WO2024033051A1 - Angled multi-pole plug-in connector - Google Patents

Abstract

The invention proposes an angled plug-in connector (100) for fastening to a shielded line (200). The plug-in connector (100) has an upper housing part (110) and a lower housing part (120). The upper housing part (110) has a hole (130) which is designed to receive the line (200), wherein the hole (130) is designed to permit a pivoting movement of the upper housing part (110) about the line (200) and a displacement of the upper housing part (110) along the line (200). The lower housing part (120) is designed to receive at least one plug-in contact (140) which is attached to one end (210) of the line (200), and the plug-in connector (100) has a latching mechanism (150) which is designed to connect the upper housing part (110) to the lower housing part (120).

Description

ANGLED MULTIPLE CONNECTOR

Technical area

The present invention relates to an angled plug connector for attachment to a shielded cable. The invention also relates to a method for attaching an angled plug connector to a shielded cable.

State of the art

There is now an increased demand for charging cables and the associated connectors, particularly in the area of electromobility. In order to withstand environmental influences and enable outdoor charging, these must meet the highest tightness requirements. The connectors can preferably be designed with an angled cable outlet in order to ensure space-saving laying of the cable and comfortable handling. However, the assembly of the plug on the cable, especially with the angled cable outlet on a multi-pole cable, has not yet been possible in a satisfactory manner. There is therefore a need for an improved angled connector for attachment to a shielded cable, which enables a simplified assembly process.

Description of the invention

An object of the invention is therefore to provide an improved angled connector which can be easily attached to a cable.

The task is solved by the subjects of the independent claims. Advantageous developments of the invention are specified in the dependent claims, the description and the accompanying figures.

The embodiments described apply equally to the angled one

Connector for attaching to a shielded cable and the method for Attaching an angled connector to a shielded cable. Synergistic effects can arise from various combinations of the embodiments, even if they are not described in detail.

Furthermore, it should be pointed out that all embodiments of the present invention relating to a method can be carried out in the sequence of steps described. Nevertheless, this does not have to be the only possible and necessary order of steps in the procedure. The methods described herein may be carried out in a different order of the steps disclosed without departing from the corresponding embodiment of the method, unless expressly stated to the contrary below.

According to one aspect of the invention, an angled connector is proposed for attachment to a shielded cable. The connector has an upper housing part and a lower housing part. The upper housing portion has a bore configured to receive the conduit, the bore being configured to permit pivotal movement of the upper housing portion about the conduit and displacement of the upper housing portion along the conduit. The lower housing part is designed to accommodate at least one plug contact attached to one end of the line. Furthermore, the connector has a latching mechanism which is designed to connect the upper housing part to the lower housing part.

The connector therefore has a two-part outer housing, in which an advantageous separation between the two housing parts allows for easy assembly of the components within the connector and easy assembly on a line. The design of the connector can advantageously meet high or highest tightness requirements, such as IP6K9K. This is also possible with a rectangular or almost rectangular cable outlet of preferably 90 degrees. The two-part design of the connector, in which the upper housing part has a hole at its rear end as a passage for the cable, and can be moved on the cable with the cable inserted and pivoted laterally to the cable, allows the connector to be installed easily and safely the management is guaranteed. The bore can have a circular diameter, which is slightly larger than the outer diameter of the line to be equipped. This makes moving and pivoting possible. Alternatively, you can also Bore also have other cross sections, such as an elongated or oval cross section. The lower housing part is designed so that it can be tightly connected to a side of the upper housing part opposite the bore. For this purpose, a locking mechanism is provided between the upper housing part and the lower housing part. Between the lower housing part and the upper housing part there is a cavity for receiving at least one plug contact, which is attached to one end of the line. The plug contact is attached in the lower half of the housing and preferably protrudes from the lower half of the housing in order to be able to establish electrical contact when connecting the plug connector. Despite its angled cable outlet, the connector is easy to assemble and attach to the cable and ensures a high level of tightness against the ingress of liquids such as water. It is preferably a multi-pole connector with a large number of plug contacts that can be attached to the individual wires of the cable. In a preferred embodiment, it is a plug connector that is intended for use in the high-voltage range and/or that is designed for operation with alternating current. Advantageously, the connector can be provided with a shield for use with shielded cables. The connector can advantageously be used in all multi-part connectors. Various variants of a plug-in system such as outlet direction, number of poles, shielding or pigtail can be implemented with a plug-in connector according to the invention.

In one embodiment of the invention, the plug connector has a sealing device which is designed to seal the upper housing part against the lower housing part. This sealing device can be attached to the connection point between the upper housing part and the lower housing part and can be designed as a circumferential rubber seal. Alternatively, a casting compound can be provided to seal the two housing parts together.

In one embodiment of the invention, the plug connector has a contact carrier which is designed to receive the at least one plug contact attached to the end of the line, and the contact carrier is designed to be received in the lower housing part. The contact carrier can function as a connection between the at least one plug contact and the lower housing part. The plug contacts attached to the cable can then be inserted into the contact carrier and the contact carrier is mounted in the lower housing part. This makes assembly particularly simplified when there are a large number of plug contacts in a multi-pole cable.

In one embodiment of the invention, the plug connector has a shield which is designed to be attached to the contact carrier with a first end and to be attached to the line with a second end. In order to ensure uninterrupted shielding of the conductors of the line, the connector in this embodiment of the invention can be provided with a shield that extends the shielding of the line over the area within the connector. The shield can be brought into contact with the shielding of the line and extend up to or beyond the contact carrier.

In one embodiment of the invention, the shield is designed in two parts, so that the line runs between the first part of the shield and the second part of the shield. The two-part design of the shield allows the shield to be easily installed on the cable that is already connected to the contact carrier. To do this, the two parts of the shield are attached to the cable from opposite sides and connected to each other.

In one embodiment of the invention, the shield is designed to be connected at the second end to a shield of the line. This ensures the electrical contact of the shield and thus the grounding of the shield of the connector and/or the shielding of the cable.

In one embodiment of the invention, the connector further comprises a seal which is designed to seal the line running through the bore of the upper housing part against the upper housing part, as well as a strain relief which is designed to prevent displacement when it is attached to the upper housing part the cable through the hole in the upper housing part. Furthermore, the connector has a sealing cap which is designed to be attached to the upper housing part and thereby attach the seal and the strain relief to the upper housing part. These components of the connector can be pushed onto the cable before the upper housing part is installed. After connecting the upper housing part with the lower housing part, the seal can then be pushed along the line and mounted in the hole of the upper housing part to seal the gap between the pipe and the upper housing part. The strain relief is then attached to the upper housing part, secured to the upper housing part using the sealing cap and clamped onto the cable.

In one embodiment of the invention, the plug connector is designed to bend the line running through the plug connector between the bore of the upper housing part and the plug contact attached to the end of the line by an angle of essentially 90°. Preferably, the end of the line is deflected within the connector by an angle between 45 degrees and 135 degrees, particularly preferably by an angle between 80 degrees and 100 degrees. Also particularly preferred is an embodiment of the plug connector in which the line is deflected through an angle of approximately 90 degrees.

In one embodiment of the invention, the bending of the line takes place essentially in the area of the shield of the connector, and the shield is designed to shield and/or stabilize the line running inside the shield without external insulation of the line. The line is redirected in the area in which the external insulation of the line has been removed and the individual conductors of a multi-pole conductor run freely next to each other. This area is particularly easy to redirect and can be stabilized and shielded against electromagnetic interference by the shield of the connector.

According to a further aspect of the invention, a method for attaching an angled plug connector according to one of the preceding embodiments to a shielded cable is proposed. The method has the steps of attaching the sealing cap, the strain relief and the seal to a shielded cable, and inserting the cable through the hole in the upper housing part into the upper housing part. Furthermore, the method has the steps of stripping one end of the line, folding over a shielding of the line, attaching at least one plug-in contact to the end of the line, mounting the at least one plug-in contact in the contact carrier, and attaching the shield to the first End on the contact carrier and the second end on the cable. Furthermore, the method has the steps of mounting the contact carrier in the lower housing part, pivoting the upper housing part around the upper housing part with the lower one to connect the housing part, and to mount the seal, the strain relief and the sealing cap on the upper housing part. This procedure enables particularly simple and secure attachment of the connector to the cable.

Thus, the advantages offered by one of the above aspects apply equally to all other aspects and vice versa.

Essentially, the invention relates to an angled connector for attachment to a shielded cable. The connector has an upper housing part and a lower housing part. The upper housing portion has a bore configured to receive the conduit, the bore being configured to permit pivotal movement of the upper housing portion about the conduit and displacement of the upper housing portion along the conduit. The lower housing part is designed to accommodate at least one plug contact attached to one end of the line, and the plug connector has a latching mechanism which is designed to connect the upper housing part to the lower housing part.

Further features, advantages and possible applications of the invention result from the following description of advantageous embodiments and the accompanying figures.

Short character description

An advantageous embodiment of the invention is explained below with reference to the accompanying figures.

1 shows a schematic representation of a connector during a step of an assembly process on a line according to an embodiment of the invention. Fig. 2 shows a schematic representation of a connector during a further step of the assembly process on a line according to an embodiment of the invention.

3 shows a schematic representation of a connector during a further step of the assembly process on a line according to an embodiment of the invention. 4 shows a schematic representation of a plug connector during a further step of the assembly process on a line according to an embodiment of the invention.

5 shows a schematic representation of a connector during a further step of the assembly process on a line according to an embodiment of the invention.

6 shows a schematic representation of a plug connector mounted on a line according to an embodiment of the invention.

7 shows a block diagram of a method for attaching an angled connector according to an embodiment of the invention to a shielded cable.

The figures are merely schematic representations and serve only to explain the invention. Elements that are the same or have the same effect are consistently provided with the same reference numerals.

Detailed description

1 shows a schematic representation of a connector 100 during a step of an assembly process on a line 200 according to an embodiment of the invention. Sealing cap 193, strain relief 192 and seal 191 are pre-assembled onto line 200, for example an HV line. The upper housing part 110 of the outer housing of the plug connector 100 is then additionally pushed onto the line 200, with the line 200 being guided through the bore 130 of the upper housing part 110. In this embodiment of the invention, the upper housing part 110 has a latching mechanism 150 with which it can be connected to the lower housing part 120, as well as a sealing device 160 with which a tight connection can be established between the upper housing part 110 and the lower housing part 120. At the end 210 of the line 200, to which the connector 100 is to be attached, the shielding 220 of the line 200 can be seen.

2 shows a schematic representation of a connector 100 during a further step of the assembly process on a line 200 according to an embodiment of the invention. In comparison to the assembly step shown in Figure 1, the end 220 of the line 200 is stripped here so that the individual conductors are visible, and the shielding 220 is folded over. A plug contact 140 is attached to each of the conductors, the conductors having a bend of approximately 90 degrees. 3 shows a schematic representation of a connector 100 during a further step of the assembly process on a line 100 according to an embodiment of the invention. Here the plug contacts 140 are mounted in the contact carrier 170, and the two-part shield 180 with the first part of the shield 181 and the second part of the shield 182 is clipped to the contact carrier and attached to the line 200, preferably to the shield 220 of the line 200. pressed.

4 shows a schematic representation of a connector 100 during a further step of the assembly process on a line 200 according to an embodiment of the invention. The pre-assembled system consisting of the contact carrier 170 with the plug contacts 140 arranged therein, which are attached to the line 200, is mounted in the lower housing part 120. The contact carrier 170 is preferably pre-fixed in the lower housing part 120, for example by latching.

5 shows a schematic representation of a connector 100 during a further step of the assembly process on a line 200 according to an embodiment of the invention. The upper housing part 110 is moved along the line 200 and placed over the two-part screen 180 so that it can be connected to the lower housing part 120 by means of the locking mechanism 150. The sealing device 160 ensures that the two housing parts fit tightly together.

6 shows a schematic representation of a plug connector 100 mounted on a line 200 according to an embodiment of the invention. Here the seal 191, the strain relief 192 and the sealing cap 193 are mounted on the upper housing part 110.

7 shows a block diagram of a method for attaching an angled connector 100 according to an embodiment of the invention to a shielded cable 200. Step S301 of attaching the sealing cap 193, the strain relief 192 and the seal 191 to a shielded cable 200 is followed by step S302 the insertion of the line 200 through the bore 130 of the upper housing part 110 into the upper housing part 110, and step S303 of stripping one end 210 of the line 200. In step S304, a shield 220 of the line 200 is turned over, and in Step S305 attaches at least one plug contact 140 to the end 210 of the line 220. This is followed by step S306 of mounting the at least one plug contact 140 in the contact carrier 170, as well as step S307 of attaching the shield 180 with the first end to the contact carrier 170 and with the second end to the line 200, and step S308 of mounting the Contact carrier 170 in the lower housing part 120. Further follows the step S309 of pivoting the upper housing part 110 to connect the upper housing part 110 to the lower housing part 120, and the step S310 of mounting the seal 191, the strain relief 192 and the sealing cap 193 on upper housing part 110.

Although the invention has been illustrated and described in detail in the drawings and description above, these drawings and descriptions are to be considered as illustrative or exemplary and not restrictive. The invention is not limited to the disclosed embodiments. Other variations of the disclosed embodiments may be understood and practiced by those skilled in the art to practice the claimed invention from the drawings, disclosure and dependent claims.

In addition, it should be noted that “comprising” does not exclude other elements or steps and “one” or “an” does not exclude a multitude. Furthermore, it should be noted that features or steps that have been described with reference to one of the above-described exemplary embodiments can also be used in combination with other features or steps of other above-described embodiments. Reference symbols in the claims are not to be viewed as a limitation.

REFERENCE SYMBOL LIST

100 Angled connector

110 upper housing part

120 lower housing part

130 bore

140 plug contacts

150 locking mechanism

160 sealing device

170 contact carriers

180 screen

181 first part of the screen

182 second part of the screen

191 seal

192 strain relief

193 sealing cap

200 line

210 End of line

220 Shielding of the line

Claims

EXPECTATIONS

1. Angled connector (100) for attachment to a shielded cable (200), the connector (100) having an upper housing part (110) and a lower housing part (120); wherein the upper housing part (110) has a bore (130) which is designed to receive the line (200), and wherein the bore (130) is designed to pivot the upper housing part (110) about the line (200) and to allow a displacement of the upper housing part (110) along the line (200), the lower housing part (120) being designed to accommodate at least one plug contact (140) attached to one end (210) of the line (200), and wherein the plug connector (100) has a latching mechanism (150) which is designed to connect the upper housing part (110) to the lower housing part (120).

2. Connector (100) according to claim 1, wherein the connector (100) has a sealing device (160) which is designed to seal the upper housing part (110) against the lower housing part (120).

3. Plug connector (100) according to one of the preceding claims, wherein the plug connector (100) has a contact carrier (170) which is designed to receive the at least one plug contact (140) attached to the end (210) of the line (200), and wherein the contact carrier (170) is designed to be received in the lower housing part (120).

4. Plug connector (100) according to one of the preceding claims, wherein the plug connector (100) has a shield (180) which is designed to be fastened with a first end to the contact carrier (170) and with a second end to the line (200) to be attached.

5. Connector (100) according to claim 4, wherein the shield (180) is designed in two parts, so that the line (200) runs between the first part of the shield (181) and the second part of the shield (182).

6. Connector (100) according to one of claims 4 or 5, wherein the shield (180) is designed to be connected with the second end to a shield (220) of the line (200).

7. Connector (100) according to one of the preceding claims, wherein the connector (100) further comprises: a seal (191) which is designed to extend the line (200) through the bore of the upper housing part (110) against the upper housing part (110), a strain relief (192), which is designed when it is attached to the upper housing part (110), to prevent the line (200) from moving through the bore (130) of the upper housing part (110), and one Sealing cap (193), which is designed to be attached to the upper housing part (110) and thereby attach the seal (191) and the strain relief (192) to the upper housing part (110).

8. Connector (100) according to one of the preceding claims, wherein the connector (100) is designed to have the line (200) running through the connector (100) between the bore (130) of the upper housing part (110) and at the end (210) of the line (200) attached plug contact (140) by an angle of essentially 90 °.

9. Connector (100) according to claim 8, wherein the bending of the line (200) takes place essentially in the area of the shield (180) of the connector (100), and wherein the shield (180) is designed which is inside the shield ( 180) to shield and/or stabilize the line (200) running without external insulation of the line.

10. A method for attaching an angled connector (100) according to one of claims 1 to 9 to a shielded cable (200), the method comprising the steps:

Attach (S301) the sealing cap (193), the strain relief (192) and the seal (191) to a shielded cable,

Insertion (S302) of the line (200) through the hole (130) of the upper housing part (110) into the upper housing part (110),

Stripping (S303) one end (210) of the line (200), Changing (S304) a shielding (220) of the line (200),

Attaching (S305) at least one plug contact (140) to the end (210) of the line (220),

Mounting (S306) the at least one plug contact (140) in the contact carrier (170),

Fastening (S307) the shield (180) with the first end to the contact carrier (170) and with the second end to the line (200),

Mount (S308) the contact carrier (170) in the lower housing part (120),

Pivoting (S309) the upper housing part (110) to connect the upper housing part (110) with the lower housing part (120), and

Install (S310) the seal (191), the strain relief (192) and the seal cap (193) on the upper housing part (110).