RU2658445C1 - Industrial hot water boiler - Google Patents

Abstract

FIELD: thermal engineering.

SUBSTANCE: present invention relates to a thermal engineering. Water boiler consisting of an external casing, a burner, a gas collector, a chimney, characterized in that inside the combustion chambers installed on I-beams, the cores are arranged with the help of plugs, while the heat passes between the walls of the combustion chambers and the walls of the cores, and the heat pipes emanate from the combustion chambers at an angle and exit into the gas sump.

EFFECT: invention is aimed at increasing the heated surface and maximizing the use of heat.

1 cl, 4 dwg

Description

The present invention relates to thermal engineering and can be used for heating and providing hot water for residential and industrial premises.

A known design of a hot water boiler designed to produce hot water, the sections of which are cylindrical, are mounted coaxially, each section consists of two collectors interconnected by straight pipes of heating surfaces, partitions are installed in the collectors to change the water flow, the collectors are connected bypass pipes, internal the section forms a combustion chamber and is made gas-tight due to spacers, with the exception of its upper part, through which gases exit from the combustion chamber measures along its entire length into a convective gas duct, the outer section is made gas-tight due to spacers, with the exception of its lower part, through which gases exit into the exhaust duct, the outer surface of the inner section and the inner surface of the outer section and pipes of the middle section form a convective duct. (Patent RU No. 2243454 C1, IPC F24H 1/00, publ. December 27, 2004).

The disadvantages of the analogue are the difficulty in manufacturing, the need for burners with automation, low efficiency when operating as double-circuit boilers. In addition, the known device is highly costly.

The closest technical solution, selected as a prototype, is a hot-water fire tube boiler containing a housing closed in front with a bottom with a hole and a neck for installing the burner, behind it with a tube plate, inside which there is a flame tube having a front and rear bottoms, and arranged in concentric smoke rings coaxially with the flame pipe, the output ends of which are fixed in the holes of the pipe board, carrying outside a gas box connected to the chimney, characterized in that e ends of the smoke pipes are bent and fixed in the openings of the front bottom and (or) the openings located around the perimeter of the flame pipe (Patent RU No. 2499187 C1, IPC F22B 7/00, published on November 20, 2013).

The disadvantages of the prototype are the low efficiency of the boiler due to the fact that when using boilers at the same time for heating and providing hot water, for example, a house, during the analysis of hot water due to the small volume of the boiler, it is necessary to increase the gas supply to maintain the required temperature. As a result, the flue gas temperature will rise at the outlet. Therefore, it is necessary for the accumulation of hot water to increase the volume of the boiler or install an additional tank, which entails additional costs. Also, the design of the boiler allows the accumulation of exhaust gases, which is not allowed in the manufacture of boilers and in the installation of chimneys.

The technical result is an increase in the heated surface, the volume of water in the boiler and the maximum use of heat.

The technical solution of the claimed invention lies in the fact that, unlike the prototype, inside the combustion chambers installed on the I-beams, cores are arranged, connected by means of plugs, flame tubes emanating from the combustion chamber and exiting from the end part to the gas collector.

The device consists of the following parts shown in FIG. 1 - "General view of the boiler", Fig. 2 - “Longitudinal section”, FIG. 3 - “Cross section 1-1”, FIG. 4 - “Cross section 2-2”: outer casing - 1, combustion chambers - 2, cores - 3; flame tubes - 4; guides - 5; gas collector - 6, heat exchanger - 7, supply pipe - 8, return pipe - 9, drain pipe - 10, overflow pipe - 11, I-beams - 12, chimney - 13, plugs - 14.

The described hot water boiler operates as follows. Heat passes between the walls of the combustion chambers (2) and the walls of the cores (3). Due to the guides (5) in the form of channels, the heat passes not only along the upper part of the combustion chambers (2), but also along the lower one. The guides (5) do not reach the end of the cores (3), which makes it possible for heat to pass from the bottom of the combustion chambers (2) into the flame tubes (4), passing through which and cooling to the design temperature, it enters the gas collector (6), and then exits through the chimney (13). From the boiler, hot water is supplied through the supply pipe (8) to the heat supply network. The return pipe (9) enters the cores (3). Cold water passes through a heat exchanger (7), is heated and supplied to the hot water supply network. The overflow pipe (11) is needed in order to avoid increasing the pressure in the system and for the release of hot steam.

There are no places of possible gas accumulation in the boiler design. When the gas ceases to burn, it escapes through the chimney, since gas is almost 2 times lighter than air.

The boiler is also a tank for the accumulation of hot water. When disassembling hot water, there is no need to increase the gas supply, thereby ensuring stable operation of the boiler.

The design of the boiler thanks to the cores increases the heated surface, increases the volume of water and the maximum use of heat, which passes between the walls of the combustion chambers and the walls of the cores, resulting in increased efficiency.

Claims (1)

A hot water boiler, consisting of an external casing, a burner, a gas collector, a chimney, characterized in that cores are arranged inside the combustion chambers installed on I-beams using plugs, while the heat passes between the walls of the combustion chambers and the walls of the cores, and the flame tubes come from combustion chambers at an angle and exit to the gas collector.

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