CN104798261A - RJ45 connector comprising strain relief arrangement - Google Patents

Abstract

The invention relates to an RJ45 connector (1) comprising a connector housing (2), which has an insertion opening (5) for inserting a cable (6), and a strain relief arrangement (10), which is designed to clamp the cable (6) on the outside of the connector housing (2), wherein said strain relief arrangement (10) comprises a first and a second clamping element (11, 12), which are arranged on the connector housing (2) on sides of the insertion opening (5) that are opposite one another in the circumferential direction, wherein the first clamping element (11) is held on the connector housing (2) such that it can pivot in the direction of the second clamping element (12), wherein the first clamping element (11) has an arc shape on the side thereof facing the second clamping element (12), and the strain relief means (10) has fixing means (16, 17) with which the first clamping element (11) can be fixed in a plurality of pivot positions relative to the second clamping element (12).

Description

RJ45 plug with stress relief

Technical Field

The invention relates to an RJ45 plug having a plug housing with an insertion opening for inserting an electrical line and having a strain relief for clamping the electrical line on the outer side of the plug housing.

Background

RJ45 plugs of this type are used to connect data lines, particularly according to the twisted pair wiring standard. A data line according to this standard contains eight individual conductors which can be connected to corresponding sockets via RJ45 plugs. In this regard, individual conductors of the wires must be contacted within the RJ45 plug.

In order to protect the RJ45 plug, strain relief devices are usually provided, with which the electrical line can be held on the RJ45 plug in a co-clamping manner. Therefore, these conductors are not disconnected from the connection point under tensile stress, thereby preventing damage to the RJ45 plug due to mechanical loads.

In practice, however, it has proven problematic to reliably prevent damage to the RJ45 plug, since wires with different outer diameters are used, which makes reliable stress relief more difficult. This problem is encountered by using different RJ45 plugs with matching strain relief devices. The familiar strain relief devices are not able to clamp wires having different outer diameters in the same manner and/or make installation of RJ45 plugs difficult.

It is also difficult for such RJ45 plugs to connect these wires to corresponding contact points. It is therefore desirable to have RJ45 plugs that allow simplified connection to electrical wires.

Disclosure of Invention

Starting from the prior art, the object of the invention is to provide an RJ45 plug of the type mentioned above, which achieves a simple and reliable clamping of wires with different diameters and is easy to install.

This object is achieved according to the invention by the features of the independent claims. Advantageous embodiments of the invention are specified in the dependent claims.

According to the invention, the above object is achieved by an RJ45 plug having a plug housing with an insertion opening for inserting a cable and a strain relief for clamping the cable on the outside of the plug housing, wherein the strain relief comprises a first clamping part and a second clamping part which are arranged on opposite sides of the insertion opening in the plug housing in the circumferential direction, the first clamping part being held on the plug housing so as to be rotatable in the direction of the second clamping part, the first clamping part having an arc on its side facing the second clamping part, and the strain relief having a fixing device with which the first clamping part can be fixed in a plurality of rotational positions relative to the second clamping part.

The basic idea of the invention is to adjust the strain relief by turning the first clamping part in order to clamp wires having different diameters. This is achieved by a plurality of rotational positions in which wires with different diameters can be gripped. In this regard, the curvature of the first clamping part contributes to a reliable clamping, since the same type of contact region is formed between the first clamping part and the electrical line. The first clamping part is preferably designed such that the force is transmitted perpendicularly from the first clamping part to the electrical line. The wires thus each abut tangentially against the first clamping part.

The second clamping part can be held firmly on the plug housing or can be rotated correspondingly to the first clamping part. In the latter case, the clamping is achieved by rotation of the clamping parts relative to each other. In this case, the second clamp member may also have an arc shape like the first clamp member.

The strain relief may be arranged integrally on the plug housing as a unit. Alternatively, it is also possible for the strain relief to be formed from a plurality of components and/or assemblies which are arranged separately on the plug housing.

In an advantageous embodiment of the invention, RJ45 is modified in such a way that the plug housing has a first housing shell and a second housing shell, and that the first holding means is held on the first housing shell and the second holding means is held on the second housing shell. The electrical line can thus be easily introduced into the plug housing, since the penetration stress relief is dispensed with. In order to introduce the electrical line into the plug housing, the strain relief can therefore be in the open state and only close around the electrical line when connected, so that the electrical line is clamped in the closed state of the plug housing. The stress relief means can be closed for clamping the electrical line only after the housing shells have been joined. The insertion opening is particularly preferably arranged in the connecting region of the two housing shells. In this case, the insertion opening can be embodied as a recess in any of the housing shells, which recess is closed when the housing shells are connected. The inlet opening can also be formed by two corresponding recesses on the two housing shells when the housing shells are connected. In this way, it is also not necessary to pass the electrical line through the insertion opening into the plug housing, since the insertion opening is closed only after the electrical line has been inserted. The connection of the wires of the cable to the circuit board of the RJ45 plug, which is preferably fixedly mounted on the plug housing, particularly preferably on the second housing shell, can therefore also be easily implemented. In another alternative embodiment, the printed circuit board can be a separate component that is not fixedly connected to the plug housing. Accordingly, it is also possible to connect a plurality of lines of the electrical line to the circuit board outside the plug housing, then to introduce the circuit board into the plug housing, and then to connect the housing shells to one another.

In an advantageous embodiment of the invention, the RJ45 plug is modified in such a way that the first housing shell and the second housing shell are held on one another in such a way that they can be rotated in the region opposite the insertion opening. A fully installed RJ45 plug for use with or connection to a wire may thereby be provided. The opening or closing of the plug housing can be effected by a rotation of the housing shell accordingly. Preferably, the manufacture and supply of the RJ45 plug is done in such a way that the plug housing is open. It is further preferred that the two housing shells are locked in the open position. Thus, the installation of the RJ45 plug can be carried out with little time consumption.

In a particularly preferred embodiment, the two housing shells have a connecting element, by means of which the two housing shells can be connected to one another after rotation. This connecting element can be realized in different ways, for example by corresponding recesses and engaging elements. The connecting element is preferably embodied as a snap-lock connection. The connecting part is particularly preferably designed in such a way that the connection between the two housing shells can be released.

In an advantageous embodiment of the invention, the RJ45 plug is modified in that the first clamping part is embodied with an engagement element for engaging in the wire sheath on its side facing the second clamping part. The engagement member optimizes the securing of the wire within the strain relief device. The engagement means can be embodied in different ways, for example in the form of tabs or hooks.

In an advantageous embodiment of the invention, the RJ45 plug is modified in that the first clamping part is designed with a plurality of engagement parts, and the engagement parts are arranged at intervals in the plug-in direction of the electrical line. Thus, wires having different diameters can be reliably clamped in the strain relief means in the same manner, since the engagement members can engage in the wires in different rotational positions, respectively.

In an advantageous embodiment of the invention, the RJ45 plug is modified in that the second clamping part is embodied with an engagement part for engaging in the wire sheath on its side facing the first clamping part. The engagement member optimizes the securing of the wire within the strain relief device. The engagement means can be embodied in different ways, for example in the form of tabs or hooks.

In a particularly advantageous embodiment of the invention, the RJ45 plug is modified in that the first clamping part has an engagement means for engaging in the wire sheath on its side facing the second clamping part and the second clamping part has an engagement means on its side facing the first clamping part.

In an advantageous embodiment of the invention, the RJ45 plug is modified in such a way that the engagement means are embodied as a plurality of pins. These pegs can simply be placed in any position in order to facilitate the fixation of the wires within the strain relief.

In an advantageous embodiment of the invention, the RJ45 plug is modified in that the first clamping part has a detent mechanism for engagement with a corresponding counter detent mechanism of the strain relief, wherein the engagement position defined by the detent mechanism and the counter detent mechanism corresponds to the rotational position. By means of the positioning mechanism, the strain relief can be easily adjusted to wires having different outer diameters. The design and arrangement of the positioning means and the corresponding positioning means can be chosen arbitrarily. For example, the corresponding positioning means can be formed on or in the plug housing.

In an advantageous embodiment of the invention, the RJ45 plug is modified in such a way that the corresponding latching means are formed on the second holding part. That is, the bite is facilitated only by the two gripping members. No additional parts are necessary, which results in a simple construction of the strain relief device. The installation of the wires on the RJ45 plug is also simplified because there is no additional or corresponding positioning mechanism to hinder the installation of the wires. The second clamping part can be held on the plug housing in a fixed manner or also in a rotatable manner.

In an advantageous embodiment of the invention, the RJ45 plug is modified in that the first clamping part and/or the second clamping part have opposing side walls which extend in the direction of the respective other clamping part, and the positioning means and/or the counter-positioning means are formed on the side walls. Thereby, the two clamping members are caused to completely enclose the electric wire and to be reliably positioned and held.

In an advantageous embodiment of the invention, the RJ45 plug is modified in such a way that the first clamping part and/or the second clamping part each have a convex cross section on its side facing the other clamping part. By means of this protruding cross section, the individual clamping members are adjusted to the circumferential surface of the electric wire, so that a large contact area of the first clamping member and/or the second clamping member with the electric wire is obtained. The wire is also centered in the strain relief due to this convex shape. This enables the electric wire to be reliably clamped in the strain relief device.

Drawings

The present invention will be further described with reference to preferred embodiments in conjunction with the accompanying drawings.

Fig. 1 shows, in perspective view, from the side of a strain relief, an RJ45 plug with a plug housing and a strain relief in the open state,

figure 2 shows the RJ45 plug of figure 1 in a side view,

figure 3 shows the RJ45 plug in the closed state at the angle of figure 1 with a small diameter wire inserted,

fig. 4 shows, in a partial side sectional view, an RJ45 plug according to fig. 3 with a plugged-in wire,

figure 5 shows the RJ45 plug in the closed state at the angle of figure 1 with an inserted wire of medium diameter,

fig. 6 shows, in a partial side sectional view, an RJ45 plug according to fig. 5 with a plugged-in wire,

figure 7 shows the RJ45 plug in the closed state at the angle of figure 1 with a large diameter wire inserted,

fig. 8 shows, in a partial side sectional view, the RJ45 plug according to fig. 7 with an inserted electrical line.

Detailed Description

Fig. 1 to 8 show an RJ45 plug 1 according to a preferred embodiment.

The RJ45 plug 1 comprises a plug housing 2 with an upper first housing shell and a lower second housing shell 3,4, wherein between the two housing shells 3,4, at the end side of the plug housing 2, an insertion opening 5 for the insertion of an electrical line 6 is formed. The inlet openings 5 are arranged in the connecting region of the two housing shell parts 3,4 and are embodied as two corresponding recesses in the two housing shell parts 3, 4. The first and second housing shell parts 3,4 are held on one another in such a way that they can be rotated in the region opposite the insertion opening 5. Accordingly, with the housing shells 3,4 connected, an inlet opening 5 is formed.

Furthermore, the two housing shells 3,4 are embodied with connecting elements 7, 8. In this embodiment, the connecting elements 7, 8 have two latching crosspieces 7 formed on the side of the second housing shell 4 and two latching openings 8 formed on the side of the first housing shell 3, with which the two housing shells 3,4 can be connected to one another in a snap-in manner after they have been pivoted toward one another.

Furthermore, the RJ45 plug 1 has a strain relief device 10 with a first and a second clamping part 11,12 which are arranged on opposite sides of the insertion opening 5 on the outside of the plug housing 2 in the circumferential direction. The first clamping member 11 is held on the first housing shell 3 so as to be rotatable in the direction of the second clamping member 12, while the second clamping member 12 is fixedly arranged on the second housing shell 4.

The first clamping part 11 has an arc shape on its side facing the second clamping part 12, wherein the arc shape is configured in a concave manner in the longitudinal direction of the electrical wire 6. Furthermore, the first clamping part 11 is embodied such that it has a convex cross section on its side facing the second clamping part 12. The clamping parts 11,12 have, on their side facing the respective other clamping part 12,11, in each case a peg 13 as an engagement part for engagement into the sheath of the electrical line 6. In this regard, the first clamping member 11 has a plurality of spikes 13 that are arranged in a spaced manner in the direction of introduction/longitudinal direction of the electric wire 6, i.e., along an arc.

The first and second clamping parts 11,12 are each embodied such that they have two side walls 14,15 which extend toward the other clamping part 12, 11. The side walls 14,15 are arranged and embodied such that they overlap one another more and more when the first holding part 11 is rotated in the direction of the second holding part 12. On the side walls 14,15, respective positioning means 16 or counter-positioning means 17 are formed, with which the first clamping part 11 can be fixed in a plurality of rotational positions relative to the second clamping part 12. These rotational positions are determined by the plurality of fixed positions of the first clamping member 11. In this connection, the positioning means 16 or the counter-positioning means 17 are embodied as corresponding projections 16,17, wherein a plurality of projections 16 are provided on the first clamping part 11 at a distance in the direction of rotation in order to achieve different fixing positions. These projections 16,17 have a triangular profile in order to facilitate easy passage of the projections 16,17 over each other in the event of a rotation of the first clamping member 11 towards the second clamping member 12 and to facilitate a secure fixing of the clamping members 11,12 to each other in opposite directions. Thus, the protruding members 16,17 act as fixing means for the stress relieving means 10.

The installation of the RJ45 plug 1 on the wire 6, which is a data line having eight individual conductors according to the twisted pair standard, is described below. For this purpose, the plug housing 2 is first opened by pivoting the first housing shell 3 away from the second housing shell 4, thereby exposing the interior of the plug housing 2. The first clamping member 11 is rotated upward simultaneously with the rotation of the first housing shell 3.

The RJ45 plug 1 comprises a circuit board, not shown in the figure, for connecting the conductors of the wires 6. The circuit board is fixedly held on the second housing shell 4. To establish the connection, the electrical line 6 is placed on the second clamping part 12, so that the conductor reaches into the plug housing 2. Where the wires are connected to the circuit board.

Subsequently, the plug housing 2 is closed by rotating the housing shells 3,4 towards each other and connected to each other by the connecting parts 7, 8. While closing the lead-in opening 5 around the electric wire 6. It is not necessary to thread the electric wire 6 into the lead-in opening 5 and the stress relief means 10.

In order to relieve the stress, the electrical cable 6 is clamped on the outside of the plug housing 5. In this connection, the first clamping part 11 is rotated towards the second clamping part 12, wherein the projections 16,17 of the side walls 14,15 pass over or catch each other, whereby different rotational positions or thus corresponding fixing positions can be taken up. The first clamping part 11 is rotated towards the second clamping part 12 until the first clamping part presses the electric wire 6 towards the second clamping part 12 to such an extent that the spikes 13 of the two clamping parts 11,12 engage in the sheath of the electric wire 6 and clamp the electric wire 6 securely between the two clamping parts 11, 12. In this connection, it is possible, as shown in fig. 3,4 or 5, 6 or 7, 8, to take up different fixing positions by means of the first clamping part 11, resulting in different wires 6 having different wire diameters being clamped in the same way.

Description of the reference numerals

RJ45 plug 1

Plug housing 2

First housing shell 3

Second housing shell 4

Lead-in opening 5

Electric wire 6

Connecting part, detent rail 7

Connecting part, engaging opening 8

Stress relief device 10

First clamping member 11

Second clamping member 12

Nail, engaging member 13

Side wall 14

Side wall 15

Fixing device, positioning mechanism, projection 16

Fixing device, corresponding positioning mechanism, projection 17

Claims (11)

1. An RJ45 plug (1), the plug having: a plug housing (2) having an inlet opening (5) for introducing an electrical line (6); a strain relief device (10) for clamping the electrical line (6) on the outside of the plug housing (2),

wherein,

the strain relief device (10) comprises first and second clamping parts (11,12) which are arranged on the plug housing (2) on opposite sides of the insertion opening (5) in the circumferential direction,

the first clamping member (11) is rotatably held on the plug housing (2) in the direction of the second clamping member (12),

the first clamping part (11) has an arc shape on its side facing the second clamping part (12),

the strain relief device (10) has a fastening device (16,17) by means of which the first clamping part (11) can be fastened in a plurality of rotational positions relative to the second clamping part (12).

2. RJ45 plug (1) according to claim 1,

it is characterized in that the preparation method is characterized in that,

the plug housing (2) has a first and a second housing shell (3,4), and the first clamping part (11) is held on the first housing shell (3) and the second clamping part (12) is held on the second housing shell (4).

3. RJ45 plug (1) according to claim 2,

it is characterized in that the preparation method is characterized in that,

the first and second housing shell parts (3,4) are held on each other in a manner such that they can be rotated in the region opposite the insertion opening (5).

4. RJ45 plug (1) according to any one of the preceding claims,

it is characterized in that the preparation method is characterized in that,

the first clamping part (11) is designed such that it has an engagement part (13) on its side facing the second clamping part (12) for engaging in the outer skin of the electrical line (6).

5. RJ45 plug (1) according to claim 4,

it is characterized in that the preparation method is characterized in that,

the first clamping member (11) is implemented with a plurality of the engagement members (13), and the engagement members (13) are disposed at intervals in the direction of introduction of the electric wire (6).

6. RJ45 plug (1) according to any one of the preceding claims,

it is characterized in that the preparation method is characterized in that,

the second clamping part (12) is embodied in such a way that it has, on its side facing the first clamping part (11), the engagement part (13) for engaging in the outer shell of the electrical line (6).

7. RJ45 plug (1) according to any one of claims 4 to 6,

it is characterized in that the preparation method is characterized in that,

the engagement means are embodied as spikes (13).

8. RJ45 plug (1) according to any one of the preceding claims,

it is characterized in that the preparation method is characterized in that,

the first clamping part (11) has a positioning means (16) for engaging with a corresponding positioning means (17) of the strain relief device (10), wherein,

the fixed position defined by the positioning means (16) and the corresponding positioning means (17) corresponds to the rotational position.

9. RJ45 plug (1) according to claim 8,

it is characterized in that the preparation method is characterized in that,

the counter-positioning means (17) are configured on the second clamping part (12).

10. RJ45 plug (1) according to one of claims 8 or 9,

it is characterized in that the preparation method is characterized in that,

the first and/or second clamping part (11,12) has opposing side walls (14,15) which extend in the direction of the other clamping part (12,11) and the positioning means (16) and/or the corresponding positioning means (17) are formed on the side walls (14, 15).

11. RJ45 plug (1) according to any one of the preceding claims,

it is characterized in that the preparation method is characterized in that,

the first and/or second clamping part (11,12) has a convex cross section on its side facing the other clamping part (12, 11).