RU2123643C1 - Hot-water boiler - Google Patents

Abstract

FIELD: heating and industrial boiler houses. SUBSTANCE: boiler has cooled furnace and convective heating surface. Furnace has flat side walls and wall with two rows of windows, flat lower and upper chambers, four water-jet ejectors and downtake pipes. Availability of flat walls and chambers increases heat extraction of furnace. Ejectors provide for better circulation of water in walls. Mounted behind furnace is convective part which consists of two symmetrical water-tube units whose tubes are free from bends. Compact and staggered arrangement of tubes is ensured through two-row arrangement of collecting headers in platens and shift of tubes in platens in way of flow of flue gases. EFFECT: intensification of heat exchange; reduction of expenses for manufacture and repair of boiler of preset output. 2 dwg

Description

 The invention relates to a power system and can be used in heating and industrial boiler rooms.

 Known boilers containing a cooled firebox with a flat double-light and side screens, a convective heating surface made in the form of water tube blocks of straight pipes with the displacement of the pipes along the gases and collecting manifolds, two burners and an exhaust duct.

 In the known boiler there is insufficient radiation heat transfer and low reliability of the furnace.

 The objective of the described invention is the intensification of heat transfer, reducing the cost of manufacturing and repairing boilers of a given capacity.

 The problem is solved in that in a boiler containing a cooled firebox with flat double-light and side screens, a convective heating surface made in the form of water tube blocks of straight pipes with a displacement of the pipes along the gases, collecting manifolds, two burners and an exhaust duct, are additionally lightweight removable metal panels filled with mineral wool, a frame, an explosive valve, flat upper and lower chambers connected to the screens of the furnace block, four insulated lowering pipes with a water-jet ejector mi collecting manifolds are made in two-row arrangement and between the convection heating surfaces are arranged dividers.

 In FIG. 1 shows a general view of the boiler; FIG. 2 is a section AA in FIG. 2.

 The boiler contains a cooled furnace 1 with flat side and double-light screens 2 and 3, respectively, as well as with flat lower and upper chambers 4 and 5, respectively, and four water-jet ejectors 6.

 Behind the furnace 1, a convective heating surface 7 is installed, consisting of two water tube blocks 8 made of straight pipes 10 connected to collecting collectors 9 made in a two-row arrangement and with the mixture of pipes 10 along the gas flow. Metal partitions 11 are installed in the tube bundle of the convective surface 7. In the furnace 1, burners 20 are placed. The ejectors 6 are connected to the prefabricated collectors 13 and to the drain pipes 14. The boiler is equipped with a fitting 15 for draining water and a gas duct 17.

 The boiler is installed on the frame 19, it is sheathed on the outside with removable, on bolted joints, shields filled with mineral wool and has an explosive valve 18. The boiler from the front has a lightweight lining that allows it to get into the furnace during repair. To repair the convective beam, the outer panels are removed and any screen is taken out on the side of the boiler.

 The power of the boiler is determined by the size of the sheets of the furnace block, the number and length of pipes, the location of the pipe blocks, the number of burners.

 The boiler operates as follows.

 Network water enters the bottom of the pipe blocks 8, passes the collecting manifolds 9 and vertical pipes 10, heats up and collects in the upper collectors 13 of the pipe blocks. Then, the water is directed to four ejectors 6 located on the upper chamber 5 of the furnace block 1. Ejectors increase the circulation of water in the furnace block: they take part of the water from the upper chamber 5 and direct this and incoming mains water through the isolated downpipes 14 to the lower chamber 4. Water, rising across the screens, warms up and is discharged through the fitting 15.

 Fuel is burned in the furnace. Flue gases, bypassing the protective partition of the first pipes, enter the tube bundle and, having passed two partitions 11, are discharged into the gas duct 17.

 The strength of the furnace block is ensured by bar connections between heated and external metal sheets. Reliability of the furnace block is ensured by four water-jet ejectors 6, standing at the entrance to the block, and low gas temperature due to increased heat transfer in the furnace.

A decrease in the dimensions of the convective surface is obtained due to the two-row arrangement of the collecting collectors 9 of the straight pipes 10. A reduction in the metal consumption of this surface is achieved by increasing the speed of the flue gases by the vertical partitions 11. A decrease in the aerodynamic resistance of the boiler is possible by turning the individual pipe blocks 8 by 90 ^° with the transition from staggered to corridor bundles.

Claims (1)

 A hot-water boiler consisting of a cooled firebox with flat double-light and side screens, a convective heating surface made in the form of water tube blocks from straight pipes with a displacement of pipes along the gases and collecting manifolds, two burners and a discharge duct, characterized in that it additionally contains lightweight removable metal panels filled with mineral wool, a frame, an explosive valve, flat upper and lower chambers connected to the firebox screens, four insulated lowering pipes with hot water ejectors, with collecting collectors are made in a two-row arrangement, and metal partitions are placed between convective heating surfaces.

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