RU53409U1 - INSULATED PIPE - Google Patents

Abstract

The invention - a thermally insulated pipe relates to products of the building materials industry and is used in the construction of external engineering networks and is mainly used for channelless laying of heating networks and water supply. The device - a heat-insulated pipe contains a steel pipe, heat insulation made of polyurethane foam and a waterproofing cold-resistant shell made of filisol insulation material, which prevents cracking during welding and installation work in areas with a cold climate. Such a pipe, by expanding the temperature range of its use to minus 25 ° С, can significantly increase labor productivity in the field of construction. The cost of the pipe is 15-20% cheaper than similar ones.

Description

The technical field to which the invention relates.

The invention relates to the construction of external engineering networks. The heat-insulated pipe is used mainly for channelless laying of heating networks and water supply.

The prior art.

Known pipe with monolithic reinforced concrete thermal insulation and waterproof coating (sheath) made of brizol and asbestos-cement plaster (V.P. Vitaliev. Channelless laying of heating networks. "Energy" Moscow 1971, p. 90), which has a number of disadvantages, the main one is not provided tightness of the shell, both in the factory and during the installation work at the facilities under construction.

Heat-insulated pipe is also known (Interstate standard GOST 30732-2001), the common features of which with the proposed device are: steel pipe, thermal insulation from polyurethane foam and waterproofing sheath from a polyethylene pipe. The design of such a pipe is carried out according to the “pipe in pipe” type, that is, a steel pipe of smaller diameter is coaxially placed in a polyethylene sheath pipe, and then the annular annular space is filled with polyurethane foam. The forces from it are transferred to the inner surface of the shell pipe, bursting its polyethylene structure of which, in workshop conditions with a positive temperature, becomes more intense compared to the standard cylindrical-ring stiffness of the shell pipe in a free state. A subsequent increase in brittleness and a decrease in the strength of the pipe-shell occurs when the ambient temperature drops to 0 ° C or lower, making it even more intense, close to the cracking state, since the shell compresses the thermal insulation.

The use of such pipes at a construction site at low outdoor temperatures and especially from minus 15 ° C and below is impossible, due to cracking of the polyethylene sheath, which is inherent to it cold-brittle (brittle). The destruction of the shell structure occurs with insignificant longitudinal stresses of pipe bending during the production of loading and unloading and welding

works, as well as the impact of soft lifting towels, which is precautionarily reflected in paragraphs 5.4, 5.5, 5.6, 6.18 and 6.19 of SP 41-105-2002 (Code of Design and Construction Rules), paragraph 10.2 of GOST 30732-2001 and is confirmed by construction practice.

Disclosure of the invention.

To prevent cracking of the waterproofing membrane, it is made of rolled insulating material filisol with a lower cold temperature (brittleness) minus 25 ° C (GOSSTROY RUSSIA. Catalog of insulation materials and products SK 4 - 1.99 p. 53).

Brief description of the drawing.

The invention is illustrated in the drawing. Figure 1 shows a cross section for thermal insulation of pipes. Figure 2 is a cross section of the invention - "Thermally insulated pipe", where:

position 1 - filisol canvas, shell,

position 2 - longitudinal overlapping stock,

position 3 - steel pipe,

position 4 - polyurethane foam.

The implementation of the invention.

In a well-known open form for thermal insulation of pipes (Fig. 1), a roll of insulating material — a filisol sheet (item 1) — is laid and straightened along its inner surface with one continuous blank with a size along the inner length of the mold and a width equal to 5-15 cm longer than the circle length longitudinal overlapping margin on the surface of thermal insulation (item 2), depending on the diameter of the insulated pipe.

Then the insulated steel pipe (pos. 3) is installed in the mold into which the polyurethane foam (pos. 4) is poured and the mold is locked. After the time of foaming and hardening of the polyurethane foam expires, the mold opens, a pipe with a shell is removed from it, the overlap (pos. 2) of which is glued due to the fusion of the flame of the gas-air burner, limiting the effect of the flame on thermal insulation.

The resulting shell does not have a cylindrical-ring stiffness and internal stresses, since when foaming and hardening the polyurethane foam filiisol freely fits and sticks to it.

The shell is less cold-resistant, i.e. more plastic and allows you to perform work with the pipe at an outdoor temperature of minus 25 ° C without cracking.

Claims (1)

A heat-insulated pipe containing a steel pipe, polyurethane foam insulation and a waterproofing shell, characterized in that to prevent cracking of the waterproofing shell during work at outdoor air temperatures of minus 25 ° C, the shell is made of filizol roll insulation material.