CS253700B1 - Tube element for the transport of hot medium - Google Patents

Abstract

The solution is intended for use in the gas and chemical industries. The aim is to eliminate the heat transfer by conduction from the inner liner to the outer shell of the pipe piece. The connection of the shell and the inner liner is made at each end of the pipe piece by at least three inter-ring lamellas, attached alternately to the shell and to the inner liner or to a sliding guide located at one end of the inner liner. The lamellas are separated from each other by inter-ring thermal insulation lamellas.

Description

The invention relates to a pipe piece for conveying hot media with an outer sheath either fixed or provided with an expansion element / with an inner liner and an annular space between the outer sheath and the inner liner filled with thermal insulation.

Known pipe pieces for conveying hot media have the insertion of the inner liner into the outer casing carried out by means of annular plates fixed on the outer periphery fixed to the outer casing, on the inner periphery fixedly connected to the inner liner, respectively. with sliding guide. The annular plate is either solid or is provided with alternating arc holes on the outer and inner circumference.

In the described embodiment, the annular plates form thermal bridges allowing heat to be conducted from the hot surface of the inner liner to the outer sheath, which is thereby intensely heated. The open-circuit plates somewhat reduce the heating of the outer shell, but allow undesired flow of the conveyed medium through the heat-insulating space.

The above-mentioned drawbacks are eliminated by a pipe piece according to the present invention, characterized in that the connection of the sheath to the inner liner is made at each end of the pipe piece by at least three between circular slats fixed alternately to the sheath and the inner liner or to the slide guide located at one end wherein the inner diameter of the slat attached to the housing is smaller than the outer diameter of the slat attached to the inner liner or sliding guide. The annular contact surfaces formed by the two adjacent slats have a width of the annular, in the radial direction, equal to the difference between the outer radius of the slat attached to the inner liner and the inner radius of the slat attached to the housing and less than the width of the gap

- 2 253 700 between the sheath and the inner liner or slide guide. The annular slats are separated from each other between annular heat insulating slats having a width of an annular radial direction equal to the width of the gap between the sheath and the inner liner or sliding guide.

The advantages of the pipeline for conveying the hot media according to the described solution are primarily that the heat transfer by conduction from the inner liner to the outer casing is completely eliminated, which is of particular importance in pressure lines. Further, undesired flow of the hot conveying medium through the heat-insulated space is prevented, thereby eliminating fouling of the thermal insulation by the impurities from the conveyed medium and reducing the heating of the outer shell.

In the drawing, FIG. 1 shows a longitudinal section of a pipe piece with a rigid outer casing and FIG. 2 with a flexible expansion element.

N _{and the} inner surface of the outer shell 1, on its two ends fixedly connected annular lamellae 2 between which there is at one end threaded portion disposed annular vanes 3. firmly attached to the inner liner 4. At the other end of the threaded portion is disposed between the lamella strip £ 2 Firmly connected to the slide guide 2 The slats 2, 2 are separated from each other by annular thermal insulating slats 6.

The solution is intended for use in the gas and chemical industries. It is also applicable to pipe bends.

Claims (2)

1o Pipe piece for conveying hot media with a rigid outer casing or with a jacket with a flexible expansion element, with an inner liner and with an annular space filled with thermal insulation, characterized in that the connection of the casing (1) to the inner liner (4) is made at each end a piece of at least three between the circular slats (2, 3) fixed alternately to the casing (1) and to the inner liner (4) or the slide guide (5) located at one end of the inner liner (4), to the housing (1) is smaller than the outer diameter of the lamella (3) attached to the inner liner (4) or sliding guide (5) and the annular contact surface formed by two adjacent slats (2, 3), has a circular ring width in radial direction equal to the difference between the outer radius of the slat (3) attached to the inner liner (4) and the inner radius of the slat (2) attached to the housing (1), and less than j The width of the gap between the sheath (1) and the inner liner (4) or the circular guide (5), wherein the cross-sectional slats (2, 3) are separated from each other by annular thermal insulating slats (6). Pipe piece according to claim 1, characterized in that the annular heat-insulating fins (6) have a width of the annulus in a radial direction equal to the width of the gap between the casing (1) and the inner liner (4) or the sliding guide (5).