RU2717728C1 - Composite glass pipe for pressure and pressureless pipelines laid by microtunneling - Google Patents

Abstract

FIELD: pipelines.

SUBSTANCE: invention relates to glass-composite pipe for pressure and pressure-free pipelines and can be used for trenchless pipeline laying by micro-tunneling and drilling-and-drilling drilling at depth of 2 to 80 m and length of up to 1,500 m. Proposed glass composite pipe consists of glass composite pipe and steel or glass composite clutch tightly interconnected by elastic O-rings. Composition of the glass composite pipe includes a matrix based on polyester binder: from 30 to 40 % of mass fraction, continuous and chopped glass fibers: from 10 to 40 % of mass fraction, disperse filler: from 20 to 50 % of mass fraction. Glass-composite pipe is made by the method of continuous winding of reinforcing fillers impregnated with thermosetting binding agents on the basis of unsaturated polyester resins with further hardening. Glass-composite pipe contains at least three layers. Inner layer consisting of polyester resins with reinforcing fillers: discrete and continuous glass windings and glass fiber from chemically resistant glass fiber impregnated with polyester binder. Structural layer consisting of unsaturated polyester resins, glass fiber fillers and quartz sand. Outer layer consisting of unsaturated polyester resins, glass fiber fillers. Thermosetting binder can be polyester or other chemical-, corrosion- and wear-resistant resins.

EFFECT: achieving improved operational characteristics of the device.

1 cl, 4 dwg

Description

The claimed invention is used for trenchless laying of pipelines by microtunnelling and by auger drilling method, as well as a puncture at a depth of 2 to 80 m and a length of up to 1,500 m, without disturbing the ground infrastructure and landscape along the route and relates to waterworks, storm and household sewage pipelines , storm drains, industrial and other drains, pipelines for transporting chemical liquids, in particular a glass composite pipe for pressure and pressureless pipes vodov, laid by microtunnelling.

An analogue of the claimed invention is a pipe made of a multilayer composite fiber material formed in the form of alternating monolayers with transverse and longitudinal laying of a reinforcing material impregnated with a binder, the monolayers being located at an angle to the axis of the pipe, forming an oblique longitudinal-transverse structure having a protective layer, characterized in that that the protective layer has a higher saturation with longitudinal fibers than in the other layers of the pipe, and, accordingly, a reduced binder content, and the monolayer and the protective layer are oriented towards the pipe axis at an acute angle to the direction of flow of the moving bodies in the pipeline (patent for the invention of the Russian Federation No. 2379571, publication date: 01/20/2010).

The main disadvantages are that the analogue has a reduced chemical and abrasion resistance, and also does not prevent the transport of liquids into the structural layers of the pipe, which reduces the service life due to the absence of chemically resistant glass fibers in the inner layer and an increased content of thermoset chemically resistant matrix .

Another analogue selected as a prototype is a fiberglass shield tube for microtunnelling of reinforced thermosetting polymers made by continuous winding of reinforcing fillers, containing several layers of a mixture of binder and fiber filler, taken in various ratios, characterized in that it contains a layer of reinforcing fillers impregnated a binder material based on unsaturated polyester and vinyl ester resins in solution with an accelerator and hardener, while pipes and it contains milled and machined ends for a coupler (patent for utility model of the Russian Federation No. 173495, publication date: 08/29/2017).

Significant disadvantages of this prototype is the low stiffness and chemical resistance of the inner layer, in the first case this is achieved due to the lack of dispersed filler in the design, in the second - due to the absence of glass fibers made of chemically resistant fiberglass.

Thus, the analogue and prototype have low performance.

The objective of the claimed invention is to eliminate the disadvantages of the analogue and prototype, and the technical result is the achievement of increased operational characteristics of the device.

The stated technical result is achieved due to the fact that the glass composite pipe for pressure and pressure-free pipelines laid by microtunneling and auger drilling method is characterized by the fact that it consists of a glass composite pipe and a steel or glass composite sleeve, hermetically connected to each other by elastic sealing rings, into a glass composite pipe includes a matrix based on a polyester binder: from 30 to 40% mass fraction, continuous and chopped glass fibers: from 10 up to 40% mass fraction, dispersed filler: from 20 to 50% mass fraction, the glass composite pipe is made by continuous winding on the mandrel of reinforcing fillers impregnated with thermosetting binders based on unsaturated polyester resins with subsequent curing, which include at least three layer: inner layer consisting of polyester resins with reinforcing fillers: discrete and continuous glass rovings and glass veils of chemically resistant glass fiber impregnated with a polyester binder, a structural layer consisting of unsaturated polyester resins, fiberglass fillers and silica sand, an outer layer consisting of unsaturated polyester resins, fiberglass fillers. The thermosetting binder can be polyester or other chemically, corrosion, and wear-resistant resins.

The claimed invention is illustrated by the following drawings.

In FIG. 1 shows a wall structure of a device.

Where:

1 - outer protective layer;

2 - structural layer;

3 - inner (liner) layer.

In FIG. 2 shows a longitudinal side view of the device.

Where:

4 - glass composite pipe.

In FIG. 3 shows a stainless steel coupling.

Where:

5 - stainless steel shell;

6 -, elastic sealing ring.

In FIG. 4 shows a coupling.

Where:

7 - steel or glass composite coupling.

The glass composite pipe for pressure and non-pressure pipelines laid by microtunneling and auger drilling is characterized by the fact that it consists of a glass composite pipe and a steel or glass composite sleeve hermetically connected to each other by elastic o-rings, the glass composite pipe includes a matrix based on a polyester binder: from 30 up to 40% mass fraction, continuous and chopped glass fibers: from 10 to 40% mass fraction, dispersed filler: from 20 to 50% mass fraction and steklokompozitnaya tube is made by winding on a mandrel a continuous reinforcing fillers, impregnated binders based on unsaturated polyester or other chemically, corrosion- and wear-resistant resin, followed by curing.

The inner layer consists of unsaturated polyester or other chemically, corrosive and wear-resistant resins with reinforcing fillers: discrete and continuous glass rovings and glass veils made of chemically resistant glass fiber.

The structural layer consists of unsaturated polyester or other chemically, corrosion and wear-resistant resins with reinforcing fillers: discrete and continuous glass roving and dispersed filler, for example, silica sand.

The outer layer consists of unsaturated polyester or other chemically, corrosion, and wear-resistant resins, with reinforcing fillers: discrete and continuous glass rovings and chemically-resistant glass fiber glass veils.

There can be more than three layers; they will also be applied, as described below in the method for manufacturing the device.

The joint work of reinforcing fillers is provided through a cured polymer matrix, allowing efficiently redistributing the loads inside the pipe wall, which allows the pipe to withstand high axial and end loads when forcing the pipe in the soil thickness.

The claimed device is made as follows.

The pipe wall is formed as follows: reinforcing fillers, impregnated with a binder based on unsaturated polyester, vinyl ester or other chemically, corrosion and wear-resistant resins in a solution with an accelerator and hardener, are fed to the surface of the rotating mandrel. For one complete revolution of the mandrel, one layer of the pipe is formed and displaced relative to the next layer in the axial direction to the width of the mandrel tape. The size of the pipe wall thickness is determined by the number of layers formed, the width of the feed zone and the amount of feed per unit time. The number of layers of the pipe composite is determined by the ratio of the width of the feed zone to the size of the axial movement of the mandrel in one full revolution. The parameters of the binder are selected so that the impregnation of the layers occurs simultaneously before the start of polymerization, which ensures uniform impregnation and adhesion between all layers of the composite. The formed pipe moves along a rotating mandrel to the zone with infrared heaters, in which the polymerisation of the composite is monitored using temperature sensors. When leaving the mandrel, the formed pipe moves to the support tables with roller guides, providing rotational-translational motion. After reaching the specified length of the pipe segment, it is milling and sawing.

Thus, the tests of the prototype, using the device proposed for patenting, showed that improved performance is achieved, such as stiffness, chemical resistance of the inner layer, resistance to abrasion, and the penetration of transported liquids into the structural layers of the pipe is prevented, which increases the service life and corrosion resistance of the pipeline as a whole.

Analysis of the totality of all the essential features of the proposed invention proves that the exclusion of at least one of them makes it impossible to fully ensure the achieved technical result.

The analysis of the prior art shows that it is unknown such a device that has inherent features identical to all the essential features of this technical solution, which indicates its unknownness and, therefore, novelty.

The above also proves the conformity of the claimed device to the criterion of inventive step.

When carrying out the invention, the presence of the proposed object is really realized, which indicates its industrial applicability.

Claims (1)

Glass composite pipe for pressure and non-pressure pipelines laid by microtunneling, characterized in that it consists of a glass composite pipe and a steel or glass composite sleeve, tightly interconnected by elastic sealing rings, the glass composite pipe includes a matrix based on a polyester binder: from 30 to 40% mass fraction, continuous and chopped glass fibers: from 10 to 40% of the mass fraction, particulate filler: from 20 to 50% of the mass fraction, glass composite pipe from prepared by continuous winding on a mandrel reinforcing fillers impregnated with thermosetting binders based on unsaturated polyester resins followed by curing, which include at least three layers: an inner layer consisting of polyester resins with reinforcing fillers: discrete and continuous glass rovings and chemically glass resistant fiberglass impregnated with a polyester binder, a structural layer consisting of unsaturated polyester resins, fiberglass fillers and vartsevogo sand, the outer layer consisting of an unsaturated polyester resin, glass fiber fillers.

Images