slanted away from the opposing wall 21 along the height direction Z toward the tip of the distribution section 25. As shown in FIG. A side surface of the support wall 22 is provided with an engagement projection 22 a that engages with the cover 3 .

As shown in FIG. 3 , the first terminal 4 has a connection portion 41 and a first pressure contact portion 42 . The second terminal 5 has a connection portion 51 and a second pressure contact portion 52 . The first terminal 4 and the second terminal 5 are made of a conductive metal plate such as copper. The connection portions 41 and 51 are portions that are connected to mating terminals. The illustrated connecting portions 41 and 51 are female connecting portions having a cylindrical shape. That is, mating male terminals are inserted into the connecting portions 41 and 51 . The connection portion 41 of the first terminal 4 is inserted into the first recess 23 of the holding portion 20 and held by the first recess 23 . The connection portion 51 of the second terminal 5 is inserted into the second recess 24 of the holding portion 20 and held by the second recess 24 . The connection portions 41 and 51 are inserted into the holding portion 20 along the insertion direction AR1. The insertion direction AR1 is the width direction Y in the first embodiment.

The pressure contact portions 42 and 52 each have a substantially U-shaped pressure contact blade. The first pressure contact portion 42 is erected from the bottom wall 41 a of the connection portion 41 . That is, the first terminal 4 is bent so that the bottom wall 41a and the first pressure contact portion 42 are perpendicular to each other. The first pressure contact portion 42 is arranged at an end portion in the width direction Y of the first terminal 4 . The second pressure contact portion 52 is erected from the bottom wall 51 a of the connection portion 51 . That is, the second terminal 5 is bent so that the bottom wall 51a and the second pressure contact portion 52 are perpendicular to each other. The second pressure contact portion 52 is arranged at an end portion in the width direction Y of the second terminal 5 . The first pressure contact portion 42 and the second pressure contact portion 52 are plate-shaped along the insertion direction AR1. That is, in the communication connector 1 of the first embodiment, the insertion direction AR1 and the axial direction X are orthogonal.

The illustrated first terminal 4 and second terminal 5 are configured such that the two pressure contact portions 42 and 52 are offset along the width direction Y. As shown in FIG. Specifically, the bottom wall 51 a of the second terminal 5 is longer than the bottom wall 41 a of the first terminal 4 . Therefore, the second pressure contact portion 52 is located farther from the holding portion 20 than the first pressure contact portion 42 is. In this embodiment, the projecting portion 42a of the first press contact portion 42 and the projecting portion 52a of the second press contact portion 52 overlap in the axial direction X. As shown in FIG.

FIG. 5 shows the housing 2 holding the first terminal 4 and the second terminal 5 . The first pressure contact portion 42 is located on the side of the holding portion 20 with respect to the distribution portion 25 . More specifically, the press contact blade 43 of the first press contact portion 42 is located closer to the holding portion 20 than the distributing portion 25 is. On the other hand, the second pressure contact portion 52 is located on the side of the opposing wall 21 with respect to the distribution portion 25 . More specifically, the press contact blade 53 of the second press contact portion 52 is positioned closer to the opposing wall 21 than the distribution portion 25 is. When viewed from the axial direction X, the protruding portion 42a of the first pressure contact portion 42, the protruding portion 52a (see FIG. 3) of the second pressure contact portion 52, and the distribution portion 25 overlap.
The facing wall 21 has an inclined surface 21 c that guides the second signal line 12 to the press contact blade 53 . The inlet portions of the press contact blades 43 and 53 have a guiding tapered shape.

As can be seen from FIGS. 2 and 3, the cover 3 is inserted between the retaining portion 20 and the opposing wall 21 of the housing 2 and engages the housing 2 . As shown in FIGS. 3 and 6, the cover 3 has a base 30 , a first retaining structure 31 , a second retaining structure 32 and a top wall 33 . The base 30, the first holding structure 31, the second holding structure 32, and the top wall 33 are integrally molded, for example, from an insulating synthetic resin.

The base portion 30 is a main body portion of the cover 3 and is formed in a rectangular plate shape or block shape. The base portion 30 faces the holding portion 20 and the opposing wall 21 in the width direction Y, respectively. The first retaining structure 31 has a first post 34 and a first facing portion 35 . The second retaining structure 32 has a second post portion 36 and a second facing portion 37 . As shown in FIG. 6, the cover 3 has a symmetrical shape when viewed in the width direction Y. As shown in FIG. More specifically, the cover 3 is symmetrical about a center line Z1 along the height direction Z when viewed in the width direction Y. As shown in FIG.

The first columnar portion 34 , the first opposing portion 35 , the second columnar portion 36 , and the second opposing portion 37 protrude in the width direction Y from the base portion 30 . The first facing portion 35 and the second facing portion 37 constitute side walls of the communication connector 1 . The first facing portion 35 is arranged at the first end portion 30 a in the axial direction X of the base portion 30 , and the second facing portion 37 is arranged at the second end portion 30 b in the axial direction X of the base portion 30 . The first facing portion 35 and the second facing portion 37 face each other in the axial direction X. As shown in FIG. The first facing portion 35 and the second facing portion 37 are formed in a flat plate shape perpendicular to the axial direction X. As shown in FIG.

The first facing portion 35 has a first slit portion 38 . As shown in FIG. 3 , the first slit portion 38 extends along the width direction Y from the distal end surface of the first facing portion 35 toward the base portion 30 . The first slit portion 38 penetrates the first opposing portion 35 along the axial direction X. As shown in FIG. The second facing portion 37 has a second slit portion 39 . The second slit portion 39 extends along the width direction Y from the distal end surface of the second facing portion 37 toward the base portion 30 . The second slit portion 39 passes through the second facing portion 37 along the axial direction X. As shown in FIG.

The top wall 33 protrudes in the width direction Y from the top portion 30 c of the base portion 30 . The top wall 33 fits into the gap between the holding portion 20 of the housing 2 and the opposing wall 21 . The top wall 33 is formed in a flat plate shape orthogonal to the height direction Z. As shown in FIG. The top wall 33 faces the first columnar portion 34, the first opposing portion 35, the second columnar portion 36, and the second opposing portion 37 in the height direction Z, respectively.

As shown in FIG. 6, a gap G1 is provided between the top wall 33 and the first facing portion 35 to allow the twisted pair cable 10 to pass therethrough. The width of the gap G1 in the height direction Z is equal to or greater than the outer diameter of the twisted pair cable 10, for example. The top wall 33 has a raised portion 33 a raised toward the first facing portion 35 . The cover 3 can hold the twisted pair cable 10 with the raised portion 33 a and the first facing portion 35 .

A gap G2 through which the twisted pair cable 10 can be inserted is provided between the top wall 33 and the second facing portion 37 . The width of the gap G2 in the height direction Z is equal to or greater than the outer diameter of the twisted pair cable 10, for example. The top wall 33 has a raised portion 33b raised toward the second facing portion 37 . The cover 3 can hold the twisted pair cable 10 with the raised portion 33 b and the second facing portion 37 .

The first columnar portion 34 is located on the side of the center line Z1 with respect to the first opposing portion 35 and faces the first opposing portion 35 in the axial direction X. As shown in FIG. A gap into which the twisted pair cable 10 can be inserted is provided between the first column portion 34 and the first opposing portion 35 . The illustrated shape of the first columnar portion 34 is cylindrical.

As shown in FIG. 6, the first slit portion 38 is provided at a position shifted from the first column portion 34 in the height direction Z. As shown in FIG. More specifically, the first slit portion 38 has a first surface 38a and a second surface 38b facing each other in the height direction Z. As shown in FIG. A virtual plane S<b>1 including the first surface 38 a contacts the outer peripheral surface of the first columnar portion 34 . The virtual plane S1 is a plane orthogonal to the height direction Z. As shown in FIG. That is, the position of the first slit portion 38 is determined so that the twisted pair cable 10 extends linearly along the axial direction X from the first slit portion 38 to the outer peripheral surface of the first column portion 34 . The second surface 38b is provided with a raised portion 38c raised toward the first surface 38a. The first slit portion 38 can sandwich the twisted pair cable 10 between the raised portion 38c and the first surface 38a.

The second columnar portion 36 is located on the side of the center line Z1 with respect to the second facing portion 37 and faces the second facing portion 37 in the axial direction X. As shown in FIG. A gap into which the twisted pair cable 10 can be inserted is provided between the second column portion 36 and the second facing portion 37 . The illustrated shape of the second column portion 36 is cylindrical. The second columnar portion 36 faces the first columnar portion 34 in the axial direction X. As shown in FIG. The second columnar portion 36 has the same shape as the first columnar portion 34 and is located at the same position in the height direction Z as the first columnar portion 34 .

The second slit portion 39 is provided at a position shifted from the second column portion 36 in the height direction Z. As shown in FIG. The second slit portion 39 has a first surface 39a and a second surface 39b facing each other in the height direction Z. As shown in FIG. A virtual plane S<b>1 including the first surface 39 a contacts the outer peripheral surface of the second column portion 36 . That is, the position of the second slit portion 39 is determined so that the twisted pair cable 10 extends linearly along the axial direction X from the second slit portion 39 to the outer peripheral surface of the second column portion 36 . The second surface 39b is provided with a raised portion 39c raised toward the first surface 39a. The second slit portion 39 can sandwich the twisted pair cable 10 between the raised portion 39c and the first surface 39a.

A procedure for assembling the communication connector 1 according to this embodiment will be described. FIG. 7 shows the cover 3 holding the twisted pair cable 10. As shown in FIG. As shown in FIG. 7, the operator holds the twisted pair cable 10 by the cover 3 while bending the twisted pair cable 10 into a U shape. As shown in FIG. 7 , the first columnar portion 34 is positioned on one side in the axial direction X with respect to the first pressure contact portion 42 and the second pressure contact portion 52 . The second columnar portion 36 is positioned on the other side in the axial direction X with respect to the first pressure contact portion 42 and the second pressure contact portion 52 . That is, the first columnar portion 34 and the second columnar portion 36 are arranged to face each other in the axial direction X with the first pressure contact portion 42 and the second pressure contact portion 52 interposed therebetween.

The cover 3 holds the twisted pair cable 10 by, for example, winding the curved portion 13 of the twisted pair cable 10 around the first column portion 34 . In this case, the first extension portion 14 of the twisted pair cable 10 is inserted through the gap G<b>2 and the second extension portion 15 of the twisted pair cable 10 is inserted through the second slit portion 39 . The first extension portion 14 linearly extends along the axial direction X from the first column portion 34 toward the gap G2. The second extension portion 15 linearly extends along the axial direction X from the first column portion 34 toward the second slit portion 39 . The second extension portion 15 may be in contact with the second column portion 36, for example. The first extension portion 14 and the second extension portion 15 are pulled out from the cover 3 toward the first side X1 in the axial direction X. As shown in FIG.

A worker attaches the cover 3 holding the twisted pair cable 10 to the housing 2 along the height direction Z. As shown in FIG. A first terminal 4 and a second terminal 5 are attached in advance to the housing 2 . As shown in FIG. 8, cover 3 is inserted between holding portion 20 and opposing wall 21 of housing 2 . At this time, the rear surface 30 d of the base portion 30 of the cover 3 is guided by the holding portion 20 . Further, the tip surface 35 a of the first facing portion 35 is guided by the facing wall 21 . That is, the position of the cover 3 in the width direction Y is determined by the holding portion 20 and the opposing wall 21 .

When the operator further inserts the cover 3 into the gap of the housing 2, the distribution part 25 enters between the first signal line 11 and the second signal line 12 of the twisted pair cable 10, as shown in FIG. The first inclined surface 25 a of the distribution portion 25 guides the first signal line 11 to the press contact blade 43 of the first terminal 4 . The second inclined surface 25 b of the distribution portion 25 guides the second signal line 12 to the press contact blade 53 of the second terminal 5 .

When the operator further inserts the cover 3 into the gap of the housing 2 , the first signal wire 11 is pressed against the first pressure contact portion 42 and the second signal wire 12 is pressed against the second pressure contact portion 52 . As shown in FIG. 10 , the first column portion 34 and the second column portion 36 of the cover 3 support the second extension portion 15 of the twisted pair cable 10 . The first retaining structure 31 is configured to retain the curved portion 13 by means of the first post 34 . For example, the first column 34 is configured to generate a sufficient amount of frictional force between the first column 34 and the curved portion 13 as described below.

A curved portion 13 of the twisted pair cable 10 is curved in a substantially U shape. Therefore, the winding angle of the twisted pair cable 10 with respect to the first pole portion 34 is sufficiently large. Further, since the first columnar portion 34 has a columnar shape, a gap is less likely to occur between the outer peripheral surface of the first columnar portion 34 and the twisted pair cable 10 . That is, the contact area between the outer peripheral surface of the first pillar portion 34 and the twisted pair cable 10 is sufficiently large. Therefore, the first column portion 34 can support the second extension portion 15 when the twisted pair cable 10 is pressed against the first pressure contact portion 42 and the second pressure contact portion 52 .

In addition, it is preferable that the diameter of the first columnar portion 34 has a relatively large value. By increasing the diameter of the first column portion 34, a sufficient frictional force can be generated between the first column portion 34 and the twisted pair cable 10, and the twisted shape of the twisted pair cable 10 can be prevented from collapsing. The first holding structure 31 can control the bending position and bending radius of the twisted pair cable 10 by the first column portion 34 . Therefore, the communication connector 1 of this embodiment can ensure stable communication performance with the twisted pair cable 10 .

The second holding structure 32 holds the second extending portion 15 with the second slit portion 39 . That is, the second extension portion 15 is held by the first column portion 34 and the second slit portion 39 . Therefore, the cover 3 can generate the tension Ft in the second extending portion 15 between the first pillar portion 34 and the second slit portion 39 . Also, the second holding structure 32 supports the second extension portion 15 by the second column portion 36 . Therefore, the cover 3 of this embodiment supports the second extending portion 15 by the first column portion 34 and the second column portion 36, and presses the second extending portion 15 against the two pressure contact portions 42 and 52. can do.

The first signal line 11 of the second extension portion 15 is pressed against the first pressure contact portion 42 and is pressed against the first pressure contact portion 42 . A core wire of the first signal line 11 is electrically connected to the first pressure contact portion 42 . The second signal line 12 of the second extension portion 15 is pressed against the second pressure contact portion 52 and is pressed against the second pressure contact portion 52 . A core wire of the second signal line 12 is electrically connected to the second pressure contact portion 52 . The communication connector 1 is configured such that the twisted pair cable 10 can be pressed against the first pressure contact portion 42 and the second pressure contact portion 52 until the cover 3 is completely engaged with the housing 2 . For example, the first column portion 34 and the second column portion 36 are arranged so as to push the twisted pair cable 10 deep into the pressure contact blades 43 and 53 until the cover 3 is completely engaged with the housing 2. there is

According to the communication connector 1 of the present embodiment, by engaging the cover 3 with the housing 2, the first signal wire 11 is pressed against the first pressure contact portion 42, and the second signal wire 12 is pressed against the second pressure contact. It can be pressed against the portion 52 . Therefore, the work process is simplified, and the work of assembling the communication connector 1 is made more efficient.

In addition, as shown in FIG. 11 , the cover 3 may hold the twisted pair cable 10 by winding the curved portion 13 of the twisted pair cable 10 around the second column portion 36 . In this case, the first extension portion 14 of the twisted pair cable 10 is inserted through the gap G<b>1 , and the second extension portion 15 is inserted through the first slit portion 38 . The first extension portion 14 linearly extends along the axial direction X from the second column portion 36 toward the gap G1. The second extension portion 15 linearly extends along the axial direction X from the second column portion 36 toward the first slit portion 38 . The second extension portion 15 contacts the first column portion 34, for example. The first extension portion 14 and the second extension portion 15 are pulled out from the cover 3 toward the second side X2 in the axial direction X. As shown in FIG.

When the cover 3 is attached to the housing 2 , the first slit portion 38 and the second column portion 36 hold the second extension portion 15 . Further, the first column portion 34 and the second column portion 36 support the second extension portion 15, press the first signal line 11 to the first pressure contact portion 42, and connect the second signal line 12 to the second pressure contact portion. 52.

Thus, the communication connector 1 of the present embodiment allows the twisted pair cable 10 to be led out to either the first side X1 or the second side X2. Therefore, the communication connector 1 can correspond to various connection forms according to the positional relationship between the wiring route of the wire bundle 100 and the electronic device to be connected.

As described above, the communication connector 1 according to this embodiment includes the first terminal 4 having the first pressure contact portion 42, the second terminal 5 having the second pressure contact portion 52, the housing 2, the cover 3, have Housing 2 holds first terminal 4 and second terminal 5 . The cover 3 engages with the housing 2 while holding the twisted pair cable 10 curved in a U shape. The cover 3 presses the first signal line 11 of the twisted pair cable 10 against the first pressure contact portion 42 and presses the second signal line 12 of the twisted pair cable 10 against the second pressure contact portion 52 .

The housing 2 holds the first pressure contact portion 42 and the second pressure contact portion 52 in a state of being shifted in the width direction Y orthogonal to the axial direction X of the twisted pair cable 10 . The cover 3 has a first holding structure 31 and a second holding structure 32 that hold the twisted pair cable 10 . The first holding structure 31 is positioned on one side in the axial direction X with respect to the first pressure contact portion 42 and the second pressure contact portion 52 . The second holding structure 32 is positioned on the other side in the axial direction X with respect to the first pressure contact portion 42 and the second pressure contact portion 52 .

The first retaining structure 31 has a first post 34 . The second retaining structure 32 has a second post 36 . The first pillar portion 34 and the second pillar portion 36 support the twisted pair cable 10 when the twisted pair cable 10 is pressed against the first pressure contact portion 42 and the second pressure contact portion 52, respectively. The communication connector 1 according to the present embodiment can achieve efficiency in the work of assembling the communication connector 1 to the twisted pair cable 10 .

The first holding structure 31 of the present embodiment is configured to hold the bending portion 13 by the first column portion 34 when the bending portion 13 of the twisted pair cable 10 is wound around the first column portion 34 . there is The second holding structure 32 has a second slit portion 39 that holds the twisted pair cable 10 . The second slit portion 39 is configured to hold the twisted pair cable 10 while extending the twisted pair cable 10 in the axial direction X from the first pole portion 34 to the second slit portion 39 . The cover 3 configured in this way can appropriately press the twisted pair cable 10 against the first pressure contact portion 42 and the second pressure contact portion 52 .

The housing 2 of this embodiment has a convex sorting portion 25 . The distribution part 25 is configured to enter between the first signal line 11 and the second signal line 12 when the cover 3 is engaged with the housing 2 . The distribution portion 25 is arranged between the first pressure contact portion 42 and the second pressure contact portion 52, and has a first inclined surface 25a and a second inclined surface 25b. The first inclined surface 25a guides the first signal line 11 toward the first pressure contact portion 42 side, and the second inclined surface 25b guides the second signal line 12 toward the second pressure contact portion 52 side. With such a configuration, the operation of pressing the twisted pair cable 10 against the first pressure contact portion 42 and the second pressure contact portion 52 is made more efficient.

The second holding structure 32 of the present embodiment is configured to hold the bending portion 13 by the second column portion 36 when the bending portion 13 of the twisted pair cable 10 is wound around the second column portion 36 . there is The first holding structure 31 has a first slit portion 38 that holds the twisted pair cable 10 . The first slit portion 38 is configured to hold the twisted pair cable 10 while extending the twisted pair cable 10 in the axial direction X from the second pole portion 36 to the first slit portion 38 . Therefore, in the communication connector 1 of this embodiment, the extension direction of the twisted pair cable 10 can be selected from two directions.

Note that the first holding structure 31 may hold the bending portion 13 by sandwiching the bending portion 13 between the first column portion 34 and the first opposing portion 35 . The second holding structure 32 may hold the bending portion 13 by sandwiching the bending portion 13 between the second column portion 36 and the second facing portion 37 .

The shapes of the first column portion 34 and the second column portion 36 are not limited to the illustrated shapes. For example, the cross-sectional shapes of the first columnar portion 34 and the second columnar portion 36 may be semicircular. In this case, the cross-sectional shape of the first columnar portion 34 is preferably arc-shaped on the side facing the first opposing portion 35 . It is preferable that the cross-sectional shape of the second column portion 36 is arc-shaped on the side facing the second facing portion 37 .

[Second embodiment]
A second embodiment will be described with reference to FIGS. 12 to 15. FIG. In the second embodiment, constituent elements having functions similar to those described in the first embodiment are denoted by the same reference numerals, and overlapping descriptions are omitted. 12 is an exploded perspective view of a communication connector according to the second embodiment, FIG. 13 is a front view of a cover according to the second embodiment, FIG. 14 is a diagram showing an assembly process according to the second embodiment, and FIG. [FIG. 8] is an explanatory diagram of a sorting unit according to a second embodiment; The second embodiment differs from the first embodiment in that, for example, the twisted pair cable 10 is pulled out from the housing 2 in parallel with the first terminal 4 and the second terminal 5 .

As shown in FIG. 12, the communication connector 1 according to the second embodiment has a housing 2, a cover 3, first terminals 4, and second terminals 5. As shown in FIG. The first terminal 4 has a connection portion 41 and a first pressure contact portion 42 . The first pressure contact portion 42 is erected in the height direction Z from the tip of the bottom wall 41a. The first pressure contact portion 42 of the second embodiment is orthogonal to the extension direction of the connection portion 41 . That is, the first pressure contact portion 42 is orthogonal to the insertion direction AR1 of the first terminal 4 into the housing 2 .

The second terminal 5 has a connection portion 51 and a second pressure contact portion 52 . The second pressure contact portion 52 is erected in the height direction Z from the tip of the bottom wall 51a. The second pressure contact portion 52 of the second embodiment is orthogonal to the extension direction of the connection portion 51 . That is, the second pressure contact portion 52 is orthogonal to the insertion direction AR1 of the second terminal 5 into the housing 2 . Therefore, in the communication connector 1 of the second embodiment, the axial direction X is parallel to the insertion direction AR1. The width direction Y is orthogonal to the insertion direction AR1.

The exemplified housing 2 is formed in a substantially rectangular parallelepiped shape from an insulating synthetic resin. The housing 2 has a first recess 23 and a second recess 24, like the housing 2 of the first embodiment. The first terminal 4 is inserted into the first recess 23 and the second terminal 5 is inserted into the second recess 24 . The housing 2 holds the first terminals 4 and the second terminals 5 in a state in which the first terminals 4 and the second terminals 5 are arranged in the width direction Y. As shown in FIG. The first pressure contact portion 42 and the second pressure contact portion 52 are arranged along the width direction Y inside the housing 2 . Housing 2 has a slit 27 into which cover 3 is inserted. The slit 27 is arranged between the first terminal 4 and the second terminal 5 and extends along the axial direction X. As shown in FIG.

The cover 3 has a base 30 , a first retaining structure 31 , a second retaining structure 32 and a top wall 33 . The base 30, the first holding structure 31, the second holding structure 32, and the top wall 33 are integrally molded, for example, from an insulating synthetic resin.

The base portion 30 is a main body portion of the cover 3 and is formed in a rectangular plate shape. The first retaining structure 31 has a first post 34 and a first facing portion 35 . The first holding structure 31 of the second embodiment further has a third facing portion 62 . The second retaining structure 32 has a second column portion 36 and a second facing portion 61 . The first columnar portion 34 , the second columnar portion 36 , the first opposing portion 35 , the second opposing portion 61 , and the third opposing portion 62 protrude in the width direction Y from the base portion 30 .

The first holding structure 31 is arranged on one side in the axial direction X with respect to the first pressure contact portion 42 and the second pressure contact portion 52 . The first opposing portion 35 is arranged at the first end portion 30 a in the axial direction X of the base portion 30 . The first columnar portion 34 faces the first facing portion 35 in the axial direction X. As shown in FIG. The illustrated shape of the first columnar portion 34 is cylindrical. A gap into which the twisted pair cable 10 can be inserted is provided between the first column portion 34 and the first opposing portion 35 . The first holding structure 31 of the second embodiment is configured to hold the twisted pair cable 10 with the first column portion 34 and the first opposing portion 35 .

The third facing portion 62 is located on the side opposite to the top wall 33 side with respect to the first column portion 34 . The third facing portion 62 faces the first column portion 34 in the height direction Z. As shown in FIG. The third opposing portion 62 has a raised portion 62a raised toward the first column portion 34 . The first retaining structure 31 is configured to retain the twisted pair cable 10 by means of the protuberance 62 a and the first post 34 . The first holding structure 31 has a raised portion 33 c raised from the top wall 33 toward the first column portion 34 . The first holding structure 31 is configured to hold the twisted pair cable 10 by means of the raised portion 33c and the first post portion 34. As shown in FIG.

The second column portion 36 and the second opposing portion 61 are arranged at the second end portion 30 b in the axial direction X of the base portion 30 . The second facing portion 61 is located on the side opposite to the top wall 33 side with respect to the second column portion 36 . The second facing portion 61 faces the second column portion 36 in the height direction Z. As shown in FIG. The second column portion 36 has a holding surface 36a that faces the second facing portion 61 . The holding surface 36a is a plane orthogonal to the height direction Z. As shown in FIG. The second facing portion 61 has a raised portion 61a that rises with respect to the holding surface 36a. The second retaining structure 32 is configured to retain the twisted pair cable 10 by means of the raised portion 61a and the retaining surface 36a. That is, in the second holding structure 32 of the second embodiment, the second slit portion 39 that holds the twisted pair cable 10 is formed between the second column portion 36 and the second facing portion 61 .

As shown in FIG. 14 , the cover 3 holds the twisted pair cable 10 by winding the curved portion 13 of the twisted pair cable 10 around the first column portion 34 . The first holding structure 31 holds the twisted pair cable 10 by means of the first column portion 34, the first opposing portion 35, and the two raised portions 33c, 62a. The first extending portion 14 of the twisted pair cable 10 is pulled out from the gap between the second column portion 36 and the top wall 33 . The second extension portion 15 is inserted through the second slit portion 39 and held by the second slit portion 39 .

A cover 3 holding a twisted pair cable 10 is engaged with the housing 2 . The cover 3 supports the second extension portion 15 by the first pillar portion 34 and the second pillar portion 36 , and presses the second extension portion 15 against the first pressure contact portion 42 and the second pressure contact portion 52 .

The housing 2 of the second embodiment has a sorting section 25, as shown in FIG. The sorting unit 25 of this embodiment has the same function as the sorting unit 25 of the first embodiment. The distributing portion 25 is arranged between the first pressure contact portion 42 and the second pressure contact portion 52 and is formed in a convex shape. A tip portion of the sorting portion 25 has a first inclined surface 25a and a second inclined surface 25b. The first inclined surface 25 a guides the first signal line 11 toward the press contact blade 43 of the first press contact portion 42 . The second inclined surface 25 b guides the second signal line 12 toward the press contact blade 53 of the second press contact portion 52 . The communication connector 1 of the second embodiment is configured so that the twisted pair cable 10 can be press-contacted with the first pressure contact portion 42 and the second pressure contact portion 52 until the cover 3 is completely engaged with the housing 2. is configured to

[Modified example of each embodiment]
Modifications of the first and second embodiments will be described. The twisted pair cable 10 may be routed independently. In other words, the twisted pair cable 10 connected to the communication connector 1 is not limited to being routed together with other communication lines W as the wire bundle 100 .

The first terminal 4 and the second terminal 5 may be male terminals. In this case, the first terminal 4 and the second terminal 5 are connected to the mating female terminals.

The contents disclosed in each of the above embodiments and modifications can be executed in combination as appropriate.

1 communication connector 2 housing 3 cover 4 first terminal 5 second terminal 10: twisted pair cable 10a: main line portion 10b: branch line portion 11: first communication line 12: second communication line 13: curved portion 14: First extension part 15: Second extension part 20: Holding part 21: Opposing wall 21a, 21b: Notch 21c: Inclined surface 22: Support wall 22a: Engagement projection 22b: Main surface : first concave portion 24: second concave portion 25: distribution portion 25a: first inclined surface 25b: second inclined surface 26a, 26b: gap 27: slit 30: base portion 30a: first end portion 30b: Second end 30c: Top 30d: Back 31: First retaining structure 32: Second retaining structure 33: Top wall 33a, 33b, 33c: Raised portion 34: First column 35: First opposing portion 35a: tip surface 36: second columnar portion 37: second opposing portion 38: first slit portion 38a: first surface 38b: second surface 38c: raised portion 39: second slit portion 39a: First surface 39b: Second surface 39c: Protruding portion 41: Connection portion 42: First pressure contact portion 43: Pressure contact blade 51: Connection portion 52: Second pressure contact portion 53: Pressure contact blade 61: Second Opposing portion 62: Third opposing portion 100: Wire bundle 110: Main line G1, G2: Gap X: Axial direction Y: Width direction Z: Height direction Z1: Center line

Claims (4)

a first terminal having a first pressure contact portion;
a second terminal having a second pressure contact portion;
a housing that holds the first terminal and the second terminal;
A twisted pair cable bent in a U shape is engaged with the housing, a first signal line of the twisted pair cable is pressed against the first pressure contact portion, and a second signal line of the twisted pair cable is pressed against the second pressure contact portion. a cover to be brought into pressure contact with the pressure contact portion;
with
The housing holds the first pressure contact portion and the second pressure contact portion in a state of being shifted in a width direction perpendicular to the axial direction of the twisted pair cable,
The cover is positioned on one side in the axial direction with respect to the first pressure contact portion and the second pressure contact portion, and includes a first holding structure that holds the twisted pair cable, and the first pressure contact portion and the second pressure contact portion. a second holding structure positioned on the other side in the axial direction with respect to the pressure contact portion and holding the twisted pair cable;
The first holding structure has a first column portion that supports the twisted pair cable when the twisted pair cable is pressed against the first pressure contact portion and the second pressure contact portion,
The communication connector, wherein the second holding structure has a second column portion that supports the twisted pair cable when the twisted pair cable is pressed against the first pressure contact portion and the second pressure contact portion. The first holding structure is configured to hold the curved portion by the first pillar portion when the curved portion of the twisted pair cable is wound around the first pillar portion,
The second holding structure has a second slit portion that holds the twisted pair cable,
The communication according to claim 1, wherein the second slit portion is configured to hold the twisted pair cable while extending the twisted pair cable from the first pole portion to the second slit portion in the axial direction. connector. the housing has a convex dividing portion that enters between the first signal line and the second signal line when the cover is engaged with the housing;
The distributing portion is disposed between the first pressure contact portion and the second pressure contact portion, and includes a first inclined surface that guides the first signal line toward the first pressure contact portion, and the second 3. The communication connector according to claim 1, further comprising a second inclined surface that guides the signal line toward the second pressure contact portion. The second holding structure is configured to hold the curved portion by the second column portion when the curved portion of the twisted pair cable is wound around the second column portion,
The first holding structure has a first slit portion that holds the twisted pair cable,
The communication according to claim 2, wherein the first slit portion is configured to hold the twisted pair cable while extending the twisted pair cable from the second pole portion to the first slit portion in the axial direction. connector.

Images