SU1663307A1 - Boiler - Google Patents

Abstract

The invention relates to energy and m. used in boilers for solid fuel combustion chamber method. The goal is to increase efficiency by reducing heat loss with flue gases. For this wall 7 of the transition gas duct 3 is made with a compensator 8 temperature displacements, the vertical axis 9 of which coincides with the axis of zero horizontal displacements of the furnace 1, and the upper collectors 5 of the screens 4 are fastened together. In this case, the temperature displacements of the elements of the furnace 1 are compensated for by the compensator 8, which leads to an increase in the gas density of the boiler, a decrease in air suction in it, and heat loss with exhaust gases. 2 Il.

Description

The invention relates to energy and can be used in boilers for burning solid fuels in a chamber manner.

The purpose of the invention is to increase the efficiency of the boiler by reducing heat loss with flue gases.

1 shows a general view of the boiler; figure 2 - section aa in figure 1.

The boiler contains a furnace 1 with a vertical axis 2 zero horizontal displacements and a transition duct 3. The furnace 1 is equipped with wall tubular front, rear and side screens 4 with upper headers 5 and lower headers 6, Walls 7 of the transition duct 3 are fastened with upper headers 5, which, in turn, fastened together, and made with a lens compensator 8 temperature displacements, the vertical axis 9 of which coincides with the axis 2 zero horizontal displacements of the knob 1.

Screens 4 are all-welded. Tees 10 are mounted on the rear screen pipes 4, to which pipes 11 of the scallop are attached. The walls 7 of the transition gas duct 3 are made of metal sheet, which is internally lined with bricking 12. The festoon pipes 11 are connected to the upper collector 13 bonded to the upper collectors 5 of the screens 4. The transition duct 3 is connected to the convective shaft 14. The furnace 1 is suspended to the frame 15 by means of supports 16 and is provided with stiffness 17 themselves, which are installed at the same height together with stiffness 15 of the frame 15 itself. At the same time, sa 17 stiffness of the firebox 1 have projections 19 located in planes,

ABOUT

about with so about

VI

zero horizontal displacements of the furnace 1 intersecting in the vertical axis 2, and, according to 18, the rigidity of the frame 15 is made with limiters 20, between which are lugs 19 and 17 of the rigidity of the furnace 1.

The boiler works as follows.

The hot gases generated during the combustion of solid fuel pass through the furnace 1, transitional flue 2 and convective shaft 14, in the furnace 1, the gases are cooled, giving off heat to the medium circulating in the pipes of the shields 4. igniting the boiler, changing its temperature regimes and shutting down the boiler are compensated by the lens compensator 8, so. as its vertical axis 9 coincides with the vertical axis 2 zero horizontal displacements of the firebox 1, and the upper collectors 5 and 13

fastened together. This increases the gas density of the boiler, reduces the suction of air into it and heat loss with exhaust gases.

Claims (1)

Claims of the Invention A boiler comprising a furnace with a vertical axis of zero horizontal displacements and a transition gas duct, the first of which is equipped with wall tubular screens with upper headers, and the walls of the second are fastened with the latter, characterized in that, in order to increase efficiency by reducing heat losses with outgoing gases, walls of the transition gas duct are made with a temperature compensator, the vertical axis of which coincides with the axis of zero horizontal movements of the furnace, and the upper collectors last fastened together. S 5 7