NO171472B - SEALING RING FOR SOCKET CONNECTIONS - Google Patents

Abstract

A sealing ring with a slot (7) directed towards the inside of the joint in an outer fitting part (8) and an inner sealing lip (9) adjacent to the peak end to be inserted (2) is provided with a retaining area (5) directed towards the outside of the joint and having an inner diameter exceeding the maximum outer diameter of the peak end (2), as well as a sealing area (6) directed towards the inside of the joint and having an inner diameter smaller than the outer diameter of the peak end (2) on a portion longer than the total length of the slot (7).

Description

The invention relates to a sealing ring for sleeve pipe connections as stated in the introduction to claim 1.

A sealing ring of this type, with an outer contact part and an inner sealing lip, is known for example from DE-A 27 01 873. As a result of the recess, a good sealing effect is achieved, because the sealing lip presses firmly against the insertion pipe.

A sealing ring with constrictions is also known from DE-A

24 35 089. The purpose there is also to achieve a proper seal. The design example shown there relates to socket connection between plastic pipes with the usual socket and wave contours. In the case of such pipes, the sleeves are provided by expanding the pipe. Thereby, a circumferential end recess is created which usually has a smaller profile angle towards the sleeve opening than towards the interior of the sleeve.

The intended sealing must be achieved with the known sealing rings. However, the easily deformable sealing ring has certain shortcomings. Thus, without special measures, it will not be possible to put it into the pipe factory, because the sealing ring could fall out as a result of the vibrations to which the pipe is exposed during transport. A further problem is that the usual sealing rings require a chamfer of the end of the insertion tube, because otherwise it will hardly be possible to push the insertion tube in. During the displacement, the insertion pipe will exert a large thrust on the sealing ring and can thereby push it out of the recess.

In the upper tolerance range, where there is a relatively large clearance between the socket and the insertion pipe, there is also a danger that the sealing ring will press into the gap at a higher internal pressure or even be pushed completely out of the connection area. This danger is increased as a result of the special recess profile with the smaller profile angle in the direction towards the sleeve opening. Such changes in the sealing conditions require major remedial efforts when it comes to buried pipelines.

The purpose of the invention is to provide a sealing ring which seals well and which cannot fall out of the ring recess, and which also cannot be pushed out of the recess when the insertion pipe is inserted or in the event of a high internal pressure in the finished pipe connection. The sealing ring must also enable the laying of the pipeline without it being necessary to chamfer the insertion pipe ends.

According to the invention, a sealing ring is therefore proposed as stated in claim 1, with the features stated in the specification.

According to the invention, it is thus ensured that the sealing ring has a so-called core zone, between the bottom of the ring groove or the split and a point in the sealing area, determined by the fact that it is where the inner diameter of the sealing ring coincides with the outer diameter of the end part of the insertion tube. When the insertion tube is pushed into the sleeve, where the sealing ring is located, the end part of the insertion tube will thus compress the sealing ring material in the core zone and then bend the sealing lip. The rest of the sealing ring, the so-called holding area, plus a bit of the lip sealing area, will lie free relative to the insertion tube in the state of use. This is also important, because it is what contributes to the sealing ring being advantageously held in the curved ring recess in the sleeve.

From GB 1,131,829 a sealing ring without the combined sealing effect is known. Incidentally, the known design also has no real ring groove, but only depressions that provide the necessary elasticity for the sealing lip, which is thus really only compressed and not bent.

In an embodiment known from GB 1,339,523, no core zone is found which is compressed during insertion.

From GB 2,052,661, a sealing ring is known where one does not have a real retaining part with the required hardness, and therefore a special retaining ring is also required.

An embodiment known from the Norwegian specification document 137,400 is a special sealing ring that requires chamfering of the end of the introduction tube, and no real compression effect is achieved.

From the Norwegian design document 119,200, a sealing ring is also known in an embodiment where only a pure compression of a sealing part is achieved.

From Swedish specification 408,726, a sealing ring is known which, during the insertion of the insertion tube, will twist in the ring recess. In the state of use, there will be no free space between a holding part and the insertion tube, and it is therefore in reality only a pure pressure seal.

Further features of the invention will appear from the independent claims.

Advantageously, the inner diameter of the sealing ring becomes smaller and smaller in the sealing area. In order for the holding area to provide a holding effect against an insertion pipe even at the holding area's upper tolerance limit, it is recommended that the inside diameter of the holding area be larger than the inside diameter of the sleeve's insertion opening. In the holding area, the sealing ring will then lie slightly pulled back, i.e. within the inner sleeve limitation. A chamfer of the outer or front end of the sealing ring will prevent ejection of the sealing ring from the recess even when the non-chamfered insertion tube is inserted at an angle. The outer contour of the sealing ring adapts in the usual way to the inner contour of the ring recess. An outer flattening provides a better fit and facilitates installation. If the subsequent installation part of the sealing ring lies with a bias against the inner wall in the ring recess, then a small sprain will provide better positioning and sealing effect for the sealing ring.

A special hardness above 55 Shore A will give the sealing ring sufficient stability. Thereby, the sealing ring will be secured against an expression from the sleeve. This means that the sealing ring can be fitted at the pipe factory. In addition, the sealing ring will have a sufficient sealing effect in the area of the recess.

A deliberate division of the sealing ring into a soft part in the sealing area and a hard part in the holding area will give the sealing ring a particularly good sealing and holding effect. The already known, good sealing occurs with the help of the soft material. The hard part prevents displacement, both before and after the pipe installation. The sealing ring can be installed in the pipe factory. The sealing lip on the soft part will, in connection with the position protection provided by the hard part, enable the insertion of an insertion tube without a chamfered end. As material for the sealing ring, natural rubber or a suitable synthetic rubber or rubber mixtures are suitable. When dividing into two hardness zones, the hard part should have a Shore hardness that exceeds 60, and preferably exceeds 80.

The drawing shows two embodiments of the invention.

The drawings show:

Fig. 1 a partial longitudinal section through a pipe connection, fig. 2 shows a partial longitudinal section through the pipe connection else in the upper tolerance range, and fig. 3 and 4 show respective sections of sealing rings. 1 the socket 1 of a socket pipe is a second pipe, the insertion pipe 2 is inserted. The sleeve 1 has an annular recess 3 where a sealing ring 4 is inserted. The sealing ring is built up with a holding area 5 which exerts a holding effect, and with a sealing area 6 which mainly exerts a sealing effect. The sealing area 6 has a circumferential recess 7 so that it is divided into an outer mounting part 8 and a sealing lip 9 that abuts the insertion pipe 2. An outer flattening 10 ensures a good seat for the sealing ring. At the end of the holding area 5, a cleaning lip 11 is arranged which removes any dirt on the insertion tube 2 during the connection. The inner diameter of the sealing ring 4 in the holding area 5 is, as shown, larger than the outer diameter of the insertion tube 2, and is also larger than the inner diameter of the sleeve 1 at the insertion opening 12. This means that the holding area does not engage with the insertion tube 2. During the insertion of the insertion tube, the holding area will therefore exert a good holding effect. In the sealing area 6, the inner diameter of the sealing ring 4 is made smaller than the outer diameter of the insertion tube 2, which results in sealing in this area. The point where the insertion tube 2 hits the end of the sealing ring 4 is greater than the longitudinal extent of the recess 7, so that a pressure effect is thereby achieved on the entire sealing ring cross-section.

In fig. 1-3, the sealing ring consists of a material with uniform hardness. To ensure a proper holding effect, there should be a hardness of around 55 Shore A in all areas.

In fig. 4, the sealing ring has two different hardnesses. A hard part in the holding area 5 ensures a holding effect. A soft part in the sealing area 6 ensures the sealing effect.

Claims (7)

1. Sealing ring for socket pipe connections for insertion into a domed ring recess (3) in a socket (1) and with a counter the bottom of the sleeve, the straight area (6) which is split by an annular groove (7) into an outer contact part (8) and an inner sealing lip (9) that abuts against the end part of an insertion tube (2), and a solid holding area facing the mouth of the sleeve (5), whose back surface lies in the ring recess (3) and whose inner diameter is larger than the outer diameter of the end part of the insertion tube (2), as the inner diameter of the sealing ring before the insertion of the end part of the insertion tube (2) decreases towards the bottom of the sleeve, characterized in that it towards the end of the sleeve (1) bottom-directed sealing area (6) is designed as a compressible core zone of the end part of the insertion tube (2), limited towards the bottom of the sleeve by an imaginary transverse plane through the bottom of the annular groove (7) and limited towards the mouth of the sleeve by a transverse plane situated at a place in the sealing area ( 6) where the inner diameter of the sealing ring is larger than the outer diameter of the end part (2) of the insertion tube past the holding area (5) and into the sealing area (6). 2. Sealing ring according to claim 1, characterized in that the area (6) directed towards the bottom of the sleeve is designed as a soft part and that the area (5) directed towards the mouth of the sleeve is designed as a hard part. 3. Sealing ring according to claims 1 and 2, characterized in that the inner diameter in the area (6) directed towards the bottom of the sleeve decreases more strongly than in the area (5) directed towards the mouth of the sleeve. 4. Sealing ring according to claims 1-3, characterized in that the inner diameter of the area (5) directed towards the mouth of the sleeve exceeds the inner diameter of the mouth of the sleeve (1). 5. Sealing ring according to claim 1, characterized in that its outer contour, with the exception of an outer flattening (10), roughly corresponds to the inner contour of the curved ring recess (3) in the sleeve (1). 6. Sealing ring according to claims 2 and 5, characterized in that the flattening (10) is completely arranged in the hard part under the design of a two-sided support surface. 7. Sealing ring according to claim 1, characterized in that the outer mounting part (8) is prestressed against the domed ring recess (3).