FI66069C - I EN PLASTROERSMUFF BELAEGET SPAOR FOER TAETNINGSRING - Google Patents

Description

6: 3069

The present invention relates to a groove for a plastic pipe sleeve for a sealing ring, the groove having an axial bottom wall and two associated approximately radial walls, the inner surface of the front wall closest to the free end of the sleeve being inclined so that it does not extend outwards. to be released.

The grooves for the sealing ring have a front wall 10 closest to the free end of the sleeve and a rear wall remote from said end, generally perpendicular to the longitudinal axis of the tube. However, in sleeves made by the over-drawing technique, the front wall of the groove is inclined so that when it goes outwards it moves away from the free end 15 of the sleeve, as a result of the extraction of the non-shrinking core. This slope due to manufacturing reasons also applies to the inner surface of the wall. In this case too, the inner and outer surfaces of the rear wall remote from the free end of the sleeve are perpendicular to the axis of the sleeve.

20 The production of grooves using traction technology is economically advantageous due to the simple structure of the equipment. However, the method has the disadvantage that an unnecessarily loose opening is formed in the groove in the plane of the inner surface of the sleeve, as a result of which the final exact residue-25 compression of the sealing ring is not known, which may cause sealing problems. This drawback is exacerbated by the fact that the final exact slope of the groove front wall is also not known in advance, as this slope is due to several product-specific factors such as plastic composition and its temperature and stiffness during extraction, so the final groove cross-section cannot be accurately predicted.

When connecting the pipes to each other, a sealing ring, e.g. an O-ring with a diameter greater than the depth of the groove, is first placed in the sleeve groove, so that part of the sealing groove-35 extends inside the inner surface of the sleeve. When the plug end of the second tube is then inserted into the sleeve, the sealing ring is flattened and pressed against the bottom and rear wall of the groove, so that a large installation force is often required to push the plug head into the sleeve when the front edge of the plug head is not chamfered. When the insertion force of the insertion head-5 is stopped, the insertion head moves slightly backwards under the action of the sealing ring, whereby the sealing ring settles in the middle of the groove, where it is primarily under radial compression, thus sealing the gap between the insertion head and the sleeve.

The object of the present invention is to provide a groove for a sealing ring, in connection with which the residual compression of the sealing ring can be more accurately predicted and which substantially reduces the installation force required when connecting the pipes. The groove 15 according to the invention is characterized in that the inner surface of the radial rear wall further away from the free end of the sleeve is also inclined so that it moves away from the free end of the sleeve when going outwards. Due to the inclined rear wall, the opening of the groove does not become looser than the other parts of the groove, due to which the residual compression of the sealing ring can be controlled. In addition, the cross-sectional area of the groove increases compared to a groove having a perpendicular rear wall, whereby variations in the slope of the front wall change the cross-sectional area of the groove relatively less. For this reason, the residual compression 25 of the sealing ring can be calculated more accurately in advance. The inclined inner surface of the rear wall of the groove also forms a "pocket" in the rear of the groove near the bottom, into which part of the sealing ring protrudes during installation. For this reason, the sealing ring does not cause as much counterforce to the advancement of the plug head as if the rear surface of the groove is straight in the usual way. Experiments have shown that the reduction in installation force achieved in this way is very large.

According to a preferred embodiment of the invention, the inner surface of the rear wall of the groove is parallel to the inner surface of the front wall. A groove of this shape can also be made with a shrink core.

3,65069

The groove of the sealing ring according to the invention will now be described in more detail with reference to the accompanying drawing, in which Fig. 1 shows a groove in cross section just when the plug ring 5 contacts the sealing ring, Fig. 2 shows a situation where the plug head already compresses the sealing ring, and Fig. 3 shows a finished connection. The figures show a part of a sleeve 1 with a circumferential groove 2 formed by a bottom wall 3 and two approximately radial walls, a front wall 4 and a rear wall 5. The figures also show a plug 6 of a second plastic tube and a sealing ring 7 in the groove 2. is an O-ring made of rubber.

The inner surface 8 and the outer surface of the front wall 4 are inclined with respect to the radius of the sleeve.

According to the invention, the inner surface 9 of the rear wall 5 of the groove is also made inclined so that when it goes outwards it moves away from the free end of the sleeve, i.e. moves backwards. As a result of the position of the Si-20 pin 9, the opening of the groove is not looser than other parts of the groove and, in addition, a "pocket" is formed between this surface and the base, in which part of the sealing ring can settle during installation. The inner surface 9 forms an angle of 15 ° to 35 °, preferably about 25 °, with the radius of the sleeve. Its outer and inner edges are rounded as shown. The inner surfaces 8 and 9 are approximately parallel.

Figure 1 shows the situation before connecting the pipes to each other, with the sealing ring 7 in its free state. When the plug head 6 is inserted inside the sleeve 30 according to Fig. 2, the sealing ring is compressed and spreads laterally as the rear part enters the pocket between the inner surface 9 and the bottom wall 3, which means that the installation force is less than if the inner wall 9 is radial. In the finished joint according to Fig. 3, the sealing ring 35 7 is compressed in a conventional manner mainly only in the radial direction between the base 3 and the plug head 6, thus sealing the gap between the sleeve and the plug head.

Claims (3)

A groove for a plastic pipe sleeve for a sealing ring, the groove (2) having an axial bottom wall (3) and two associated approximately radial walls (4, 5), the inner surface (9) of the front wall (4) closest to the free end of the sleeve (1) is inclined so that it moves outwards from the free end of the sleeve (1), characterized in that the inner surface (9) of the radial rear wall (5) further away from the free end of the sleeve (1) is also inclined so as to move outwards 1) free end. Sleeve groove according to Claim 1, characterized in that the inner surface (9) of the rear wall forms an angle of 15 ° to 35 °, preferably about 25 °, with the radius of the sleeve (1). Sleeve groove according to Claim 1 or 2, characterized in that the inner surface (9) of the rear wall is parallel to the inner surface (8) of the front wall (4).