JP2022174359A - Communication connector - Google Patents

Abstract

To provide a communication connector that can be miniaturized while configuring a daisy chain.SOLUTION: A communication connector 1 comprises: a first terminal 4; a second terminal 5; and a connector housing 2 that holds the first terminal and a second terminal. The first terminal has: a first joint part 42 with two pressure-welded parts 43 and 44; and a first connection part 41 connected with electronic equipment 200. The second terminal has: a second joint part 52 with two pressure-welded parts 53 and 54; and a second connection part 51 connected with the electronic equipment. One pressure-welded part 43 of the first joint part is pressure-welded with a first signal line 11 of a first twisted pair cable 10, and the other pressure-welded part 44 is pressure-welded with a first signal line 21 of a second twisted pair cable 20. One pressure-welded part 53 of the second joint part is pressure-welded with a second signal line 12 of the first twisted pair cable, and the other pressure-welded part 54 is pressure-welded with a second signal line 22 of the second twisted pair cable.SELECTED DRAWING: Figure 6

Description

The present invention relates to communication connectors.

Conventionally, there are connectors that are press-connected 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

By the way, the electronic device to which the cable is connected may be arranged at a position distant from the wire harness trunk line. In this case, a part of the cable is branched from the wire harness main line as a branch line and routed to the electronic device. When a connector is connected to a branch wire portion of a cable, it is preferable to be able to realize miniaturization of the connector. For example, it is desirable to be able to miniaturize the connector while forming a daisy chain using twisted pair cables.

SUMMARY OF THE INVENTION An object of the present invention is to provide a communication connector that can be miniaturized while forming a daisy chain.

A communication connector of the present invention comprises a first terminal connected to an electronic device, a second terminal connected to the electronic device, a connector housing holding the first terminal and the second terminal, wherein the first terminal has a first joint portion having two pressure contact portions and a first connection portion connected to the electronic device, and the second terminal has two pressure contact portions a second joint portion; and a second connection portion connected to the electronic device, wherein one pressure contact portion of the first joint portion is pressure contacted to a first signal line of a first twisted pair cable; Another pressure contact portion of one joint portion is pressure contacted to the first signal wire of the second twisted pair cable, and one pressure contact portion of the second joint portion is pressure contacted to the second signal wire of the first twisted pair cable. , the other pressure contact portion of the second joint portion is pressure contacted to the second signal line of the second twisted pair cable.

ADVANTAGE OF THE INVENTION The communication connector which concerns on this invention can connect a twist pair cable to an electronic device, comprising a daisy chain with two terminals, a 1st terminal and a 2nd terminal. ADVANTAGE OF THE INVENTION According to the communication connector which concerns on this invention, it is effective in being able to implement|achieve size reduction, while comprising a daisy chain.

FIG. 1 is a diagram showing a communication connector and twisted pair cable according to the embodiment. FIG. 2 is an exploded perspective view of the communication connector according to the embodiment. FIG. 3 is a perspective view of a first terminal according to the embodiment; FIG. 4 is a diagram for explaining the cutting process of the embodiment. FIG. 5 is a diagram showing a twisted pair cable before being connected to a communication connector. FIG. 6 is a diagram showing a twisted pair cable connected to a communication connector.

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.

[Embodiment]
An embodiment will be described with reference to FIGS. 1 to 6. 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 an exploded perspective view of the communication connector according to the embodiment, FIG. 3 is a perspective view of the first terminal according to the embodiment, and FIG. 5 shows a twisted pair cable before being connected to a communication connector; and FIG. 6 shows a twisted pair cable connected to a communication connector.

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. The electric wire bundle 100 of this embodiment has a trunk line 110 and branch lines 120 to form a daisy chain. The trunk line 110 is configured by bundling a plurality of communication lines W. As shown in FIG. 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 120 is a part of the communication line W branched from the trunk line 110 .

A plurality of communication lines W have a first twisted pair cable 10 and a second twisted pair cable 20 . Twisted pair cables 10 and 20 are formed by cutting one twisted pair cable TW (FIG. 4). The first twisted pair cable 10 has a trunk portion 10a and a branch portion 10b. The second twisted pair cable 20 has a trunk portion 20a and a branch portion 20b. The trunk portions 10 a and 20 a are portions that constitute the trunk line 110 . The branch line portions 10 b and 20 b are portions that protrude from the trunk line 110 .

The trunk line portion 10 a extends from the branch line portion 10 b toward one side along the axial direction of the trunk line 110 . The trunk line portion 20 a extends from the branch line portion 20 b toward the other side along the axial direction of the trunk line 110 . That is, the trunk portion 10a and the trunk portion 20a are routed in opposite directions. Twisted pair cables 10 and 20 connect electronic device 200 with other electronic devices and communication devices.

A first twisted pair cable 10 has a first signal line 11 and a second signal line 12 . The first twisted pair cable 10 is formed by twisting a first signal line 11 and a second signal line 12 spirally. A second twisted pair cable 20 has a first signal line 21 and a second signal line 22 . The second twisted pair cable 20 is formed by spirally twisting a first signal line 21 and a second signal line 22 . The illustrated first signal lines 11, 21 and second signal lines 12, 22 are coated wires.

The first signal line 11 and the first signal line 21 are formed by cutting one signal line of the twisted pair cable TW. The second signal line 12 and the second signal line 22 are formed by cutting another signal line of the twisted pair cable TW. One of the first signal lines 11 and 21 and the second signal lines 12 and 22 is a positive signal line, and the other of the first signal lines 11 and 21 and the second signal lines 12 and 22 is a negative signal line. signal line. For example, when the first signal lines 11 and 21 are positive signal lines, the second signal lines 12 and 22 are negative signal lines.

Communication connector 1 is a connector that connects first twisted pair cable 10 and second twisted pair cable 20 to electronic device 200 . Electronic device 200 communicates with other devices via twisted pair cables 10 and 20 . The electronic device 200 has, for example, a fitting portion into which the communication connector 1 is inserted. The communication connector 1 fits into the electronic device 200 in the direction indicated by the arrow AR1 in FIG. A pair of terminals 201 and 202 are arranged in the fitting portion of the electronic device 200 .

In the following description, the direction in which the communication connector 1 is fitted to the electronic device 200 will be referred to as "first direction X". The first direction X is the axial direction of the communication connector 1 . Moreover, the width direction of the communication connector 1 is called "second direction Y". The second direction Y is a direction orthogonal to the first direction X. Moreover, the height direction of the communication connector 1 is called the "third direction Z." A third direction Z is a direction orthogonal to both the first direction X and the second direction Y. As shown in FIG.

As shown in FIGS. 1 and 2, communication connector 1 has connector housing 2 and cover 3 . As shown in FIG. 2, the communication connector 1 has a first terminal 4 and a second terminal 5. As shown in FIG. The first terminal 4 and the second terminal 5 are inserted into holes of the connector housing 2 and held by the connector housing 2 . The first terminal 4 and the second terminal 5 are arranged along the second direction Y inside the connector housing 2 . The cover 3 engages the connector housing 2 along the third direction Z and cooperates with the connector housing 2 to accommodate the first terminal 4 and the second terminal 5 . The first terminal 4 and the second terminal 5 are made of a conductive metal plate such as copper.

As shown in FIGS. 2 and 3 , the first terminal 4 has a first connection portion 41 and a first joint portion 42 . The first connection portion 41 and the first joint portion 42 are integral. The first connection portion 41 is a portion connected to a terminal of the electronic device 200 . The illustrated first connecting portion 41 is a female connecting portion having a cylindrical shape. The first connecting portion 41 is inserted into the hole of the connector housing 2 . A male terminal 201 (see FIG. 1) of the electronic device 200 is inserted into the first connection portion 41 .

The first joint portion 42 is a portion electrically connected to the two first signal lines 11 and 21 . The first joint portion 42 connects the first signal lines 11 and 21 to the first connection portion 41 . When the first signal lines 11 and 21 are positive signal lines, the first terminal 4 is connected to the positive terminal of the electronic device 200 . The first joint part 42 further functions as a relay part that relays signals between the two first signal lines 11 and 21 . The first joint portion 42 protrudes in the third direction Z with respect to the first connection portion 41 . That is, the first terminal 4 is bent so that the first connection portion 41 and the first joint portion 42 are perpendicular to each other. The first joint part 42 is formed in a flat plate shape and extends along the second direction Y. As shown in FIG.

The first joint portion 42 has a first pressure contact portion 43 and a second pressure contact portion 44 . The first pressure contact portion 43 and the second pressure contact portion 44 are pressure contact blades formed on the first joint portion 42 . The first pressure contact portion 43 and the second pressure contact portion 44 are arranged along the second direction Y. As shown in FIG. The pressure contact portions 43 and 44 extend along the third direction Z from the distal end of the first joint portion 42 toward the proximal end. The inlet portions of the pressure contact portions 43 and 44 have an inviting tapered shape.

The second terminal 5 has a second connection portion 51 and a second joint portion 52 . The second connection portion 51 and the second joint portion 52 are integral. The shape of the second terminal 5 is the same as or substantially the same as the shape of the first terminal 4 . The second connection portion 51 is a portion connected to a terminal of the electronic device 200 . The illustrated second connecting portion 51 is a female connecting portion having a cylindrical shape. A male terminal 202 (see FIG. 1) of the electronic device 200 is inserted into the second connection portion 51 .

The second joint portion 52 is a portion electrically connected to the two second signal lines 12 and 22 . The second joint portion 52 connects the second signal lines 12 and 22 to the second connection portion 51 . When the second signal lines 12 and 22 are negative signal lines, the second terminal 5 is connected to the negative terminal of the electronic device 200 . The second joint part 52 further functions as a relay part that relays signals between the two second signal lines 12 and 22 . The second joint portion 52 protrudes in the third direction Z with respect to the second connection portion 51 . That is, the second terminal 5 is bent so that the second connection portion 51 and the second joint portion 52 are perpendicular to each other. The second joint portion 52 is formed in a flat plate shape and extends along the second direction Y. As shown in FIG.

The second joint portion 52 has a first pressure contact portion 53 and a second pressure contact portion 54 . The first pressure contact portion 53 and the second pressure contact portion 54 are pressure contact blades formed on the second joint portion 52 . The first pressure contact portion 53 and the second pressure contact portion 54 are arranged along the second direction Y. As shown in FIG. The pressure contact portions 53 and 54 extend along the third direction Z from the distal end of the second joint portion 52 toward the proximal end. The inlet portions of the pressure contact portions 53 and 54 have an inviting tapered shape.

In the illustrated communication connector 1 , the first joint portion 42 and the second joint portion 52 are arranged along the second direction Y. As shown in FIG. That is, the two pressure contact portions 43 and 44 of the first joint portion 42 and the two pressure contact portions 53 and 54 of the second joint portion 52 are aligned in the second direction Y.

A procedure for connecting the communication connector 1 to the twisted pair cables 10 and 20 will be described with reference to FIGS. 4 to 6. FIG. FIG. 4 is a diagram explaining a cutting process for cutting the twisted pair cable TW. FIG. 4 shows the branch wire 120 of the twisted pair cable TW before being cut. A branch line 120 of the twisted pair cable TW is pulled out from the trunk line 110 so as to form a U shape. In the cutting step, the operator cuts the distal end portion 120t of the branch wire 120 . Thereby, the twisted pair cable TW is divided into the first twisted pair cable 10 and the second twisted pair cable 20 as shown in FIG.

As shown in FIG. 5, in the first twisted pair cable 10, the first signal line 11 and the second signal line 12 are maintained in a twisted state. Also, in the second twisted pair cable 20, the first signal line 21 and the second signal line 22 are maintained in a twisted state.

The pressing process will be described with reference to FIG. The press-contacting step is a step of press-contacting the first twisted pair cable 10 and the second twisted pair cable 20 against the first joint portion 42 and the second joint portion 52 of the communication connector 1 . As shown in FIG. 6 , the first signal lines 11 and 21 are pressed against the first joint portion 42 . More specifically, the operator presses the first signal wire 11 against the first pressure contact portion 43 and presses the first signal wire 21 against the second pressure contact portion 44 . Core wires of the two first signal lines 11 and 21 are electrically connected via the first joint portion 42 . The order of arrangement of the first pressure contact portion 43 and the second pressure contact portion 44 in the first joint portion 42 is not limited to the illustrated order. In other words, the two first signal lines 11 and 21 may be press-contacted to different press-contact portions of the first joint portion 42 .

The second signal lines 12 and 22 are pressed against the second joint portion 52 . More specifically, the operator presses the second signal wire 12 against the first pressure contact portion 53 and presses the second signal wire 22 against the second pressure contact portion 54 . Core wires of the two second signal lines 12 and 22 are electrically connected via the second joint portion 52 . The order of arrangement of the first pressure contact portion 53 and the second pressure contact portion 54 in the second joint portion 52 is not limited to the illustrated order. In other words, the two second signal lines 12 and 22 may be pressed against different press-contact portions of the second joint portion 52 .

After completing the press-fitting process, the cover 3 is attached to the connector housing 2 . The cover 3 covers the first joint portion 42 and the second joint portion 52 and protects the connections between the twisted pair cables 10 and 20 and the joint portions 42 and 52 . The cover 3 may have holding portions that hold the twisted pair cables 10 and 20 individually. When the cover 3 is attached to the connector housing 2, the assembly of the communication connector 1 to the twisted pair cables 10, 20 is completed.

As described above, the communication connector 1 of this embodiment has the first terminal 4 , the second terminal 5 and the connector housing 2 . The first terminal 4 and the second terminal 5 are terminals connected to the electronic device 200 . Connector housing 2 holds first terminal 4 and second terminal 5 . The first terminal 4 has a first joint portion 42 having two pressure contact portions 43 and 44 and a first connection portion 41 connected to the electronic device 200 . The second terminal 5 has a second joint portion 52 having two pressure contact portions 53 and 54 and a second connection portion 51 connected to the electronic device 200 .

The first pressure contact portion 43 of the first joint portion 42 is pressure contacted to the first signal line 11 of the first twisted pair cable 10 , and the second pressure contact portion 44 of the first joint portion 42 is pressure contacted to the first signal line 11 of the second twisted pair cable 20 . The wire 21 is press-contacted. The first pressure contact portion 53 of the second joint portion 52 is pressure contacted to the second signal line 12 of the first twisted pair cable 10 , and the second pressure contact portion 54 of the second joint portion 52 is pressure contacted to the second signal line 12 of the second twisted pair cable 20 . Wire 22 is press-contacted.

In the communication connector 1 of this embodiment, the first terminal 4 connects the two first signal lines 11 and 21 to each other and also to the electronic device 200 . Also, the second terminal 5 connects the two second signal lines 12 and 22 to each other and also to the electronic device 200 . Therefore, the number of terminals is reduced, and the size of the communication connector 1 can be reduced.

In the communication connector 1 of this embodiment, the first connection portion 41 and the second connection portion 51 are fitted along the first direction X to the electronic device 200 . The first pressure contact portion 43 and the second pressure contact portion 44 of the first joint portion 42 are arranged along the second direction Y orthogonal to the first direction X. As shown in FIG. The first pressure contact portion 53 and the second pressure contact portion 54 of the second joint portion 52 are arranged along the second direction Y. As shown in FIG. With such a configuration, the first twisted pair cable 10 and the second twisted pair cable 20 can be pulled out from the connector housing 2 in parallel. Therefore, the size of the communication connector 1 can be reduced.

Moreover, due to the above configuration, the twisted shape of the first twisted pair cable 10 and the second twisted pair cable 20 is less likely to be disturbed. For example, there is no need for an operator to bend the twisted pair cables 10 and 20 in the pressure welding process. Therefore, the twisted shape of the twisted pair cables 10 and 20 is less likely to be disturbed. Therefore, the communication connector 1 of this embodiment can improve the communication performance.

[Modified example of embodiment]
The direction in which the first pressure contact portion 43 and the second pressure contact portion 44 are arranged in the first joint portion 42 is not limited to the second direction Y. The first pressure contact portion 43 and the second pressure contact portion 44 may be arranged along the first direction X or the third direction Z, for example. The direction in which the first pressure contact portion 53 and the second pressure contact portion 54 are arranged in the second joint portion 52 may be the first direction X or the third direction Z.

The first terminal 4 and the second terminal 5 may be male terminals. The first terminal 4 and the second terminal 5 may be connected to twisted pair cables 10 and 20 that are routed independently. In other words, the trunk portions 10a and 20a of the twisted pair cables 10 and 20 do not have to be combined with other communication lines W as the wire bundle 100 .

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

Reference Signs List 1 communication connector 2 connector housing 3 cover 4 first terminal 5 second terminal 10: first twisted pair cable 10a: main line portion 10b: branch line portion 11: first signal line 12: second signal line 20: second Twisted pair cable 20a: trunk line portion 20b: branch line portion 21: first signal line 22: second signal line 41: first connection portion 42: first joint portion 43: first pressure contact portion 44: second Pressure contact part 51: Second connection part 52: Second joint part 53: First pressure contact part 54: Second pressure contact part 100: Wire bundle 110: Trunk line 120: Branch line 200: Electronic device W: Communication line WH: wire harness, TW: twisted pair cable X: first direction, Y: second direction, Z: third direction

Claims (2)

a first terminal connected to an electronic device;
a second terminal connected to the electronic device;
a connector housing that holds the first terminal and the second terminal;
with
The first terminal has a first joint portion having two pressure contact portions and a first connection portion connected to the electronic device,
The second terminal has a second joint portion having two pressure contact portions and a second connection portion connected to the electronic device,
One pressure contact portion of the first joint portion is pressure contacted to the first signal wire of the first twisted pair cable, and another pressure contact portion of the first joint portion is pressure contacted to the first signal wire of the second twisted pair cable. is,
One pressure contact portion of the second joint portion is pressure contacted to the second signal line of the first twisted pair cable, and another pressure contact portion of the second joint portion is pressure contact to the second signal line of the second twisted pair cable. A communication connector characterized by being press-contacted to the the first connection portion and the second connection portion are fitted to the electronic device along the first direction;
The two pressure contact portions of the first joint portion are arranged along a second direction orthogonal to the first direction,
The communication connector according to claim 1, wherein the two pressure contact portions of the second joint portion are arranged along the second direction.

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