CS228487B1 - Suspension structure, especially for metal recuperator - Google Patents

Abstract

The invention relates to a suspension structure, in particular for a metal recuperator, which allows reducing the risk of a recuperator accident, especially in cases of interruption of the supply of the heated medium. The essence of the suspension structure according to the invention lies in the fact that the suspension structure consists of a pipe (8) placed in the supply pipe (5) of the heated medium, fixed by its lower end to the functional part of the supply space (6) of the heated medium of the recuperator, the upper end of which is connected via a suspension (13) and a pulley (16) placed on the supporting structure (15) with the pipe (5) of the heated medium.

Description

The invention relates to a suspension structure, in particular for a metal recuperator, which makes it possible to reduce the risk of a recuperator accident, in particular in cases of interruption of the supply of heated medium.

The hinge structure according to the invention consists in that the hinge structure consists of a tube (8) housed in the heated medium supply line (5), fixed by its lower end to a functional part of the recuperator heated medium supply space (6). (13) and a roller (16) mounted on a support structure (15) with a heated medium line (5).

The invention relates to a suspension structure, in particular for a metal recuperator, which makes it possible to reduce the risk of a recuperator failure, in particular in the case of a supply interruption of the heated medium.

Known metal heat exchanger anchoring designs mainly utilize the support of the heat exchanger on the flanges welded on the outer shells by the environment. This solution is usually complemented by a structure designed to lighten the sheath exposed to high temperatures by the cooled medium to prevent warping of this sheath the strength of the material when heated to a temperature close to its usability. The sheathing of the jacket usually occurs randomly when the supply of heated medium is interrupted, where at least a part of the cooled medium continues to flow through the recupertoir while at the same time the heat transferred to the recuperator is stored, especially in the masonry of the supply channel.

These drawbacks are overcome by a suspension structure, in particular for metal recuperators, which consists of (a tube housed in the supply medium of the heated medium. This tube is fastened by its lower end to the functional part of the recuperator, the upper end of which is It is also advantageous if the lower end of the pipe is hermetically sealed and is attached to the functional part of the recuperator by means of a plate, and another advantage is if the pipe is provided with a cooling medium inlet and outlet. .

This design reduces the possibility of warping the heat exchanger shell and ensures that the heat exchanger anchoring forces are concentrated on the structural elements at the hot medium supply points and allows these anchoring points to be cooled once or continuously, thereby significantly slowing down the material flow.

An exemplary embodiment of a suspension structure according to the invention is shown in the drawings, wherein Fig. 1 shows a schematic longitudinal section through a recuperator located in a chilled exhaust duct, Fig. 2 shows a cross-section through the hinged structure in detail and Fig. 3 an alternative hinge tube solution to allow continuous cooling.

The metal heat exchanger 1 has at least two heating medium inlet pipes 5, these pipes being partly located inside the cooling medium exhaust duct 2.

The heating medium inlet pipe 5 and all the heat exchanger anchoring elements, except for the part of the hinge tube 8 with the plate 7, are located outside the cooling medium exhaust duct 2. The hinge tube 8 is flattened and hermetically sealed at the lower end, and a flattened plate 7 is welded to this flattened section and is further fastened to the functional portion of the heated medium feed chamber 6 so that the hinge tube plate 7 remains inside the heated feed line S media. The purpose of the plate 7 is to strengthen the anchoring point of the pipe 8. The other end of the pipe 8 is slidly guided from the interior of the heated medium supply line 5 by means of a gland 9 and provided with a bore for the support pin 10. The supporting ribs 11 are welded to the media with a bore for the pin 12.

The actual suspension of the heat exchanger 1 is carried out by a hinge 13, which can be a steel rope or chain, which is guided over a pulley 16 mounted rotatably on a pulley pin

14. The pin 14 of the pulley 16 is anchored in the support structure 15. The use of the flexible element as a hinge 13 has a uniform distribution of forces on the hinge pin 10 and on the hinge tube 8, plate 7 and functional casing 6 of the heated medium. , fins 11 and heated fluid supply line 5.

The heated medium 4 has the lowest temperature at the inlet of the supply line 5, although it also cools those portions of the supply line 5 and the hinge tube 8 that extend into the space of the exhaust duct 2 of the cooled medium.

In case of interruption of the supply of the heated medium 4, the tubes 8 with the plate 7 and the functional casing of the heated medium supply area 6 are utilized and at the same time the radiant cooling of the heated medium supply line 5 is achieved. either a single or continuous supply of coolant, for example, water.

For the continuous supply of coolant, it is necessary to use the hinge tube structure 8 with sealing baffle 18, coolant inlet 19 and coolant outlet 20.

Claims (3)

SUBJECT A suspension structure, in particular for a metal recuperator, characterized in that it consists of a tube (8) housed in a heated medium supply line (5), fastened by a lower concern to a functional part of the space of the heated medium supply line (6). it is connected via a hinge (13) and a roller (16) mounted on the supporting structure (15) to the heated medium pipe (5). VYNALEZU Suspension structure according to Claim 1, characterized in that the lower end of the tube (8) is hermetically sealed and is fastened to a functional part of the space of the heat recovery medium heater (6) via a plate (7). Suspension structure according to claim 1, characterized in that the tube (8) is provided with an inlet (19) and an outlet (20) of the cooling medium itself.