RETAINING NUT

Abstract

The invention relates to a retaining nut (1) for a threaded cable connection which is provided for special installation situations. Here, a subsequent assembly of the retaining nut on a cable (60) with an integrated cable sleeve (70) is not possible. According to the invention, the retaining nut (1) has a two-part construction comprising a main part (10) and a ring (15). By virtue of the two-part retaining nut (1), it is possible to arrange the ring (15) on the cable (60) behind the cable sleeve (70) at an earlier point in time in the assembly process. In this manner, the assembly of the cable (60) with the cable sleeve (70) and the ring (15) is ensured and a subsequent connection of the main part (10) and the ring (15) is made possible.

Claims

1. A retaining nut (1) having an inner surface (20) and an outer surface (30), as well as a screw-in side (11) and a feedthrough side (12), wherein the inner surface (20) on the screw-in side (11) has a first inner diameter (21) and is provided with a first internal thread (23), wherein the free inner diameter of the first internal thread (23) forms the first inner diameter (21), wherein the inner surface (20) on the feedthrough side (12) has a second inner diameter (22), wherein the second inner diameter (22) is smaller than the first inner diameter (21), characterized in that the retaining nut (1) is designed in two parts, wherein the two-part retaining nut (1) consists of a base body (10) and a ring (15).

2. The retaining nut (1) according to claim 1, characterized in that the ring (15) can be inserted into the base body (10) of the retaining nut (1) and the base body (10) encloses the ring (15) at least in regions, wherein the inner surface (20) forms a first inner surface (20a) on the base body (10) and forms a second inner surface (20b) on the ring (15).

3. The retaining nut (1) according to any of claims 1 or 2, characterized in that the ring (15) has an external thread (16) and the base body (10) has a second internal thread (24) arranged on the feedthrough side (12), wherein the external thread (16) can be screwed into the second internal thread (24).

4. The retaining nut (1) according to claim 3, characterized in that the second internal thread (24) and the first internal thread (23) merge into one another.

5. The retaining nut (1) according to any of claims 1 to 4, characterized in that the first inner diameter (21) is arranged on the main body (10) and the second inner diameter (22) is arranged on the ring (15).

6. The retaining nut (1) according to any of claims 1 to 5, characterized in that the inner surface (20) tapers conically in a pressing region (25) between the first inner diameter (21) and the second inner diameter (22).

7. The retaining nut (1) according to any of claims 1 to 6, characterized in that on the outer face (30), at least one first actuation region (35) is provided, which is designed to grip and rotate the retaining nut (1) in a positive-fitting manner.

8. The retaining nut (1) according to any of claims 1 to 7, characterized in that at least one second actuation region is provided on the ring (15), said second actuation region being designed for the positive-fitting rotation of the ring (15).

Description

EMBODIMENT

[0027] An embodiment of the invention is shown in the drawings and is explained in more detail below. In the drawings:

[0028] FIG. 1a shows a perspective view of a retaining nut according to the invention;

[0029] FIG. 1b shows a sectional view of the retaining nut according to the invention;

[0030] FIG. 2a shows further perspective view of the retaining nut according to the invention;

[0031] FIG. 2b shows a further sectional view of the retaining nut according to the invention;

[0032] FIG. 3 shows a sectional illustration of the retaining nut according to the invention on a counterpart of a threaded cable connection;

[0033] FIG. 4 shows a sectional illustration of a retaining nut known from the prior art on a counterpart of a threaded cable connection;

[0034] FIG. 5 is a sectional view of the retaining nut according to the invention mounted with a cable, a cable sleeve, and a counterpart of a threaded cable connection:

[0035] FIG. 6a shows a perspective installation situation of the retaining nut according to the invention; and

[0036] FIG. 6b shows the installation situation from FIG. 6a in a sectional view.

[0037] FIG. 1a shows a perspective view of a retaining nut 1 according to the invention. The retaining nut 1 is annular and has an inner surface 20 and an outer surface 30. The inner surface 20 situated in the retaining nut 1 is accessible from a screw-in side 11 at the rear side in the illustration, and from a feedthrough side 12. The view of FIG. 1a enables the view of the feedthrough side 12 onto the inner surface 20 of the retaining nut 1.

[0038] Six first actuation regions 35 distributed over the circumference of the retaining nut 1 are arranged on the outer surface 30 of the retaining nut 1. The actuation regions 35 are provided on the retaining nut 1 in such a way that a force can be exerted on the retaining nut 1 by means of an open-end or ring wrench or also by pliers. The force, which expediently acts as a torque on the retaining nut 1, is useful for screwing the retaining nut 1 onto or off of a counterpart of a threaded cable connection.

[0039] The retaining nut 1 known from FIG. 1a is shown in FIG. 1b in a sectional view. On the screw-in side 11 shown on the left, the retaining nut 1 has a first inner diameter 21 on its inner surface 20. On the feedthrough side 12, which is opposite the screw-in side 11, the retaining nut 1 has a second inner diameter 22. Here the second inner diameter 22 is smaller than the first inner diameter 21.

[0040] In the region in which the first inner diameter 21 transitions into the second inner diameter 22, the inner surface 20 forms a pressing region 25. The pressing region 25 tapers conically. That is, the first inner diameter 21 forms a widest diameter of the conical pressing region 25, while the second inner diameter 22 forms a narrowest diameter of the conical pressing region 25.

[0041] A first internal thread 23 is formed in the region of the inner surface 20 shown on the left. The free inner diameter of the first internal thread 23 here forms the first inner diameter 21. The first internal thread 23 is here open towards the screw-in side 11 of the retaining nut 1. A counterpart of a threaded cable connection can thus be introduced into the retaining nut 1 via the screw-in side 11. In this case, an external thread provided on the counterpart interacts with the first internal thread 23 of the retaining nut 1 such that the retaining nut 1 can be screwed onto the counterpart.

[0042] FIG. 2a shows a further perspective view of the retaining nut 1 from the same view as in FIG. 1a. However, FIG. 2a shows the retaining nut 1 in an exploded view that the individual parts of the retaining nut 1 are shown separately. Here, a base body 10 is shown in the left region of FIG. 2a and a ring 15 is shown in the right region. The ring 15 has an external thread 16 on its outer surface. The ring 15 can thus be screwed into the base body 10 by means of the external thread 16. The base body 10 and the ring 15 together form the retaining nut 1.

[0043] A sectional illustration of the retaining nut 1 shown in FIG. 2a with separated base body 10 and ring 15 is shown in FIG. 2b. The inner surface 20 extends both via the base body 10, in which it forms a first inner surface 20a, and also via the ring 15, in which it forms a second inner surface 20b. The inner surface 20a in the base body 10 is formed from the first internal thread 23 and a second internal thread 24. Here the second internal thread 24 is formed in the main body 10 in the region of the feedthrough side 12. In this specific embodiment, the first internal thread 23 and the second internal thread 24 are fashioned identically. The first internal thread 23 and the second internal thread 24 thus go over each other. Here, embodiments are also conceivable in which the first internal thread 23 and the second internal thread 24 have different dimensions, gradients, or sizes.

[0044] In the exemplary embodiment shown, the pressing region 25 of the retaining nut 1 is expediently provided on the second inner surface 20b, which is formed on the ring 15. The pressing region 25 is here provided as a bevel on the inside of the ring 15. When the ring 15 is screwed into the base body 10, the bevel accordingly forms the conical pressing region 25, which connects the first inner diameter 21 to the second, smaller inner diameter 22, as shown in FIG. 1b.

[0045] The retaining nut 1 of FIG. 1a/b is shown together with a counterpart 50 of a threaded cable connection in FIG. 3 in a sectional view. The retaining nut 1 is shown in the right-hand region, while in the left-hand region the counterpart 50 projects into the screw-in side 11 of the retaining nut 1. Advantageously, an external thread is formed on the counterpart 50, which interacts with the first internal thread 23 of the retaining nut 1.

[0046] As is known from the prior art, the counterpart 50 also has a flange and a second thread next to the external thread for screwing on the retaining nut 1. By means of the second thread, indicated here at the left of the flange, the counterpart can be accommodated in an opening of a mounting surface and fixed on this mounting surface. Depending on the application, the mounting surface can be a plug connector housing, a device wall, a motor, or some other machine. Many applications in which a cable has to be mechanically fixedly connected to a mounting surface are conceivable and known.

[0047] The region between the pressing region 25 of the inner surface 20 and the counterpart 50 can also be seen clearly in FIG. 3. This gap between the retaining nut 1 and the counterpart 50 is provided for receiving a sealing part. The sealing part is clamped between an end face of the counterpart 50 and the pressing region 25 in such a way that it exerts a radially inwardly-directed force by elastic deformation. A cable received in the sealing part can thus be clamped mechanically and in an environment-tight manner. The necessary force for clamping between the retaining nut 1 and the counterpart 50 is generated by the interaction of the first internal thread 23 of the retaining nut and the external thread of the counterpart 50.

[0048] FIG. 4 shows a retaining nut 100 with a counterpart 50, known from the prior art, in comparison with the retaining nut 1 according to the invention. It can be seen that the retaining nut 100 is formed in one piece. The pressing region 250 is an integral part of the one-piece retaining nut. As a result, a feedthrough through which the retaining nut 100 can be guided must correspond to at least the external dimensions of the retaining nut 100, or be larger. In the case of the retaining nut 1 according to the invention, however, the ring 15 can be separated from the base body 10, as a result of which a feedthrough can also correspond to the first inner diameter 21.

[0049] The complete installation situation of the retaining nut 1 according to the invention with counterpart 50, a cable 60, and a cable sleeve 70 is shown in FIG. 5 in a further sectional view. The cable 60 is guided through the retaining nut 1. That is, the cable 60 is inserted into the retaining nut 1 at the feedthrough side 12 and comes out again at the screw-in side 11.

[0050] The cable sleeve 70 is arranged around the cable 60. The cable sleeve 70 can here be pushed onto the cable 60 as a separate part. As is known to the person skilled in the art, however, the cable sleeve 70 can also be sprayed onto the cable 60 by a second injection process, for example, and can thereby be connected thereto. This has no further relevance for the present invention.

[0051] The cable sleeve 70 has a sealing part 75 which forms an integral part of the cable sleeve 70 as a thickening. The sealing part 75 here surrounds the cable sleeve 70 completely. As also known from the prior art, the sealing part 75 is provided to be clamped between the retaining nut 1 and the counterpart 50. The conical pressing area 25 of the inner surface 20 not only transmits a force to the counterpart 50, but also transmits a radially inwardly-directed force to the sealing part 75. The elastically formed sealing part 75 is preferably made of a plastic or rubber. This enables a transmission of the radial force to the cable 60 and at the same time enables an environmentally tight connection between the cable and the threaded cable connection.

[0052] The installation situation of the object according to the invention is shown once again by way of example in FIGS. 6a and 6b. FIG. 6a shows a perspective view, while FIG. 6b shows a sectional view. An opening 85 on a housing wall 80 is assumed. Here the opening 85 is dimensioned such that the retaining nut 1 cannot be guided through the opening 85. As a result of the production, the cable 60 is supplied with a cable sleeve 70 already sprayed on and connected fixedly to the cable 60. Since the cable sleeve 70 is already present on the cable 60, no retaining nut 100, as known from the prior art, can be guided onto the cable 60. The sealing part 75 of the cable sleeve 70 is too thick for this.

[0053] According to the invention, the ring 15 has already been arranged on the cable 60 before the cable sleeve 70 is applied. When the cable 60 is installed through the opening 85, the cable 60, the cable sleeve 70, and the ring 15 can be guided through the opening 85. In this case, the components are guided from the shown right side through the opening 85 of the housing wall 80.

[0054] The base body 10 and the counterpart 50 can then be subsequently arranged on the cable 60 and connected to the ring 15. The entire, fully assembled threaded cable connection, consisting of cable 60, cable sleeve 70, retaining nut 1, and counterpart 50, can be fastened, in a further step, to a mounting surface in an opening.

LIST OF REFERENCE SIGNS

[0055] 1/100 retaining nut [0056] 10 main body [0057] 11 screw-in side [0058] 12 feedthrough side [0059] 15 ring [0060] 16 external thread [0061] 20 inner surface [0062] 20a first inner surface [0063] 20b second inner surface [0064] 21 first inner diameter [0065] 22 second inner diameter [0066] 23 first internal thread [0067] 24 second internal thread [0068] 25/250 pressing region [0069] 30 outer surface [0070] 35 first actuation region [0071] 50 counterpart [0072] 60 cable [0073] 70 cable sleeve [0074] 75 sealing part [0075] 80 housing wall [0076] 85 opening [0077] 100 retaining nut