DE3235058A1 - Plug-in coupling for pressure lines, in particular plastic lines for brake systems for motor vehicles - Google Patents

Abstract

Plug-in coupling for pressure lines, consisting of a plug part (1) having a through hole (2) and of a screw-in body (3) with an external thread (4) and of a through hole (5) for holding a plug spigot (6) of the plug part (1), it being possible to screw the screw-in body (3) into a threaded hole (7) in a housing body (8), and of latching means for fixing the plug part (1) in the housing body (8) and of a spring element, which is arranged between the plug spigot (6) and the housing body (8) and acts in the axial direction, and of a radial seal between these two parts, the latching means consisting of spring arms (9) which are constructed on the plug-in end of the plug spigot (6), run in the longitudinal direction of the spigot, are flexible in the radial direction and have an outwardly pointing stop surface (10) which, when the plug part (1) is plugged in, engage behind, seen in the plugging-in direction, an inwardly running annular surface (11) inside the housing body (8), preferably on the screw-in body (3), and the radial seal and the spring element are arranged in front of the spring arms (9), seen in the plugging-in direction. <IMAGE>

Description

Plug-in coupling for pressure lines, in particular plastic lines for braking systems for motor vehicles The present invention relates to a plug-in coupling for pressure lines, consisting of a plug part with a through hole and a screw-in body with an external thread and a through hole for Receiving a plug pin of the plug part, the screw-in body in a Threaded hole of a housing body can be screwed in, as well as locking means for fixing the connector part in the housing body and one between the connector pin and the housing body arranged, acting in the axial direction spring element and a radial seal between these two parts.

In the case of a plug-in coupling of this type, there are latching means for fixing the plug part in the housing body from a retaining ring at the front end of the screw-in body, which is positively fixed to it in the axial direction and the front face of the screw-in body engages over and engages in an outer groove of the plug part. The disadvantage here is that a separate retaining ring is required, whereby the manufacturing and assembly costs are increased and, moreover, the risk it may exist that the retaining ring is damaged or damaged when the plug-in coupling is loosened can get lost. Furthermore, the above-described arrangement of the Retaining rings on the screw-in body reduce the diameter of the through hole of the connector pin, so that this creates an undesirable throttle point in a brake line system arises.

The present invention is now based on the object of the plug-in coupling described above to improve this in such a way that on the one hand the plug part is made with the largest possible diameter of the through hole in order to achieve the lowest possible pressure loss within the plug-in coupling, and on the other hand, a reduction in the number of parts is made possible.

According to the invention this is achieved in that the locking means from formed on the screw-in body at the end, preferably at its screw-in end, extending in the longitudinal direction, resilient in the radial direction spring arms consisting which have a preferably radially inwardly directed stop surface, the when the plug part is plugged in one preferably radial outwardly extending ring surface on the plug pin in the insertion direction of the plug pin seen behind reach and the radial seal and the spring element respectively are arranged in the area outside the spring arms.

This construction principle according to the invention is a separate Retaining clip avoided entirely, so that no reduction in diameter of the screw-in body and connector pin for receiving the retaining clip or for taking into account the Spring travel of such a retaining clip is required. This achieves that the plug pin has a through hole with a maximum inner diameter having. Furthermore, there is the possibility of both the radial seal also to move the spring element in an area, so that this also does not Reduction in the diameter of the through hole of the plug part caused will. In addition, the plug-in coupling according to the invention is characterized by that the threaded hole of the housing body does not require any special processing, so that the Plug-in coupling according to the invention readily in connection with the customary Valve housings can be used.

Further advantageous embodiments of the invention are set out in the subclaims 2 to 19 included.

On the basis of the exemplary embodiments shown in the accompanying drawings of the invention further advantages are explained. They show: FIG. 1 a view, partially cut, an embodiment of the plug-in coupling according to the invention; Fig. 2-6 views, partially cut, of the area protruding from the housing the plug-in coupling according to FIG. 1.

As can be seen from FIG. 1, there is a plug-in coupling according to the invention from a plug part 1 with a through hole 2 and a screw-in body 3 with an external thread 4 and a through hole 5 for receiving a plug pin 6 of the plug part 1. The screw-in body 3 is in a threaded hole 7 of a housing body 8 screwed in. The housing body 8 can, for example, directly be part of a Be valve housing or part of an adapter, which in turn by means of a Threaded section not shown screwed into the threaded hole of a valve housing will.

At the screw-in end of the screw-in body 3, spring arms 9 are formed, which extend in the longitudinal direction and are flexible in the radial direction are. These spring arms 9 have a radially inwardly directed at their free end Stop surface 10, which in the inserted state of the plug pin of a radially outwardly extending annular surface 11 of the plug pin 6 in the insertion direction of the plug pin is seen from behind. The ring surface 11 is of the in Insertion direction rear radial wall of an annular groove 6a in the plug pin 6 is formed. The spring arms 9 are designed in one piece with the screw-in body 3. Here are preferably on the screw-in body 3 four by extending in the longitudinal direction Slits 12 separate spring arms 9 formed so that each of the spring arms 9 is formed in the shape of an arc of a circle in cross section. In the area of the spring arms 9 has the screw-in body 3 has a reduced wall thickness, so that the screw-in body 3 has a reduced outer diameter in the spring arm area. The stop surface 10 is in the illustrated embodiment from the end face of the spring arms 9 formed, namely by an annular collar 15, which has a smaller inner diameter than the one in plug-in the area in front of it, seen in the direction Has through hole 5 through which the plug pin extends. The front one The end of the plug pin 6 tapers from the outer edge of the ring surface 11 conical towards the front end. The outer diameter of the front end is smaller than the inner diameter of the collar 15.

The screw-in body 3 has a preferably with an external hexagon provided head 13, the screw-in body up to the stop in the screwing direction rear head surface 14 is screwed into the threaded hole 7 on the housing body 8. The area of the through hole 5 of the screw-in body running through the head 13 3 has a larger diameter than the area of the through hole, in which the spring arms 9 run. The transition between these two areas is designed as a bevel. Corresponding to the enlargement of the diameter of the through hole 5 in the area of the head 13, for example, the plug pin 6 also has in this area an increase in diameter of its outside diameter compared to the outside diameter in the area of the spring arms 9. The transition to the spring arms 5 is also here beveled according to the bevel of the through hole. According to the invention it is now provided that in the head area of the screw-in body 3, the radial seal takes place between the plug part 1 and the screw-in body 3.

This radial seal is in the example shown, see Fig. 2, formed from a sealing ring 16, preferably an O-ring, which is in an annular groove 17 is inserted in the plug pin 6.

In the direction of insertion in front of the sealing ring 16 is within the screw-in body 3 an annular recess 18 is formed. This recess 18 is through a Annular collar 19 closed in the inserted state of the plug part 1, the beginning of the plug pin 6 is formed on the plug part 1. The annular recess 18 opposite is in the plug pin 6 a receiving groove 20 is formed in which a made of elastic material spring element 21 is received, so that the Spring element 21 is seated on the plug pin 6 with a slight bias. This spring element 21 is used to generate an axial preload when the plug part is inserted 1 in the screw-in body 3, so that a constant contact of the stop surface 11 against the ring surface 10 is guaranteed. The spring element 21 is in the illustrated embodiment dimensioned such that in the inserted state the entire recess 18 of the element is filled and such a deformation of the spring element is achieved is that a sealing function can also be taken over at the same time by the spring element can, whereby the penetration of dirt particles into the sealing area of the radial Seal is prevented.

At the end of the plug part protruding from the screw-in body 3 1, a connecting mandrel 22 is formed, onto which an elastic line is attached can be. In the head surface 14 an annular groove 23 is formed in which a sealing ring 24 is inserted. This sealing ring 24 becomes the threaded area of the threaded hole 7 sealed. The sealing ring 24 is dimensioned such that a deformation the same in the screwed-in state of the screw-in nut 3 succeeded the Assembly of the plug-in coupling according to the invention is now carried out in such a way that initially the Screw-in body 3 is screwed into the threaded hole of the housing body 8. Thereafter the preassembled connector pin 6 is inserted into the through hole 5, wherein the spring arms 9 are pressed radially outward by the annular collar 15, namely with simultaneous progression of the axial insertion movement. After completion of the insertion process, the spring arms spring again radially inwards, so that the stop surface 11 engages behind the ring surface. By being elastically deformed when inserted Spring element 21, which is on the one hand on the collar 19 and on the other hand on the opposite Supports the inner surface of the recess 18, an axial preload is achieved which ensures that the contact surface 11 rests against the annular surface 10. The inventive Design makes it possible to insert the preassembled plug pin 6 into the screw-in body 3, as already stated, to be plugged in. Here, pre-assembly is understood to mean that the spring element 21 has already been pushed onto the plug pin.

To release the plug-in coupling according to the invention, the screw-in body 3 unscrewed from the housing body 8, together with the inserted Connector part 1. In the unscrewed state, the connector part 1 can thereby are pulled out of the screw-in body 3 that the spring arms 6 radially at the ends are spread so that the outer edge of the stop surface 11 is no longer the annular surface 10 reaches behind.

In Fig. 3 is another embodiment of one according to the invention Plug-in coupling shown, with the same parts as in Fig. 1 and 2 with the same Reference numbers are provided, which also applies to the following FIGS. 4, 5, 6.

The embodiment according to the invention shown in FIG. 3 differs differs from that of FIG. 1 in the design and arrangement of the radial seal as well as the spring element for generating the axial preload in the inserted State. The spring element consists of a metallic spring ring 26, which is plugged onto the plug pin 6 and on this in particular by a Kl ## - ring 27 is held on the plug pin 6, which is in an annular groove 28 of the Connector pin is guided. The spring ring 26 is in turn between the collar 19 and the opposite side surface of the recess 18 in the inserted state of the plug part 1 and is supported on both sides on these opposite ones Areas for generating the axial preload.

In the embodiment shown, the collar 19 is enlarged in this way and also correspondingly the recess 18 that in the peripheral surface of the collar 19 the elements for radial sealing of the plug-in coupling according to the invention are arranged can be. These elements in turn consist of an O-ring seal 29, 30, consisting of the sealing ring 29 and the annular groove 30. Above the O-ring seal for Sealing of the plug-in coupling according to the invention against leakage of the pressure medium is another sealing ring 31 is arranged in an annular groove 32, which is used to seal against the penetration of dirt from the outside is used.

In Fig. 4 is a further alternative embodiment to the embodiment shown in Fig. 3, with within the recess 18 between the Annular collar 19 and the opposite side surface of the recess 18 one from one rubber-elastic material existing profile ring 34, a so-called quad ring, is arranged on the plug pin 6 in the receiving groove 20. This profile ring 34 serves both as a spring element for generating the axial preload and as a radial seal, both inwards and outwards in FIG. 5 an alternative embodiment to the embodiment in FIG. 4 is shown. Here is in turn inserted as a spring element to generate the axial bias State of the profile ring 34, a so-called quad ring, used in the receiving groove 20 of the plug pin 6 is set. For radial sealing of the invention An O-ring seal is used for the plug-in coupling opposite the outlet of the pressure medium in the insertion direction of the plug pin 6 behind the profile ring 34. This O-ring seal is designed according to the O-ring seal in Fig. 2 and consists of the sealing ring 16 and the annular groove 17.

In Fig. 6 is a further alternative embodiment of the arrangement and execution of the spring element and the radial seal shown in a plug-in coupling according to the invention. Here are on the plug pin 6 of the profile ring 34 and the spring element 26 consisting of a spring ring 26 are arranged next to one another and separated from one another by an annular disk 35. In this embodiment takes over the profile ring 34 after the radial sealing of the plug-in coupling according to the invention inside and the spring ring 26 is used to generate the axial preload. In Fig. 6 shows an arrangement, the spring ring 26 being the front one in the insertion direction Element forms.

However, it can also be provided according to the invention when the Profile ring 34 forms the front element and is followed by the spring ring. It can also be provided, as shown, that the individual elements, the profile ring 34 and the spring ring 26 and the washer 35, not in one Receiving groove 20 of the plug pin are arranged, but by means of a clamping ring 27 is fixed between the annular collar 19 and the clamping ring 27 on the plug pin 26 The sealing to the outside takes place, as in FIG. 3, with a sealing ring 31 in an annular groove 32.

Another embodiment of a plug-in coupling according to the invention can consist of the spring arms at the end of the screw-in body protruding from the housing to train. In this case, the sealing elements for the radial seal could also be used be arranged in the threaded section of the screw-in body.

The present invention is not advantageous to the ones shown Embodiments limited, but also includes such embodiments, which have the same effect within the meaning of the invention. The plug part 1 and the screw-in body 3 are advantageously made of metal, but are also other materials, in particular Plastic materials with appropriate strength values are suitable.

Claims (19)

Claims: 1. Plug-in coupling for pressure lines, consisting of one Plug part with a through hole and a screw-in body with an external thread and a through hole for receiving a plug pin of the plug part, wherein the screw-in body can be screwed into a threaded hole of a housing body is, as well as locking means for fixing the plug part in the housing body and a arranged between the connector pin and the housing body, acting in the axial direction Spring element, as well as a radial seal between these two parts, d a d u r c h g e -k e n n n z e i c h n e t that the locking means from the screw-in body (3) one-piece at the end, extending in the longitudinal direction, in the radial direction Direction of flexible spring arms (9) exist, which have an inwardly gcrichtete stop surface (10), which when the plug is plugged in part from an outwardly extending annular surface (11) of the plug part in the insertion direction is seen from behind and the radial seal and the spring element outside the spring arms are arranged. 2. Plug-in coupling according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the stop surface (10) and the annular surface (11) extend radially and the spring arms at the screw-in end or at the protruding from the housing body (8) End of the screw-in body (3) are integrally formed. 3. Plug-in coupling according to claim 1 or 2, d a d u r c h g e k e n n z e i c h n e t that at least three, preferably four spring elements (9) are formed which are separated from one another by longitudinal slots (12). 4. Plug-in coupling according to one or more of claims 1 to 3, d a d u r c h g e k e n n n z e i c h n e t that the stop surface (10) from the end face the spring arms (9) is formed. 5. Plug-in coupling according to one or more of claims 1 to 4, d a d u r c h g e k e n n n z e i c h n e t that the annular surface (11) from the in the direction of insertion seen from the rear radial side wall of an annular groove open to the through hole (5) (6a) is formed in the plug pin (6). 6. Plug-in coupling according to one or more of claims 1 to 5, d a -d u r c h e k e n n n z e i c h n e t that the spring arms (9) at their free Ends, starting from the outer edge of the annular surface (11), conically towards the front end rejuvenate. 7. Plug-in coupling according to one or more of claims 1 to 6, d a d u r c h e k e n n n z e i c h n e t that the spring element is used to generate the radial bias in a recess (18) between an annular collar (19) of the plug part (1) and a radial contact surface of the screw-in body (3) is arranged. 8. Plug-in coupling according to one or more of claims 1 to 7, d a d u r c h e k e n n n z e i c h n e t that in front of the recess (18) in the insertion direction seen the radial seal (29,30; 31,32) of the plug part (1) against the screw-in body (3) is arranged. 9. Plug-in coupling according to one or more of claims 1 to 7, d a d u r c h e k e n n n z e i c h n e t that the radial seal (34) of the plug part (1) is arranged against the screw-in body (3) within the recess (18). 10. Plug-in coupling according to one or more of claims 1 to 7, d a d u r c h e k e n n n z e i c h n e t that the radial seal (16,77) of the Plug part (1) against the screw-in body (3) in the insertion direction behind the recess (18) is arranged. 11. Plug-in coupling according to one or more of claims 1 to 10, d u r c h e k e n n n z e i c h n e t that the radial seal consists of one there is a sealing ring (16,29,3 #) arranged in the plug part. 12. Plug-in coupling according to one or more of claims 1 to 11, d u r c h e k e n n z e 1 c h n e t that the spring element (21,26,34) on the Connector part is attached. 13. Plug-in coupling according to one or more of claims 1 to 12, d a d u r c h e k e n n n z e i c h n e t that the spring element is used to generate the axial preload from a profile sealing ring (34), in particular a quad ring, consists 14. Plug-in coupling according to one or more of claims 1 to 13, d a d u r c h g e k e n n n z e i c h n e t that the spring element for generating the axial Preload consists of a metallic spring ring (26). 15. Plug-in coupling according to one or more of claims 1 to 14, d a d u r c h e k e n n n z e i c h n e t that the profile sealing ring (34) and the Spring ring (26) in a receiving groove (20) of the plug part (1) in the area of the recess (18) are arranged side by side. 16. Plug-in coupling according to claim 15, d a d u r c h g e -k e n n z e i c h n e t that between the profile sealing ring (34) and the spring ring (26) an washer (35) is arranged. 17. Plug-in coupling according to one or more of claims 1 to 16, d u r c h e k e n n n z e i c h n e t that the spring element and / or the profile sealing ring (R4) by means of a clamping ring (27) which is inserted in an annular groove (28) of the plug part (1) is arranged, are held between the annular collar (19) and the clamping ring (27). 18. Plug-in coupling according to one or more of claims 1 to 17, d u r c h e k e n n n z e i c h n e t that the screw-in body (3) has a head (13), which preferably has an external hexagon, and screwed in State of the screw-in body (3) the head (13) with its the housing body (8) facing head surface (14) rests on this. 19. Plug-in coupling according to claim 18, d a d u r c h g e -k e nn z e i c h n e t that in the head surface (14) within an annular groove (17) a sealing ring (16) is arranged