CS196249B2 - Tubular joint with elastic packing ring - Google Patents

Abstract

1426501 Joint-making packing; pipe joints KERAMO NV 24 May 1973 [1 Feb 1973] 25022/73 Headings F2B and F2G Packing for a spigot-and-socket pipe joint comprises an elastic sealing ring 1 having a generally H-shaped radial cross-section, the outer leg 2 being parallel to the ring axis, and the inner leg 3 being inclined thereto. Preferably, the legs 2 and 3 and the transverse body 4 are rectangular, triangular and trapezoidal, respectively, in cross-section as in Figs. 1 and 2. The ring may be of rubber or polyurethane. The dimension a, Fig. 1, is less than b, so that when the pipe end 13 is inserted in the ring, after the latter is positioned in the socket 11, the leg 3 is pivoted about its junction with the body 4, Fig. 6, until finally the part 8 engages the leg 2 and the upper surface 10 of part 7 engages the pipe end 13 as in Fig. 7

Description

BACKGROUND OF THE INVENTION The invention relates to a tubular joint with a flexible sealing ring which is interposed between the neck and the end of the pipe and has a radial cross-section with an H-shaped outer leg parallel to the axis of the ring and the inner oblique leg having a triangular cross-section. bridge between the shoulders.

A pipe joint of this kind is known from German Patent No. 1,005,460 and ensures the watertightness of the pipe to which external or internal pressure is applied; it must withstand the mechanical stresses that arise due to the flexibility of the pipeline and the pressure of the soil.

The purpose of the invention is to improve a pipe joint of this kind so that it has a larger sealing surface and exerts a high pressure between the neck and the end of the pipe. In addition, the joint according to the invention is intended to fulfill the sealing function with low material consumption for the sealing ring and to allow reliable pipe connection on site without special tools.

The pipe joint according to the invention is characterized in that the inclined inner leg of the sealing ring has a rib which faces inwardly towards the outer end of the pipe throat and is rotated when the pipe end is inserted into the pipe throat.

When inserting the end of the mouth. the rib is compressed into the throat of the seat tube and the entire inner arm and the bridge are rotated. The rib is pressed against the insertion tube while the other end of the inner arm is pressed against the outer arm of the sealing ring. This results in a reliably sealed joint, since the end of the inner arm is pressed. on the outer arm, creating a radial sealing pressure.

A further advantage of the invention is that the movable part of the sealing ring exerts virtually no tensile or shear force on the fixed part of the sealing ring adjacent to the neck when the pipe is inserted into the neck. The sealing ring can therefore stick to the inner opening of the neck and there is no risk of it breaking off when the second oven is inserted.

The invention will be explained in connection with the exemplary embodiments shown in the drawing, in which: Fig. 1 is an axial section of the sealing ring according to the invention; Fig. 2 a variant of the sealing ring according to Fig. 1; 4 shows a similar view to FIG. 2 but to a third embodiment, FIG. 5 shows an exploded view of the sealing ring connection according to FIG. 1, FIG. 6 is similar to FIG. 5, but after partial insertion of the end one pipe into the neck tube part, Fig. 7 a view similar to FIG. 6, _after; fully retracting the belly of one oven into the throat of the other oven, and FIG. 8, part F8 of FIG. 7 on an enlarged scale.

The sealing ring 1 of the pipe joint according to the invention has a radial cross-section in the form of a "H" with arms 2, 3 and a bridge 4. The outer arm 2 is preferably rectangular in section, while the inclined inner arm 3 is triangular and bridge 4 between arms 3. 4 is trapezoidal in shape. According to FIG. 1, the inner side 5 of the inner arm 3 is inclined with respect to the outer side 6 of the outer arm 2, while the junction of the center of the base of the bridge 4 forms an almost right angle with the outer side 6 of the outer arm 2.

At its apex T, the triangular inner arm 3 is connected to the end of the bridge 4 and thus two parts relative to the bridge 4, the upper part 7 and the lower part 8.

The profile of this sealing ring 1 is further shaped such that the shortest distance "a" between the intersection of the outer side 14 of the inner leg 3 with the underside of the trapezoidal bridge 4 and between the inner side of the outer leg 2 according to FIGS. 11, according to the embodiment of FIG. 4, is smaller than the height b of the outer side 14 of the lower part 8 of the inner leg 3. The diameter "d" of the intersection circle of the upper side 9 of the bridge 4 with the upper part 7 of the inner leg 3 determines the smallest outer diameter Applicable with O-ring, while the diameter "e" of the central circumference of the upper side 9 of the bridge 4 determines the largest diameter of the still usable oven.

Giant. 2 shows an embodiment in which the inner side 5 of the triangular inner arm 3 is kinked, while FIG. 3 shows an embodiment in which the upper side 9 of the bridge 4 is horizontal. According to FIG. 4, the outer arm 2 is shortened and connects to the bridge 4 at its end. From the foregoing, it is apparent that the embodiments are not limited to the examples given.

The sealing ring 1 according to the invention is preferably made of elastomers, for example rubber and the like. The choice of material depends primarily on the nature of the fluid that will flow through the conduit.

In all embodiments of FIGS. 1 to 4 it has

Claims (6)

A tubular joint with an elastic sealing ring which is inserted between the neck and the end of the pipe and has a radial cross-section in the shape of an H, whose outer leg is parallel to the axis of the ring and the inner inclined leg has a triangular cross-section. between the arms, characterized in that the inclined inner leg (3) of the sealing ring (1) has a rib (10) which faces inwardly towards the outer end of the neck (11) of the oven (12) and is neck (11) turned. 2. A pipe joint as claimed in claim 1, characterized by an upper part 7 of the inclined inner leg 3 on the outside of the rib 10, which is in contact with _; insertion of one pipe into the throat of the other pipe reverses and reliably seals the joint. Figures 5 and 8 show an embodiment where the sealing ring 1 according to the invention is inserted in the neck 11 of the oven 12. It will be appreciated that the same effects will be obtained when the sealing ring is inserted into a separate one. Pipe clamp element used to connect two smooth pipes. ; ^! FIG. 5 is a sealing ring; 1; 11, for example by gluing. V) When the end 13 of the second tube 12 is inserted into the neck 11, it pushes the upper edge of the ring by resting against the upper part 7 of the inner arm 3 of ring 1 (FIG. 6). As a result, you. the bridge 4 tines and the inner arm 3 of the sealing ring 1 is rotated so that the edge of the lower part 8 of the inner arm 3 'squeezes against the inner side of the outer arm 2, which is made possible by the flexibility of the bridge 4 and pivoting the inner arm 3 around the top T. Importantly, as the inner arm 3 moves downward, it is subject to minimal tensile and shear forces. When the end 13 is fully inserted into the neck 11 of the pipe 12 according to FIG. 7, the lower part 8 of the inner arm 3 engages between the web 4 and the outer arm 2, so that part of the upper side 9 of the web 4 and the rib 10 of the inner arm 3 are pressed against the outer surface of the end 13 of the retracted pipe 12. It is clear that in this modification the release of the sealing ring 1 from the neck 11 is excluded, since the tensile and shear forces acting on the outer arm 2 are minimal. whereas, despite the relatively small amount of material of the sealing ring 1, the sealing surface pressed against the end 13 of the tube 12 is large; the radial sealing pressure is relatively high due to the compression of the lower part 8 of the inner arm 3. By folding the sealing ring, all the requirements for a tight joint are fulfilled, both in the case of the pressure from the inside to the outside and the pressure in the opposite direction. The invention is not limited to the described exemplary embodiments shown in the accompanying drawings and is applicable to the various shapes and dimensions of the sealing ring. However, in that the inner side (5) of the inner arm (3) is in the shape of a broken line concave into the interior of the sealing ring (1). Pipe joint according to Claim 1, characterized in that the web (4) between the arms (2, 3) of the sealing ring (1) is trapezoidal in cross-section. Pipe joint according to Claim 3, characterized in that the inner ram (3) is connected by a vertex with a smaller base of the trapezoidal bridge (4). Pipe joint according to claims 1 to 4, characterized in that the outer side (14) of the inner arm (3) intersects the lower side of the web (4) at a point whose distance (a) from the inner side of the outer arm (2). is shorter than the height (b) an outer side (14} of the inner arm (3} under the bridge (4). _л 6. A pipe joint as claimed in claims 1 to 4, characterized in that the outer side (14) of the inner arm (3) intersects the lower side of the web (4) at a point whose distance from the outer side of the outer arm (2) is less than height. (b) the outside (14) of the inner arm (3) below the bridge (4).