RU2162192C1 - Thermal unit working on solid fuel - Google Patents

Abstract

FIELD: thermal units working on solid fuels. SUBSTANCE: thermal unit working on solid fuel includes furnace with gas duct located in cooled casing. Furnace is provided with transversal partition having port removal of combustion products, thus forming compartment with rear wall of casing which is connected to smoke stack under which extensible hot well is located. Top portion of furnace is provided with protective shield above which tubular water heater is located; inlet and outlet branch pipes of this water are secured to rear wall of casing. Its lower portion is provided with longitudinal slot for delivery of cold atmospheric air, outlet holes for heated air being available in its upper portion. EFFECT: enhanced economical efficiency. 3 dwg

Description

 The invention relates to a power system and can be used to produce high potential heat when burning various types of solid fuel in the furnaces of thermal units.

 Known thermal unit for solid fuel, adopted as a prototype, containing a firebox with a gas duct located in a cooled casing (see USSR author's certificate N 1226941, IPC F 23 B 7/00, 11/23/1986).

 A disadvantage of the known thermal unit is its low profitability due to the impossibility of obtaining high potential heat when burning solid fuel while providing simultaneous heating of atmospheric air and producing hot water.

 The objective of the present invention is to increase the efficiency when burning solid fuel in the furnaces of thermal units.

 The problem is solved in that in a solid fuel thermal unit containing a furnace with a gas duct located in a cooled jacket, according to the invention, a transverse partition with a window for removing combustion products is installed in the furnace, forming a compartment connected to the chimney with a rear end wall of the jacket which in the indicated compartment a retractable condensate collector is placed, and in the upper part of the furnace a protective screen is made, over which there is a tubular water heater, the inlet and outlet pipes of which are fixed enes in the rear wall of the housing, wherein the bottom part is formed a longitudinal slot for supplying cold air, and in its upper part - the outlet openings for the heated air.

 In FIG. 1 shows the proposed thermal unit, a longitudinal section.

 In FIG. 2 is a section AA of FIG. 1.

 In FIG. 3 is a section BB of FIG. 1.

 A thermal unit, for example, a furnace for heating and producing hot water, contains a furnace 2 with a gas duct 3 located in a cooled jacket 1; The furnace 2 is sealed by a door 4 through an asbestos sealant (not shown) and, in addition, a transverse partition 5 s is installed in it a window 6 for removal of combustion products, through which the gas duct 3 is connected to the furnace 2. The partition 5 forms with the rear end wall 7 of the casing 1 compartment 8. The latter is connected to the chimney 9, under which in the indicated compartment 8 there is a retractable condensate collector 10. In the upper part of the furnace 2, a protective screen 11 is made, over which a water heater 12 from a pipe in the form of a loop is located. This arrangement of the water heater 12 allows you to capture the heat leaving the combustion products, which increases the efficiency of the unit. The inlet and outlet pipes 13 and 14 of the water heater 12 are fixed in the rear wall 7 of the casing 1. The pipes 13 and 14 are fastened either by welding to the wall 7 and the partition 5, or through threaded connections with nuts. In the lower part of the casing 1, a longitudinal slot 15 is made for supplying cold atmospheric air, and in its upper part there are outlet openings 16 for heated air.

 The proposed thermal unit operates as follows.

When burning solid fuel in the furnace 2, the casing 1 is heated and high-temperature combustion products are formed. Through the slot 15 in the lower part of the casing 1, cold atmospheric air is sucked in, which, flowing around the furnace 2, is heated and exits hot through the openings 16. This is due to the difference in densities of cold and hot air. The resulting hot air can be used to heat the room, as well as cooking. The resulting combustion products, falling into the upper part of the furnace 2 and passing over the protective screen 11, come into contact with the water heater 12 and heat the water flowing through it. The protective screen 11 protects the water heater 12 from the open flame of the furnace 2. When installing the water heater 12 in a small power unit, it can be connected to a tank (not shown) located in a convenient place for the user to use hot water for household purposes, or connected to a radiator with power 1.5 kW for heating a living area of up to 15 m ² . With the help of an aggregate of greater power using an expansion tank, it is possible to heat a room with an area of up to 150-200 m ² .

 Thus, efficiency can be improved when burning solid fuel in the furnaces of thermal units.

Claims (1)

 A solid fuel thermal unit containing a furnace with a gas duct located in a cooled jacket, characterized in that a transverse partition with a window for removing combustion products is installed in the furnace, forming a compartment with a rear end wall of the casing connected to the chimney, under which is located in the indicated compartment retractable condensate collector, and in the upper part of the furnace a protective screen is made, over which there is a tubular water heater, the inlet and outlet pipes of which are fixed in the rear wall of the casing, and in the lower a part of it was provided with a longitudinal slot for supplying cold atmospheric air, and in its upper part there were exhaust openings for heated air.

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