SU1755002A1 - Boiler suspension system - Google Patents

Abstract

Use for the suspension of boiler surfaces (P) heating. When heated up ////////////// // /////////// # ////////// // / at the boiler temperature pipes P 3 and 4 are different. Due to the temperature difference, their relative temperature elongation begins. Due to the rigid fastening of П 3 and 4 by the beam 12 downwards, they are lengthened by one and that e value. The movement of the collector 1 P 3 is up. This is facilitated by the rocker 7, which is tight 8 turns its right side down at the expense of communication with П 4, which move down. At the same time, the left part of the rocker arm 7 rises and a tight 9 raises the collector 1 P 3. This leads to a decrease in stresses in the PZ pipes. 2 Il. H SL SL O O K) Fig 2

Description

The invention relates to boiler construction and can be used in heat power engineering.

A boiler hanging system is known, comprising a rocker arm with a support connected by ends through the suspension tubes with a horizontal support structure of a heating surface.

The disadvantage of this system is the rigid connection between the suspended surfaces, which makes it impossible for the latter to move autonomously during temperature expansions.

Closest to the offer is a boiler suspended system that includes vertically mounted and superheated steam and evaporating surfaces, containing ceiling supporting structures and racks mounted on them, on which with their middle part fixed rocker arms, each fitted with a pair of supporting rods, at the same time one of the last in each pair is fixed on the collector of the password-overheating surface.

A disadvantage of the known system is the rigid mounting of the evaporation surfaces, which reduces the reliability of the system when these surfaces heat up.

The purpose of the invention is to increase operational reliability.

FIG. 1 shows the suspension system, a general view; in fig. 2 shows section A-A in FIG. one.

The suspension system of the boiler, which includes vertically installed and connected to its collectors 1 and 2 superheater and evaporating surfaces 3 and 4, contains ceiling supporting structures 5 and racks 6 mounted on them, on which with their middle part fixed rocker arms 7, fitted with each pair of load-bearing rods 8 and 9, while the ha ha 9 of each pair is fixed on the collector 1 of the superheater surface 3. The second ha ha 8 is hinged on the evaporation surface 4 in its lower zone through the lug 10.

In the upper part of the slope of the cold funnel 11, the surfaces 3 and 4 are rigidly interconnected by the beam 12.

The suspension system of the boiler works as follows.

When the boiler is heated, the temperature of the medium in the evaporating surfaces 4 is equal to the saturation temperature. At this time, the pressure in the boiler drum is very low (5-6 kg / cm), therefore, through the superheater surface 3 there is a slight steam flow with insufficient cooling, resulting in the temperature of the pipes of the surface 3 higher than the temperature of the pipes of the evaporation surfaces 4.

In the whole load range of the boiler, there is a difference in the temperatures of the evaporation and superheater surfaces 4 and 3 of the heating, and at full load it

is 100-120 ° C.

Due to this temperature difference, the relative temperature lengthening of the superheater and evaporation heating surfaces 3 and 4 begins. This relative temperature elongation cannot be directed downward, since in this case the region of the chute of the cold funnel 11 also lowers the steam-heating surface 3 by the value of the relative thermal elongation (At2). In this case, there are large structural difficulties in sealing the chute of the cold funnel 11, since the evaporation and superheating surfaces 4 and 3 are in different planes (Fig. 1). In order to avoid this, in the lower part of the furnace, the superheater and evaporative heating surfaces 3 and 4 are rigidly interconnected by means of beam 12. This allows thermal expansion downwards of both heating surfaces by the same value At2, due to the temperature of the evaporation surfaces 4. The plane of the sloping wall of the slope is cold

funnel 11 is not disturbed.

The relative temperature movement At2 of the upper collector 1 of the superheater heating surface 3 is directed upwards from the beam 12 (direction

thermal expansion is shown by arrows in FIG. 2).

When the temperature lengthening of the evaporation surfaces 4, the eyelet 10 moves vertically downwards by an amount

At}. At the same time, the tha of 8 tons does not include the rocker arm 7, which is rotated on the hinge, and there is no tractor 9 of the superheater surface 3 in the direction of the temperature extension At2. By setting the difference in shoulder length

h and 12 rocker can set the desired ratio between the values of At2 and At3. Thus, the proposed suspension system makes it possible to increase the reliability of operation of the superheater heating surface 3 by providing a relative temperature elongation Ati; by creating an upward lem.

Claims (1)

Invention Formula The boiler hanging system includes vertically installed and superheated heating and evaporating surfaces connected to its collectors, containing ceiling load-bearing structures and racks mounted on them, on which the middle part is fixed H: rockers provided with each pair of load-bearing rods, with one of the last in each pair attached to the collector of the para-superheating surface, characterized in that, its lower zone.