PL209351B1 - Piping - Google Patents

Description

Description of the invention

The subject of the invention is a pipe, used in particular for pressure transmission of media and the construction of the entire water supply network or its part.

A multilayer pipe is known from the Polish patent specification No. 172 737 having a wall consisting of at least three different layers of multiparticulates joined together coherently, characterized in that the inner layer of the pipe is made of a material with precisely defined properties, the outer layer of the pipe is made of materials with a fixed color and gloss, and the middle layer is made of a material with good electrical, thermal or vibration conductivity or with a fixed magnetic field. The middle layer is continuous or openwork or in the shape of a longitudinal strip.

A chemical-resistant plastic pressure pipe is known from the description of utility model application No. 112378. The pipe has an internal layer consisting of one resin layer, which is bound with a support in the form of a glass and synthetic fleece or with a thermoplastic lining PP, HDPE, PVC, PVDF, FEP . In contrast, the outer layer has a coating with a glass content of 35% to 60%.

From Patent Application No. 315,926, a fluid transport pipe is known which has a main layer made of a first polymeric material bonded to an inner or outer sleeve of a much smaller wall thickness made of a second polymeric material. The main layer and the sleeve are made by coextrusion with an intermediate tie layer.

The essence of the pipe according to the invention consists in the fact that the outer pipe is a pipe of constant diameter and the inner pipe made of flexible material is a pipe that changes its diameter under the influence of the pressure of the transported medium.

Preferably, the inner tube is made of silicone rubber.

Preferably, inextensible fibers oriented along the inner tube are fused into the wall of the inner tube.

Preferably, the inner tube is fixed at the bottom of the outer tube along its lowermost generatrix.

Preferably, the inner tube is glued at the bottom to the outer tube.

Preferably, at least one sensor detecting a perforation of the inner and / or outer tube is disposed inside the outer tube.

The sensor is preferably recessed into the wall of the outer tube.

Preferably, the outer tube is provided at its ends with an annular flange on which the inner tube is turned, the turn being pressed against the flange by a pressure ring.

Preferably, the length of the outer tube is equal to the length of the inner tube, and the ends of these tubes are connected by an expansion ring placed inside the inner tube.

The advantage of the pipeline according to the invention is that it is possible to obtain an even flow velocity with a different amount of transported medium. This is of great importance in the case of water networks, where the amount and speed of flowing water depends on its consumption by users. In addition, secondary contamination of water inside the water supply network is eliminated, especially due to corrosion, which is protected against by an internal pipe made of flexible material. The variable diameter pipeline is particularly suitable for use in a water supply network in sparsely populated areas where, due to low water consumption, the water retention time is significantly extended, leading to secondary contamination and bacteriological contamination.

The new variable diameter pipeline allows the reduction of water retention time in pipes to be reconciled with fire regulations specifying minimum pipe diameters.

The subject of the invention in an exemplary embodiment is shown in the drawing, in which fig. 1 shows the cross-section of the conduit at low pressure of the transported medium, fig. 2 - cross-section of the conduit at high pressure of the transported medium, fig. 3 - longitudinal section of the conduit equipped with a pressure ring, and Fig. 4 is a longitudinal section of a conduit provided with an expansion ring.

PL 209 351 B1

P r z k ł a d 1

The pipe conduit has an outer pipe RZ, in which a flexible inner pipe RW is placed, which changes its diameter under the influence of the pressure of the transported medium. On the inner wall of the outer tube RZ on the side of the inner tube RW, a sensor CZ is arranged to detect damages, in particular discontinuities of the inner tube RW. Moreover, the outer pipe RZ is provided at its ends with an annular flange KL, on which the inner pipe RW is folded. The turn of the inner pipe RW is pressed against the flange KL with the clamping ring PD. KL flange with PD clamping ring, between which the internal pipe flange RW is located, are permanently connected with bolts and nuts. The use of the KL flange facilitates the connection of pipes in the main line.

P r z k ł a d 2

The pipe is made as in the first example, with the difference that the outer pipe RZ is equal to the length of the inner pipe RW, and the ends of these pipes RZ, RW are connected by an expansion ring PR placed inside the inner pipe.

P r z k ł a d 3

The pipe is made as in the first or second example, with the difference that the inner pipe RW is made of silicone rubber, is fixed in the outer pipe RZ by gluing the inner pipe RW to the outer pipe RZ along its lowest forming part, and non-stretchable embedded in the wall of the inner pipe RW NW fibers oriented along the inner tube RW, and the sensor CZ is recessed into the wall of the outer tube RZ and does not enter the cross-sectional lumen.

The water flowing through the conduit at low pressure flows relatively quickly because the inner tube RW subjected to this pressure has a small diameter. The gradual increase in pressure causes the inner tube diameter RW to increase until it rests against the outer tube. A further increase in water pressure only leads to an increase in the flow velocity.

Claims (9)

1. A plastic pipe containing an inner tube placed inside the outer tube, characterized in that the outer tube (RZ) is a constant diameter tube and the inner tube (RW) is made of flexible material, is a tube that changes its diameter under the influence of the pressure transported therein. medium. 2. The cable according to claim The method of claim 1, characterized in that the inner tube (RW) is made of silicone rubber. 3. The cable according to claim The method of claim 1, wherein polymer non-stretchable (NW) fibers oriented along the inner tube (RW) are fused into the walls of the inner tube (RW). 4. The cable according to claim The method of claim 1, characterized in that the inner tube (RW) is fixed in the lower part to the outer tube (RZ) along its lowest generatrix. 5. The cable according to claim The method of claim 4, characterized in that the inner tube (RW) is glued in the lower part to the outer tube (RZ). 6. The cable according to claim The method of claim 1, characterized in that at least one sensor (CZ) is provided inside the outer tube (RZ) to detect a perforation of the inner tube (RW) and / or outer tube (RZ). 7. The cable according to claim The method of claim 1, characterized in that the sensor (CZ) is recessed into the wall of the outer tube (RZ). 8. The cable according to claim 1. The method of claim 1, characterized in that the outer pipe (RZ) at its ends is provided with an annular flange (KL) on which the inner pipe (RW) is folded, and the turn of the inner pipe (RW) is pressed against the flange (KL) with a clamping ring (PD). 9. The cable according to claim The method of claim 1, characterized in that the length of the outer tube (RZ) is equal to the length of the inner tube (RW), and the ends of these tubes (RZ, RW) are connected by an expansion ring (PR) placed inside the inner tube (RW).