CABLE CONNECTOR AND CABLE TERMINATION

Abstract

A first aspect relates to cable connectors for connecting two multicore cables, namely, two flat cables or one flat cable and one round cable. The cable connector includes a clamping sleeve, having a ceramic insulator with at least two openings, one on each side of the clamping sleeve, for accommodating core conductors. The clamping sleeve includes at least two contact inserts that pass through the clamping sleeve at corresponding openings on both sides. Clamping elements are associated with each of the at least two contact inserts in order to clamp the core conductors on one side or the other side of the contact inserts, and thus to establish electrical contact between the clamping sleeve and the multicore flat cable or round cable, thereby connecting the two cables. The cable connector also includes a heat shrink tube that envelops the entering portions of the cables and the clamping sleeve, and in the shrunken state lies tightly against an outer contour of the clamping sleeve and an outer contour of the portion of the cables that enter the clamping sleeve.

A second aspect relates to a cable termination for the insulating termination of a multicore flat cable. The cable termination includes a clamping sleeve that includes a ceramic insulator with at least two openings on one side of the clamping sleeve for accommodating core conductors. The clamping sleeve includes at least two contact inserts situated behind the openings, a clamping element being associated with each of the at least two contact inserts in order to clamp the core conductors on the contact inserts and thus establish mechanical fixing of the core conductors on the clamping sleeve so as to electrically insulate them from one another, and thus to terminate the cable. The cable termination also includes a heat shrink tube that envelops the entering portion of the cable and the clamping sleeve, and in the shrunken state lies tightly against an outer contour of the clamping sleeve and an outer contour of the portion of the cable that enters the clamping sleeve.

Claims

1. A cable connector for connecting two multicore cables, namely, two flat cables or one flat cable and one round cable, comprising a clamping sleeve that includes a ceramic insulator with at least two openings, one on each side of the clamping sleeve, for accommodating core conductors, wherein the clamping sleeve includes at least two contact inserts that pass through the clamping sleeve at corresponding openings on both sides, wherein clamping elements are associated with each of the least two contact inserts in order to clamp the core conductors on one side or the other side of the contact inserts, and thus to establish electrical contact between the clamping sleeve and the multicore flat cable or round cable, thereby connecting the two cables, a heat shrink tube that envelops the entering portions of the cables and the clamping sleeve, and in the shrunken state lies tightly against an outer contour of the clamping sleeve and an outer contour of the portion of the cables that enters the clamping sleeve.

2. The cable connector according to claim 1, wherein the contact inserts are conductive inserts made of metal.

3. The cable connector according to claim 1, wherein the heat shrink tube includes a thermoplastic material.

4. The cable connector according to claim 3, wherein the heat shrink tube includes polyethylene.

5. The cable connector according to claim 1, wherein the contact inserts are conductive inserts made of metal, and wherein the heat shrink tube includes a thermoplastic material, wherein the ceramic insulator has the shape of an upright arch, wherein the openings are inserted into the arch in such a way that the heat shrink tube in the shrunken state has essentially the same distance from each closest opening.

6. The cable connector according to claim 5, wherein the openings in the ceramic insulator only partially enclose the conductive inserts, so that the clamping elements are mountable on the conductive inserts in the area that is not enclosed.

7. The cable connector according to claim 5, wherein the openings in the ceramic insulator have a circular cross-section, and the conductive inserts are designed as tubes that are inserted through the boreholes.

8. The cable connector according to claim 7, wherein the clamping elements are screws, wherein the tubes have at least one screw thread into which the screws are screwable, so that they clamp a core conductor, inserted into the opening, between the screw and the inner side of the tube.

9. The cable connector according to claim 5, wherein the clamping sleeve connects a flat cable to a flat cable, or a flat cable to a round cable, wherein for the connection of two flat cables, the heat shrink tube in the shrunken state lies tightly against the portion of the two flat cables entering the clamping sleeve and the clamping sleeve, and for the connection of a round cable to a flat cable, the heat shrink tube lies tightly against the portion of the flat cable that enters the clamping sleeve, the portion of the round cable that enters the clamping sleeve, and the clamping sleeve.

10. A cable termination for the insulating termination of a multicore flat cable, comprising a clamping sleeve that includes a ceramic insulator with at least two openings on one side of the clamping sleeve for accommodating core conductors, wherein the clamping sleeve includes at least two contact inserts situated behind the openings, wherein a clamping element is associated with each of the at least two contact inserts in order to clamp the core conductors on the contact inserts and thus establish mechanical fixing of the core conductors on the clamping sleeve so as to electrically insulate them from one another, and thus to terminate the cable, a heat shrink tube that envelops the entering portions of the cable and the clamping sleeve, and in the shrunken state lies tightly against an outer contour of the clamping sleeve and an outer contour of the portion of the cable that enters the clamping sleeve.

11. The cable termination according to claim 10, wherein the contact inserts are conductive inserts made of metal.

12. The cable termination according to claim 10, wherein the heat shrink tube includes a thermoplastic material.

13. The cable termination according to claim 12, wherein the heat shrink tube includes polyethylene.

14. The cable termination according to claim 10, wherein the clamping sleeve is provided as a cable end piece, and the heat shrink tube is terminated on one side and is thus designed as a shrink cap.

15. The cable termination according to claim 14, wherein the contact inserts have a cuboidal design and are made of metal, and have screw threads by which clamping elements, which are designed as screws, are screwable in order to clamp the core conductors at a clamping point between the contact inserts and the ceramic insulator.

16. The cable termination according to claim 15, wherein the openings in the insulator have a conical cross section in order to guide the core conductors in the direction of the clamping point.

17. The cable connector or the cable termination according to claim 10, wherein functional integrity, i.e., connection of the two cables without short circuits or insulating fixing of the core conductors at the cable end in the event of fire, is ensured by the ceramic design of the insulator and the metallic design of the contact inserts and their direct embedding in the ceramic insulator.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0057] The appended drawings illustrate exemplary embodiments of the various aspects of the invention. The drawings show the following:

[0058] FIG. 1 shows a schematic illustration of a clamping sleeve together with an insulator in the shape of an upright arch, with tubular conductive contact inserts, in an exploded view,

[0059] FIG. 2 shows the clamping sleeve from FIG. 1 together with a round cable and a flat cable that are to be connected to one another, one on each side of the clamping sleeve,

[0060] FIG. 3 shows the clamping sleeve from FIG. 1 together with two flat cables that are to be connected to one another, one on each side of the clamping sleeve,

[0061] FIG. 4 shows the clamping sleeve from FIG. 1 together with a flat cable that is contacted by same, and a heat shrink tube that is pulled over the contact point,

[0062] FIG. 5 shows an electrical connection of two flat cables by means of the cable connector, from the outside,

[0063] FIG. 6 shows a cuboidal clamping sleeve for the cable termination,

[0064] FIG. 7 shows the clamping sleeve from FIG. 7 together with a flat cable that is to be contacted by the clamping sleeve,

[0065] FIG. 8 shows the clamping sleeve, contacting a flat cable, from FIGS. 7 and 8 in a side sectional view,

[0066] FIG. 9 shows a shrink cap that is pulled over a contact between a clamping sleeve as a cable end piece, and a flat cable, and

[0067] FIG. 10 shows the shrink cap from FIG. 9, shrunk over the clamping sleeve from FIGS. 7 and 8, and a flat cable, in order to produce the cable termination.

[0068] The drawings and the description of the drawings refer to examples of the invention, and not to the invention itself.

DESCRIPTION OF EXEMPLARY EMBODIMENTS WITH REFERENCE TO THE DRAWINGS

[0069] The clamping sleeve 4 according to FIG. 1 has a ceramic insulator 5. The insulator 5 as shown in FIG. 1 has the shape of an upright round arch, the standing surface of the insulator being provided by the ends of the arch. Because the insulator 5 is made of ceramic, on the one hand it is fireproof and on the other hand is electrically insulating.

[0070] The insulator 5 on the front side and the rear side of its arched form has boreholes 60, with a plain cylindrical cross section, that extend into the insulator. The insulator 5 does not close off the boreholes 60 toward the top at the ends of the boreholes 60, thus forming openings 6 for accommodating contact inserts. The contact inserts are designed as conductive inserts in the form of metal tubes 7. The metal tubes 7 are inserted through the boreholes 60. Overall, the insulator 5 illustrated in FIG. 1 has boreholes 60, each with two openings 6, one on the front side and one on the rear side of the insulator, on each end of the boreholes. The openings 6 extend into the insulator, and have a cross section of approximately three-fourths of a circle, since they are enclosed only by approximately three-fourths by the insulator 5. A metal tube 7 for accommodating core conductors 21 (not shown in FIG. 1) on both sides of the metal tubes is inserted into each of the five boreholes.

[0071] The clamping sleeve 4 illustrated in FIG. 1 is typically used to connect two five-core cables having three phase conductors, a neutral conductor, and a protective conductor, for example.

[0072] Core conductors 21 (not illustrated in FIG. 1) that are inserted into the metal tubes 7, used as contact inserts, may be fixed to the metal tubes, inserted through the insulator, by clamping elements that are designed as metallic Allen screws 8. The Allen screws 8 may be guided over the portions of the screw threads 80, not delimited by the insulator 5, that pass through the opening 6 at the surface of the metal tubes 7, and screwed into the metal tubes 7 by means of a tool (Allen wrench) so that they clamp the core conductors 21 (not shown in FIG. 1), inserted into the metal tube 7, against the inner side walls of the metal tube 7. When this is done on both sides of a metal tube 7, two core conductors 21 (not shown in FIG. 1) are electroconductively connected to one another.

[0073] In addition, the Allen screws 8 inserted at the front side and rear side of the metal tubes 7 prevent the metal tubes 7 from slipping out of the ceramic insulator 5 in the longitudinal direction. Namely, when they are contacted by core conductors, the Allen screws 8 are far enough away from the metal tube 7 that they run into portions of the insulator 5 in each case during sliding back and forth in the borehole 60, and thus cannot move back and forth to the extent that they could slip out.

[0074] The clamping sleeve 4 illustrated in FIG. 1 is shown in FIG. 2 together with a flat cable 2 and a round cable 3. The clamping sleeve 4 at its front side is intended to contact the flat cable 2, and at its rear side, to contact the round cable 3. For this purpose, flat cable cores 20 together with their core conductors 21 are inserted into openings 6, and subsequently into the metal tubes 7, at the front side of the clamping sleeve 4 in order to fix the core conductors 21 to the metal tubes 7 at this location by means of the schematically illustrated Allen screws, as described in conjunction with FIG. 1.

[0075] The same applies for the cable cores 30 of the round cable 3, which together with their core conductors 31 are to be contacted by the clamping sleeve at the rear side of the clamping sleeve 4. When the clamping sleeve 4 contacts both the round cable 3 and the flat cable 2, it establishes an electrical connection between the round cable 3 and the flat cable 2.

[0076] Analogously to FIG. 2, FIG. 3 illustrates two flat cables 2, 2 whose cable cores 20, 20 and core conductors 21, 21 in each case are contacted by the clamping sleeve 4 to establish an electrical connection between the two flat cables 2, 2.

[0077] FIG. 4 illustrates a clamping sleeve 4 that contacts the cable cores 20 of a flat cable 2. To produce the cable connector 1, not shown in FIG. 4, a heat shrink tube 10 is pulled over the clamping sleeve 4 and the portion of the flat cable 2 entering the clamping sleeve. This operation is depicted by an arrow in the direction of the flat cable 2 in FIG. 4.

[0078] The heat shrink tube 10 illustrated in FIG. 5 is shrunk onto a clamping sleeve 4 (not illustrated in FIG. 5, but configured as in FIGS. 1 through 4) that joins two flat cables 2, 2 together, and also onto the portions of the flat cable 2, 2 entering the clamping sleeve 4. A cable connector 1 according to the first aspect of the invention is formed in this way. The cable connector is fireproof due to the ceramic insulator 5 of the clamping sleeve 4 (neither of which is visible beneath the heat shrink tube in FIG. 5), which keeps the cable cores 21 (not illustrated in FIG. 5) insulated from one another, and the metal-to-metal contacting of the core conductors 21, 21 with the metal tubes 7 by means of the metallic Allen screws 8. The heat shrink tube provides additional protection from penetration of liquids and dust, so that seal-tightness within the meaning of protection class IP68 is achieved. The cable connector may thus be referred to overall as fireproof and watertight.

[0079] In all embodiments of clamping sleeves 4, 4 (see FIGS. 6, 7, and 8), both a mechanical and an electrical connection is provided between the core conductors 21, 21 and the contact inserts 7, 7. However, in the embodiments with a cable termination 100 (see FIG. 10), the electrical connection between the contact inserts 7 and the core conductors 21 is more or less dispensible as the main purpose of the contact inserts 7 is to provide a mechanical fixation of the core conductors 21 within the ceramic insulator 5 also in the case of fire to prevent short circuits.

[0080] The term contact element used in the detailed description corresponds to the term contact insert used in the claims and the general description.

[0081] The clamping sleeve 4 schematically illustrated in FIG. 6 in an exploded drawing is part of a cable termination 100 (see FIG. 10). The clamping sleeve 4 has metallic cuboidal contact elements 7. The task of the cuboidal contact elements 7 is to clamp core conductors 21, 31 (not illustrated in FIG. 6), inserted into the clamping sleeve 4, between the interior of the ceramic insulator 5 of the clamping sleeve 4 and the clamping sleeve itself as a metal-to-metal contact. The clamping is produced by metallic slotted screws 8 that are guided through screw holes 9 in the insulator 5 to screw threads 80 on the cuboidal contact elements 7. The cuboidal contact elements 7 are inserted into cavities in the insulator 70. The cuboidal contact elements 7 are fixed inside the clamping sleeve 4 and the ceramic insulator 5 by the slotted screws 8. This results in a slot between the cuboidal contact elements 7 and the upper edges of the cavities in the insulator 70. The core conductors 21, 31 (not illustrated in FIG. 6) may be clamped in this slot.

[0082] The clamping sleeve 4, designed as a cable end piece and already described in conjunction with FIG. 6, is illustrated in FIG. 7 together with a flat cable 2 to be contacted, whose end piece is intended to ultimately form the clamping sleeve 4. The clamping sleeve has openings 6 in the insulator situated upstream from the cavities in the insulator 5 illustrated in FIG. 6. These openings 6 have a conical cross section (not visible in FIG. 7) that tapers toward the cuboidal contact elements 7, likewise not visible, which are inserted into the insulator 5, behind the openings. The metallic slotted screws 8 are illustrated in FIG. 7 in the tightened or almost tightened position. The cable cores 20 together with the core conductors 21 of the flat cable 2 are placed in the direction of the openings 6 in the insulator. FIG. 7 thus represents a step prior to the actual installation of the clamping sleeve 4 as a cable end piece.

[0083] FIG. 8 shows a flat cable 2 that is inserted with its cable core 20 and core conductor 21 into the cable end piece, in particular in the contacted state, i.e., in a state in which the core conductors 21 are clamped by the clamping sleeve 4 according to FIGS. 6 and 7.

[0084] The cable core 20 of the flat cable 2 together with the core conductor 21 is inserted into the opening 6 in the insulator 5. As is apparent in the sectional view in FIG. 8, the opening 6 has a conical cross section and runs in the direction of the cuboidal contact element 7. Thus, as illustrated in FIG. 8, the core conductor 21, which is not exactly lined up with the clamping point 15, is still guided toward the clamping point 15 via the opening 6. The clamping point 15 is situated between the upper edge of the cavity in the insulator 70 and the cuboidal contact element 7. As already described above, the slotted screw 8 fixes the cuboidal contact element 7 in position due to the fact that the slotted screw 8 that is guided through the screw hole 9 in the insulator 5 is screwed into the thread 80 of the cuboidal contact element 7.

[0085] FIG. 9 schematically illustrates a heat shrink tube 10, designed as a shrink cap, being pushed over the clamping sleeve 4, designed as a cable end piece, and the portion of a flat cable 2 that protrudes into the clamping sleeve (see arrow direction in FIG. 9). The portion that protrudes into the clamping sleeve includes flat cable cores 20 and also up to 50 centimeters of the flat cable 2.

[0086] Lastly, FIG. 10 illustrates the shrink cap 10, shown in FIG. 9, in the shrunken-on state. The shrink cap 10 has been pulled over a clamping sleeve 4 as a cable end piece (concealed in FIG. 10 by the shrink cap 10) and an entering area of the flat cable 2, and shrunk on as described in conjunction with FIG. 9. A cable termination 100 of the flat cable 2 is produced in this way.