HIGH-PRESSURE RESISTANT SCREW CONNECTION FOR PIPE OR HOSE LINES WITH A TAPERED THREAD

Abstract

A connecting device for pipelines or hose lines with a threaded body and with a pipe-like end piece which can be inserted into a receptacle formed on the threaded body and which can be fitted therein by means of a swivel nut screwed onto the threaded body, wherein the receptacle of the threaded body has the shape of a widening cone and the circumferential surface of the end piece that engages in the receptacle has a conical design, is characterized in that the circumferential surface (12) of the threaded body (10) that bears the external thread (30) has, in the direction of the front end of said surface, an inclined profile directed opposite to the cone of the receptacle (11), and the swivel nut (17) has, with its surface (18) bearing the internal thread (31), a profile complementary thereto, and the external thread (30) and internal thread (31) are designed as tapered threads in such a way that a radial force emanating from the tapered thread with the swivel nut (17) screwed on is directed opposite to the radial force exerted, with the connecting device mounted, by the conical end piece (13) onto the receiving cone (11) formed in the threaded body (10).

Claims

1-12. (canceled)

13. A connecting device for pipe or hose lines, comprising a threaded connection body having a bore, an end piece which can be plugged into a receptacle provided at the front end of the threaded connection body, and a union nut for fixing the end piece in the threaded connection body, the union nut having an internal tapered thread such that the union nut can be screwed onto an external tapered thread on an outer circumference of the threaded connection body, and the union nut being rotatable on the threaded connection body between a release position and an installed position, and wherein the receptacle of the threaded connection body has a conical shape and the end piece has a circumferential surface engaging into the receptacle, the circumferential surface having a conical shape corresponding to the conical shape of the receptacle, and wherein the geometry of tooth flanks of the internal and external tapered threads is configured such that when the union nut in in the installed position determined by a predetermined tightening torque, the tooth flanks on opposite sides of the external tapered thread and corresponding tooth flanks of the internal tapered thread bear against one another over at least one turn of the external tapered thread.

14. The connecting device according to claim 13, wherein the external tapered thread on the threaded connection body and the internal tapered thread on the union nut have mutually different thread pitches.

15. The connecting device according to claim 14, wherein the external tapered thread has a thread pitch larger than the thread pitch of the internal tapered thread.

16. The connecting device according to one of claim 13, wherein thread turns of the external tapered thread and the internal tapered thread have mutually different opening angles of the tooth flanks.

17. The connecting device according to claim 16, wherein the tooth flanks of the internal tapered thread have larger opening angle than the tooth flanks of the external tapered thread.

18. The connecting device according to claim 13, wherein the external tapered thread has an axial length larger than the internal tapered thread.

19. The connecting device according to claim 13, wherein a groove with a seal arranged therein is provided in the internal surface of the receptacle.

20. The connecting device according to claim 13, wherein the geometry of tooth flanks of the internal and external tapered threads is configured such that when the union nut in in the installed position determined by the predetermined tightening torque, a gap remains between a thread root of the external tapered thread and a corresponding apex of the internal tapered thread over at least a portion of the external and internal tapered threads.

21. The connecting device according to claim 13, wherein the end piece has a support surface facing away from the threaded connection body that is axially engaged by the union nut for urging the end piece towards the threaded connection body when the union nut is screwed onto the threaded connection body.

22. The connecting device according to claim 21, wherein the support surface is formed by a bead on the end piece.

23. The connecting device according to claim 13, wherein the end piece is formed by an end portion of the pipe or hose line.

24. The connecting device according to claim 13, wherein the external tapered thread and internal tapered thread are tapered apex threads.

25. The connecting device according to claim 13, wherein the external tapered thread and internal tapered thread are threads having a trapezoidal profile in cross-section.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] Exemplary embodiments of the invention are reproduced in the drawing, which are described in the following. In the figures:

[0020] FIG. 1 shows a connecting device with a connecting body and an end piece plugged into the same and also a union nut fixed on the connecting body by means of a tapered thread constructed as a conical apex thread in the state of final installation in a partially cut away side view,

[0021] FIG. 2 shows the connecting device according to FIG. 1 in a different embodiment,

[0022] FIG. 3 shows an alternative embodiment of the tapered thread called upon for connecting the threaded connection body and union nut as so-called trapezoidal thread in a partially cut away side view,

[0023] FIG. 4 shows the thread profile constructed as conical apex thread of the external thread applied on the threaded connection body and the internal thread located in the union nut when engaging in the final installation position according to FIGS. 1 and 2 in an enlarged side view,

[0024] FIG. 5 shows the trapezoidal thread according to FIG. 3 in an illustration according to FIG. 4,

[0025] FIG. 6 shows the trapezoidal thread of threaded connection body and union nut set up for a self locking by means of mutually bearing tooth flanks before reaching the installation position,

[0026] FIG. 7 shows the trapezoidal thread according to FIG. 6 in the installation position of threaded connection body and union nut,

[0027] FIG. 8 shows the trapezoidal thread applied on threaded connection body and union nut for a self locking by means of different thread pitch thereof before reaching the installation position,

[0028] FIG. 9 shows the trapezoidal thread according to FIG. 8 in the installation position,

[0029] FIG. 10 shows the trapezoidal thread provided on threaded connection body and union nut for a self locking by means of different opening angle of the tooth flanks thereof in the installation position of the connecting device,

[0030] FIG. 11 shows tapered thread set up for a self locking by means of different lengths of the trapezoidal thread applied on threaded connection body and union nut, before reaching the installation position,

[0031] FIG. 12 shows the trapezoidal thread according to FIG. 11 in the installation position of the connecting device.

DETAILED DESCRIPTION

[0032] The connecting device, which can initially be seen from FIG. 1, consists of a threaded connection body 10, which has a receiving cone 11 at its front (right) end for accommodating an end piece 13 plugged therein, wherein the receiving cone 11 has the shape of an expanding cone. The external circumferential surface 12 of the threaded connection body located in the region of the receiving cone 11 has an opposite inclined course in the direction of its front end to the cone of the receiving cone 11, wherein an external thread 30 is constructed on this circumferential surface 12.

[0033] The end piece 13 plugged into the receiving cone 11 of the threaded connection body 10 is an integral constituent of a pipe 14, wherein a bead 15 is produced by means of a corresponding reshaping at the end piece 13 or the pipe 14. The bead 15 on the one hand constructs a support surface 16, at its end facing away from the threaded connection body 10, for a union nut 17 pushed over the pipe 14, and at the same time, the front circumferential surface of the end piece 13 is constructed as a conical surface 19 which has a conicity corresponding to the conicity of the receiving cone 11 on the threaded connection body 10. The union nut pushed over the pipe 14 and supported on the support surface 16 of the pipe bead 15 has a conically expanding internal surface 18 in its interior, on which an internal thread 31 is constructed. External thread 30 of the threaded connection body 10 and internal thread 31 of the union nut 17 together form a tapered thread with a corresponding thread pitch owing to the conicity of circumferential surface 12 and internal surface 18 respectively, which are set up to match. In the exemplary embodiment illustrated in FIG. 1, the tapered thread is constructed as a conical apex thread.

[0034] To seal the end piece 13 with respect to the threaded connection body 10, a groove 20 with a sealing ring 21 inserted therein is constructed on the inner circumferential surface of the receiving cone 11. Further, an indicator ring 22 is also illustrated on the external circumference of the threaded connection body, by means of which the installation state of the connecting device can be made discernible. It is not necessary to know the construction and function of the indicator ring in connection with the present invention.

[0035] Insofar as a slightly modified configuration of the invention is illustrated in FIG. 2, the difference consists in the fact that the end piece 13 is constructed cylindrically with connecting pipe 14, wherein a cutting ring 23 is attached on the external circumference of the end piece 13 plugged into the receiving cone 11, which cutting ring then constructs, on the external circumference thereof, the conical bearing surface 24 against the receiving cone 11 of the threaded connection body 10 corresponding thereto. The arrangement of a cutting ring of this type is known in principle from DE 40 38 539 C1.

[0036] It can be seen from both exemplary embodiments that it is essential for the realisation of the invention that a conical surface for bearing on the receiving cone 11 is constructed in the region of the end piece 13 plugged into the receiving cone 11 of the threaded connection body 10. The constructive shape in which this conical surface is individually produced or constructed is irrelevant for the realisation of the connecting device according to the invention. Insofar as the construction of a tapered thread used as screw connection is illustrated as a conical apex thread in the previously explained FIGS. 1 and 2, a tapered thread constructed as a trapezoidal thread, as is illustrated in FIG. 3, is also suitable in the same way.

[0037] The important advantage of the invention, according to which the union nut 17 can initially be pushed without a rotational movement over the first thread turns of the external thread 30 constructed on the threaded connection body 10 wherein the cone geometry of the thread acts as an aid to centring, results already from the previously described design of a connecting device with a tapered thread constructed thereon. Subsequently, only a few, for example a maximum of two rotations are necessary before a tightening of the screw takes place. Furthermore, the further advantage of the invention is clarified in FIG. 3, according to which the forces exerted radially outwardly (arrows 40) by the end piece 13 pushed into the receiving cone 11 of the threaded connection body 10 during the final installation of the connecting device face inwardly directed reaction forces (arrows 41) emanating from the conical screw connection, which likewise increase with growing connecting force of the end piece 13 in the threaded connection body 10.

[0038] In FIGS. 4 and 5, the construction of both a conical apex thread and a trapezoidal thread is illustrated with a protection against over assembly or a retightening reserve. To this end, the respective thread turns of the internal thread 31 of the union nut 17 and external thread 30 of the threaded connection body 10 are configured in such a manner in terms of design that in the installed state, the tooth flanks 25a of the external thread 30 and tooth flanks 26a of internal thread 31 placed in the screwing direction bear against one another, wherein a gap 28 remains in each case at the opposite tooth flanks 25b or 26b and also in the thread root 27. This gap 28 in particular forms a retightening reserve which is required to the extent that the union nut 17 is screwed some degree further onto the threaded connection body 10 in the context of repeated installations of the connecting device.

[0039] The exemplary embodiments of the invention described in the further FIGS. 6 to 12 described below relate to the establishment of a self locking in the case of the tapered thread used, the realisation thereof on the basis of a tapered thread constructed as trapezoidal thread is explained. The correspondingly explained design configurations of the trapezoidal thread can however likewise be constructed in the case of conical apex threads, without this being illustrated or explained in detail.

[0040] In the exemplary embodiment illustrated in FIGS. 6 and 7, the self locking of the trapezoidal thread constructed on the threaded connection body 10 and union nut 17 in each case is realised in that the geometry of the respective tooth flanks 25 and 26 of the interacting thread turns is designed in such a manner that in the installation position, the tooth flanks 25 and 26 bear against one another and a gap 28 remains in turn in the respective thread root 27. It emerges from a comparison of FIGS. 6 and 7 that in the installation position illustrated in FIG. 7, the respectively mutually adjacent tooth flanks 25a and 26a on the one hand and 25b and 26b on the other hand bear against one another, leaving a gap 28 in the thread root 27. Insofar as thread profiles of external thread 30 and internal thread 31 have pushed into one another like wedges in each case during the installation, the torque increases owing to the running together of the tooth flanks 25 and 26 connected therewith, which leads to the desired self locking.

[0041] In the exemplary embodiment illustrated in FIGS. 8 and 9, the self locking of the trapezoidal thread constructed on the threaded connection body 10 and union nut 17 in each case is realised in that the external thread 30 constructed on the threaded connection body 10 and the internal thread 31 constructed in the union nut 17 have a mutually different thread pitch in each case. As can be seen to this end from FIG. 9, in the case of a slightly larger thread pitch constructed on the threaded connection body, a thread locking wedge action occurs only over the respectively first and last thread turn. The tooth flanks of external thread 30 and internal thread 31 lying therebetween remain uncontacted.

[0042] An in turn alternative design of the self locking of the trapezoidal thread illustrated by way of example emerges from FIG. 10. Here, external thread 30 and internal thread 31 in each case have a differently sized opening angle of their tooth flanks 25a, 25b and 26a, 26b respectively. If one chooses an opening angle of for example 12° for the internal thread 31 constructed on the union nut 17 and an opening angle of 11° for the external thread 30 constructed on the threaded connection body 10, then this effects a locking of the respectively tapering thread only at the front end of the threaded connection body 10 reaching into the interior of the union nut 17, as here the thread turns constructed with different opening angles meet. The further thread turns in the course of the rear screw connection remain uncontacted.

[0043] In the exemplary embodiment finally illustrated in FIGS. 11 and 12, the self locking is realised in that the external thread 30 applied on the threaded connection body 10 has a larger axial length than the internal thread 31 constructed in the union nut 17. Thus, when the final installation position is reached, a partial running together of the thread turns takes place, which leads to a deformation and locking or self locking of the components against one another.

[0044] The features of the subject of these documents disclosed in the previous description, the patent claims, the abstract and the drawing may be important individually and in any desired combinations with one another, for the realisation of the invention in its various embodiments.