Nut and Line Connection

Abstract

A nut, in particular a union nut for a line connection, extends along a longitudinal direction, wherein the nut has at least one expansion region. The expansion region has circumferentially one or more recesses which extend transversely and/or obliquely to the longitudinal direction.

Claims

1. A nut, comprising: at least one expansion region of the nut, which nut extends along a longitudinal direction, wherein the expansion region circumferentially has one or more cutouts which extend transversely and/or obliquely with respect to the longitudinal direction.

2. The nut according to claim 1, wherein a plurality of cutouts circumferentially forms a closed ring.

3. The nut according to claim 1, wherein the expansion region has a plurality of cutouts arranged in rows.

4. The nut according to claim 1, wherein a plurality of cutouts is provided, wherein the cutouts are formed in a bone-shaped manner.

5. The nut according to claim 1, wherein the nut has a shoulder region, a threaded region and an intermediate middle region, and wherein the expansion region is arranged in the middle region and/or in the threaded region.

6. The nut according to claim 1, wherein the nut is a union nut for a line connection.

7. A line connection, comprising: first and second line ends; a nut comprising at least one expansion region, which nut extends along a longitudinal direction, and wherein the expansion region circumferentially has one or more cutouts extending transversely and/or obliquely with respect to the longitudinal directions, wherein the first and second line ends are connected via the nut.

8. The line connection according to claim 7, wherein the first line end has a first sealing surface, and the second line end has a second sealing surface, wherein the expansion region of the nut, in a screwed-together state, is positioned at least between the first sealing surface and the second sealing surface.

9. The line connection according to claim 8, wherein the expansion region is arranged and formed such that, in an event of leakage, a medium can escape by way of the expansion region.

10. The line connection according to claim 7, wherein the line connection is a high-pressure line of a motor vehicle.

11. A use of a nut in a leakage test of a line connection, wherein the line connection comprises: first and second line ends; a nut comprising at least one expansion region, which nut extends along a longitudinal direction, and wherein the expansion region circumferentially has one or more cutouts extending transversely and/or obliquely with respect to the longitudinal directions, wherein the first and second line ends are connected via the nut.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] FIG. 1 is a schematic sectional view of an embodiment of a line connection.

[0023] FIG. 2 is a further schematic sectional view of an embodiment of a line connection.

[0024] FIG. 3 is an exterior view of an embodiment of a nut.

DETAILED DESCRIPTION OF THE DRAWINGS

[0025] FIG. 1 shows a schematic sectional view of a line connection 40, comprising a first line end 41 and a second line end 42. In the embodiment shown here, this is formed as a kind of tapered end piece into which a line (not further denoted) is introduced. The line connection 40 is sealed off and screwed together by way of a nut 10. In this case, the nut 10, in particular the union nut 10, has a lateral region, comprising a shoulder region 12, a middle region 14 and a threaded region 16. The lateral region terminates, at the end sides, in two end regions 11. The threaded region 16 interacts with a thread 44 of the first line end 41. The nut 10 comprises, in the shoulder region 12, a sealing region 18, which acts or presses on a second sealing surface 42 of the second line end 42. The second line end 42 in turn acts or presses with a sealing region 43 on a first sealing surface 41 of the first line end 41. It can be clearly seen that an expansion region 20 of the nut 10, comprising a plurality of cutouts 22, is arranged in a middle region 14 and therefore also between the first sealing surface 41 and the second sealing surface 42. As a result, a screw connection with an elastic reserve can be realized, said elastic reserve making it possible for the screw connection to be more robust against unintentional loosening or against unintentional opening by way of a settling of the connection or other influences. The cutouts 22 are arranged in a plurality of rows along a longitudinal direction or screwing direction L.

[0026] FIG. 2 essentially shows a line connection 40 as is already known from FIG. 1. In this case, a second line end 42 has been formed in a different manner; no differences arising in terms of the function, however. In the present case, the focus is in particular on a nut 10 which likewise has a shoulder region 12, a middle region 14 and a threaded region 16. In the embodiment outlined here, an expansion region 20, comprising a plurality of cutouts 22, is formed both in the middle region 14 and on the threaded region 16. In other words, cutouts 22 are therefore also arranged in the region of a thread 44 of a first line end 41. By virtue of the difference in pitch, which occurs during the screwing-together, between the deformed nut 10 and the non-deformed thread 44, an additional clamping action can be realized as a result of the friction which arises, which makes a line connection of this kind extremely robust against unintentional loosening. Indeed, the screw connection can even be designed such that a maximum tightening torque cannot be exceeded, since the different pitches in the threads (deformed nut and non-deformed thread on the line end) lead to a very large increase in the frictional torque. The reference designation P delineates an arrow which indicates a direction or a path that a test medium, or generally a medium which is, or is intended to be, transported within the line connection, can assume if a sealing action, in this case, for example, between a sealing region 43 of the second line end 42 and a first sealing surface 41 of the first line end 41, is not provided. In order to avoid repetitions, reference is otherwise made to FIG. 1.

[0027] FIG. 3 shows a nut 10 comprising an expansion region 20 which has four rows of cutouts 22, each of the cutouts 22 being formed in a bone-shaped manner. The cutouts 22 are also advantageously arranged offset with respect to each other along a longitudinal direction or screwing direction L. Along the longitudinal direction L, a cutout 22 or a slot is followed by a bridge or a web, and vice versa, etc. Such a geometry is derived from the design of tubular springs, which are used, for example, for preloading piezo stacks in the field of internal combustion engine injection technology. In particular, this geometry is distinguished by the fact that highly uniform elasticity or highly uniform extension behavior can be provided over the circumference.

LIST OF REFERENCE DESIGNATIONS

[0028] 10 Nut [0029] 11 End region [0030] 12 Shoulder region [0031] 14 Middle region [0032] 16 Threaded region [0033] 18 Sealing region [0034] 20 Expansion region [0035] 22 Cutout [0036] 40 Line connection [0037] 41 First line end [0038] 41 First sealing surface [0039] 42 Second line end [0040] 42 Second sealing surface [0041] 43 Sealing region [0042] 44 Thread [0043] L Longitudinal direction, screwing direction [0044] P Path

[0045] The foregoing disclosure has been set forth merely to illustrate the invention and is not intended to be limiting. Since modifications of the disclosed embodiments incorporating the spirit and substance of the invention may occur to persons skilled in the art, the invention should be construed to include everything within the scope of the appended claims and equivalents thereof.