Cable assembly with improved stress relief

Abstract

A cable assembly includes a main cable, at least one sub-cable extending from the main cable, a stress relief formed of a first insulative material integrally molded with a joint of the main cable and said at least one sub-cable and a cover formed of a second insulative material attached to and surrounding the stress relief, wherein the first insulative material is softer than the second insulative material.

Description

BRIEF DESCRIPTION OF THE DRAWING

FIG. 1 is a perspective, assembled view of a cable assembly in accordance with the present invention;

FIG. 2 is a perspective, partly exploded view of the cable assembly;

FIG. 3 is a view similar to FIG. 2, but taken from a different aspect; and

FIG. 4 is a view of a connection between the cable assembly and the corresponding plugs.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to FIGS. 1-3, a cable assembly 100 comprises a cable 1, a stress relief 2 to protect the cable 1 and a cover 3 to protect the stress relief 2. The cable 1 comprises a main cable 10 and three sub-cables 11, 12, 13 extending from the main cable 10. The stress relief 2 is molded on the linking point of the main cable 10 and the three sub-cables 11, 12, 13. In this embodiment, the stress relief 2 is made of a softer material than the cover 3. The stress relief 2 comprises a main portion 21 and a rear portion 22. A plurality of protrudings 25 is formed on an outer surface (no labeled) of the main portion 21 and a circular slot 220 is formed around the rear portion 22. Such protrudings 25 include guiding surfaces 250, which make the cover 3 and the stress relief 2 easy to cooperate. The main portion 21 comprises a first receiving channel 231, a second receiving channel 232, and a third receiving channel 233, and the rear portion 22 comprises a main receiving channel 241, and further more, all the receiving channels 231, 232, 233 and 241 communicate with each other in the inner of the stress relief 2. The sub-cables 11, 12, 13 are separately received in the corresponding receiving channels 231, 232, 233 and extending out of a forward surface 23 of the main portion 21. Similarly, the main cable 10 is received in the main receiving channel 241 and extending out of a backward surface 24 of the rear portion 22. Both the forward surface 23 and the backward surface 24 are erect to the direction defining by the main portion 21 and the rear portion 22. The cover 3, molded beforehand, is made of rigid material, so that its outer surface 31 can endure a destroying force from the exterior. The cover 3 forms a front receiving room 32 and a back receiving room 33. A plurality of grooves 320 is formed on an inner surface (not labeled) of the front receiving room 32 mating with the protrudings 25. The back receiving room 33 comprises a circular protrusive rib 330 mating with the circular slot 220. So, the cover 3 is steadily covering over the stress relief 2.

In this embodiment, the three sub-cables 11, 12, 13 are in a same plane and extends along a direction defining by the main cable 10; in other embodiment, the three sub-cables 11, 12, 13 are in three-dimensional relations and they are parallel to each other along a direction defining by the main cable 10.

Referring to FIG. 4, the main cable 10 is connected with an audio-plug 101, while the three sub-cables 11, 12, 13 are correspondingly connected with three lotiform plugs 110, 120, 130. Signals can travel through the audio-plug 101, the main cable 10, the three sub-cables 11, 12, 13 and the three lotiform plugs 110, 120, 130 in turn, to attach the corresponding destinations.

The stress relief 2 of the cable assembly 100, made of flexible material, such as plastic, is used for protecting the main cable 10 and the sub-cables 11, 12, 13 and the linking point between them, so that it can endure a high hauling and distorting force and the signals traveling in the cables can be successfully transmitted. For the cover 3 covering the stress relief 2 is made of hard material, it can prevent the flexible stress relief 2 from being destroyed by the exterior.

While a preferred embodiment in accordance with the present invention has been shown and described, equivalent modifications and changes known to persons skilled in the art according to the spirit of the present invention are considered within the scope of the present invention as described in the appended claims.

Claims

1. A cable assembly, comprising: a main cable;at least one sub-cable extending from the main cable;a stress relief formed of a first insulative material integrally molded with a joint of the main cable and said at least one sub-cable; anda cover formed of a second insulative material attached to and surrounding the stress relief;wherein the first insulative material is softer than the second insulative material.

2. The cable assembly as described in claim 1, wherein at least one sub-cable comprise at least three sub-cables forking from a distal end of the main cable, and parts of the sub-cables which is molded in the stress relief is in a same plane.

3. The cable assembly as described in claim 2, wherein at least three receiving channels receiving said at least three sub-cables and a main receiving channel receiving the main cable communicate with each other in the inner of the stress relief.

4. The cable assembly as described in claim 1, wherein the cover molded beforehand attaches firmly to the stress relief by some locking portions thereof.

5. The cable assembly as described in claim 1, wherein one of the stress relief and the cover forms a protrusion and the other forms a recess snugly receiving said protrusion.

6. The cable assembly as described in claim 5, wherein the protrusion is formed on the stress relief, and the recess is formed in the cover.

7. The cable assembly as described in claim 5, wherein both of said protrusion and said recess extends in a transverse direction.

8. A cable assembly, comprising: a first plug terminated to one distal end of a first cable;at least two plugs respectively terminated to corresponding distal ends of a pair of second cables; wherein the other distal end of the first cable is electrically connected to the other distal ends of the pair of second cables;a stress relief integrally molded on the joints of the first and second cables; andan insulative cover assembled to and surrounding the stress relief for providing a sheath.

9. The cable assembly as described in claim 8, wherein an insulative material of the stress relief is softer than that of the cover.

10. The cable assembly as described in claim 8, wherein one of the stress relief and the cover forms a protrusion and the other forms a recess snugly receiving said protrusion.

11. The cable assembly as described in claim 10, wherein the protrusion is formed on the stress relief, and the recess is formed in the cover.

12. The cable assembly as described in claim 10, wherein both of said protrusion and said recess extends in a transverse direction.

13. A cable assembly, comprising: a main cable;at least three sub-cables forming in three-dimensional relations terminated to one distal end of the main cable;a stress relief integrally molded on the joints of the main cable and said at least three sub-cables; andan insulative cover assembled to and surrounding the stress relief for providing a sheath;wherein said three sub-cables are parallel to each other along a direction defined by the main cable.

14. The cable assembly as described in claim 13, wherein an insulative material of the stress relief is softer than that of the cover.

15. The cable assembly as described in claim 13, wherein one of the stress relief and the cover forms a protrusion and the other forms a recess snugly receiving said protrusion.

16. The cable assembly as described in claim 15, wherein the protrusion is formed on the stress relief, and the recess is formed in the cover.

17. The cable assembly as described in claim 15, wherein both of said protrusion and said recess extends in a transverse direction.