RU112863U1 - TRUMPET - Google Patents

Abstract

1. A pipe for a drainage system, made of at least one layer of a wound coating, characterized in that it contains layers of fiberglass wound using a matrix, on which a composite layer is applied as an impregnation, which is a mixture of polyester resin and a butanox hardener, the pipe is removed from the die. ! 2. A pipe according to claim 1, characterized in that the matrix is made of plastic or metal, wherein the metal of the matrix is steel or galvanized steel. ! 3. A pipe according to claim 1, characterized in that the glass fabric is a T-11 (92) silane grade. ! 4. A pipe according to claim 1, characterized in that the composition of the composite additionally includes a color scheme and / or a fire retardant material. ! 5. A pipe according to claim 4, wherein the color is a titanium-based pigment. ! 6. A pipe according to claim 4, characterized in that the fire retardant material is the Terma-M brand. ! 7. A pipe according to claim 1, characterized in that it is sprinkled with marble or granite chips with a fraction of 0.2-5 mm.

Description

A utility model relates to a pipe and a method for its manufacture, for example, for use as a drainage system.

Designs of pipes made of metal or plastic are widely known, as described, for example, in sources (1, 2).

The invention is known, which relates to pipe rolling production and can be used in the manufacture of seamless pipes on pipe rolling units, which include a device for flashing a workpiece into a hollow sleeve and a rolling mill with a caliber formed by a mandrel and rolls located around it, for example, pilgerstan, automatic machine, rack, continuous and also Assel's camp. The method includes heating the workpiece, flashing it into the sleeve and subsequent rolling in caliber on the mandrel. During the flashing process, the inner surface of the sleeve is shaped into alternating mating protrusions and depressions, which are completely smoothed out when the sleeve is rolled out. The invention solves the problem of reducing the effort on rolling tools and equipment components of piercing and rolling mills and wear of the latter, reducing the energy intensity of the processes of flashing and rolling, metal consumption and improving the surface quality and accuracy of pipes (3).

The invention is known, which relates to a method for producing high strength with improved extrudability, as well as to polyethylene compositions suitable for producing such pipes. The method includes preparing a mixture comprising from 5 to 50 wt.% Filler, from 95 to 50 wt.% Low density polyethylene and from 0 to 3 wt.% Of one or more stabilizers. The resulting mixture and high density polyethylene containing at least one low molecular weight component, which is a copolymer of ethylene and a C ₃ -C ₁₀ α-olefin, are mixed in the melt to obtain the target dropping point from 165 ° C to 185 ° C. The resulting composition for the pipe contains from 1 to 20 wt.% Filler based on the weight of the composition. The composition has an improved balance of properties, and it can be extruded with a sufficiently high productivity at an optimally low melt temperature (4).

The claimed group of inventions, which is used to protect against corrosion or insulation of metal surfaces that are exposed to aggressive fluids. The coated article comprises a metal substrate and a layered coating composition on at least one surface thereof, a polymer protective layer of the outer coating over the layered coating composition, and an outer coating layer. The coating composition comprises an epoxy layer, preferably a partially or fully cured deposited epoxy coating. The outer coating layer is fully cured to the state of an epoxy / polyolefin semi- or fully interpenetrating polymer network. The protective layer of the outer coating contains a thermoplastic or thermosetting resin. The product is selected from the group consisting of a pipe, a vessel, a trough, a rod, a product with a profile shape and a tube. EFFECT: obtaining a flexible coated product with high interlayer adhesion strength, resistant to corrosion, abrasion, increased impact resistance, free from hardener and adhesive (5).

The invention is known, which relates to the field of corrosion protection of products, in particular pipes for water supply systems, gas and oil pipelines, etc. The first coating layer is a fabric tape impregnated with a two-component anti-corrosion compound. The first and second coating layers are applied to the pipe by winding. The second coating layer is a reinforced woven cured coating tape impregnated with a similar composition as the first coating layer. The impregnation of the tape of the first and second layers with a two-component anti-corrosion composition is carried out at the time of applying the coating layers to the pipe. The invention is aimed at simplifying the technological process of coating pipes by eliminating manual labor, reducing costs by eliminating overspending of coating components, increasing the durability of an anti-corrosion coating and ensuring a coating that is uniform in composition and thickness (6).

It should be noted that the latter invention is the closest solution, because a pipe made of at least one layer of wound coating on the base. However, the prototype, like other analogues, has limitations in lightness, low adhesion with ice, elasticity and strength, fire safety.

The objective of the proposed solution is to develop a pipe designed for operation in any weather and climatic conditions, and the technical result is to increase the operational capabilities in terms of its lightness, low adhesion with ice, elasticity and strength, fire safety.

Suggested pipe:

A pipe made of at least one layer of wound coating, characterized in that it contains layers of fiberglass wound using a matrix, onto which a composite layer is applied as an impregnation, which is a mixture of resin and hardener, while the pipe is removed from the matrix.

A pipe characterized in that the matrix is made of plastic or metal.

The pipe is characterized by the fact that fiberglass is a T-11 (92) silane brand.

The pipe is characterized in that the composition of the composite further includes a color and / or flame retardant material.

The pipe is characterized in that the color is a titanium-based pigment.

The pipe is characterized by the fact that the fire-retardant material is a Terma-M brand.

A pipe characterized in that the matrix metal is steel or galvanized steel.

A pipe characterized in that the resin is a polyester resin. The pipe is characterized in that the hardener is a butanox brand,

The pipe is characterized in that it is sprinkled with marble or granite chips.

0.2-5 mm.

The pipe is wound on a matrix, for example, with a diameter of 50 to 400 mm, a length of, for example, 2150 mm, onto which a glass fabric, for example, T-11 (92) silane, is applied by winding (preferred), on top of which a composite (mixture) is applied polyester resin, hardener, for example, butanox brand, colorant-pigment based on titanium, fire retardant paint, for example, the Terma-M brand. The specified mixture at the rate of 1 running meter of the pipe contains: resin - 1.6 l, pigment - 5 g, paint - 100 g, hardener - 16 ml. After drying the billet pipe for at least 20 minutes granite chips are applied to it in certain parts for the purpose of anti-vandal performance. It should be noted that the matrix onto which fiberglass is wound and from which the finished pipe is removed is made of plastic or metal, mainly in the form of a hollow or solid cylindrical element; it is possible to use a matrix of a different section, for example, square, depending on the task of manufacturing the pipe.

Figure 1 shows the deposition (mainly winding) on the matrix 1 of fiberglass 2; after impregnation of the applied layers with a resin with a hardener and, if necessary, other materials, drying and removal from the matrix, a pipe 3 is obtained.

As applied to the drainage system, a pipe made of the specified composite material can meet the parameters according to GOST 7623-84: diameter 216 mm, link length 1800 mm, branch 45 degrees, funnel diameter 370 mm.

A pipe made in this way has the following properties:

- lightness (4 times lighter than an analogue of steel, which allows mounting on the ground; an assembled system of 20 mp weighs no more than 15 kg; one-piece links of links allow one person to lift the entire system from the roof);

- the reliability of the connection of the links due to the installation of its components under the cone.

- to fasten the system to the 20-meter building facade, two times less anchors with clamps are required than the existing system (there, for each link, one clamp with one anchor for every 1250 mm is needed);

- ice does not build up on the inner walls of the pipe, low adhesion to ice;

- the elasticity of the system (avoids jamming of both the lower link with a mark and the funnel under mechanical action on them; the trunk of the drainage system has high compression elasticity and is able to withstand multiple deformations without changing the initial shape);

- visually the system looks absolutely straight, without joints and seams;

- the life of the system with exposure to mechanical stress and weather conditions more than 5 years;

- operating temperature range from -60 degrees. Celsius to +120 degrees. Celsius

- maintainability: the system is easily repairable, without replacing with new links and without dismantling the trunk;

- fire classification - self-extinguishing;

- the system is not subject to corrosion;

- reduction in transportation and installation costs; significantly reduces the risk of falling components and elements of the drain from a height, which leads to accidents and property damage;

- due to the impossibility of ice formation inside the drain, there is no need to use a heating cable; the trunk of the system always remains free, which leads to a decrease in the formation of icicles on the water intake funnel and on the overhangs of the roof in the autumn-winter period;

- along with anti-vandal performance of the pipe by sprinkling it, for example, with marble or granite chips, for example,

0.2-5 mm, it is impossible to apply to it as a result of this various stickers in the form of announcements, leaflets, etc.

- resistance to ultraviolet radiation.

The installation of the trunk of the system is carried out as follows: the upper link descending onto the cone is inserted into the bell of the lower link, a strong connection is obtained with the possibility of one-piece connection; other connections of pipe links are also possible, for example by gluing, welding, riveting, etc.

The advantages of the proposed pipe and its installation over analogues allows the pipe to be used in various branches of technology, for example, in construction, shipbuilding, and aviation.

Information sources.

1. Drainpipe. RF patent No. 94596, E04D 3 / 08,27.05.2010.

2. Plastic pipes, www.materik-m.ru.

3. Method for the production of seamless pipes. RF patent No. 2400317, B21B 19/02, 09/27/2010.

4. Polyethylene pipes. RF patent No. 2394052, C08L 23/04, C08K 3/00, F16L 9/12, 07/10/2010.

5. Interpenetrating polymer networks as a coating for a metal substrate, a method for their manufacture. RF patent No. 2389748, C09D 123/00, В29С 73/00, 05/20/2010.

6. A method of applying an anti-corrosion coating to pipes. RF patent No. 2413125, F16L 58/00, 02.27.2011.

Claims (7)

1. A pipe for a drainage system made of at least one layer of wound coating, characterized in that it contains layers of fiberglass wound using a matrix, on which a composite layer is applied as an impregnation, which is a mixture of polyester resin and butanox hardener, while the pipe is removed from the matrix. 2. The pipe according to claim 1, characterized in that the matrix is made of plastic or metal, while the matrix metal is steel or galvanized steel. 3. The pipe according to claim 1, characterized in that the glass fabric is a brand of T-11 (92) silane. 4. The pipe according to claim 1, characterized in that the composition of the composite further includes a color and / or fire retardant material. 5. The pipe according to claim 4, characterized in that the color is a pigment based on titanium. 6. The pipe according to claim 4, characterized in that the fire-retardant material is a Terma-M brand. 7. The pipe according to claim 1, characterized in that it is sprinkled with marble or granite chips with a fraction of 0.2-5 mm.