PL64786Y1 - Retort oiler for solid fuels - Google Patents

Description

Description of the design The subject of the utility model is a solid fuel retort boiler intended for use in central heating installations in single- and multi-family houses as well as smaller recreational and industrial facilities. The church is known from the Polish description of the patent application no. 367811 entitled "Retort burner and boiler with retort burner". The boiler has a burner placed in a chamber, to which air is supplied by an embedded blower and externally. The fuel is fed to the burner from an externally located container by a screw conveyor driven by a geared motor. Above the burner unit there is a heat exchanger unit with a chimney part, the main components of which are a spiral coil and a water jacket with exhaust pipes. It is also known from the description of the Polish utility model No. 61740 entitled "Central heating variable-hearth boiler", which has two furnaces: upper and lower, while the lower furnace has a burner connected to a fuel feeder mounted in the air chamber. The steel heat exchanger is made in the form of three water partitions. A bowl-shaped deflector is hung at the bottom of the grate, with its convex part facing the burner. Another known solution of the boiler is presented in the international patent document WO 9731224. The boiler 1 consists of two levels placed one above the other, the lower level being a cylindrical combustion chamber to which fuel is fed through the feeders. The upper level contains the exchanger and the exhaust pipe. Both levels are connected by nozzles which allow the flame to be dispersed by the air circulator from the base of the combustion chamber towards the exhaust pipe. The exchanger is formed as a double-walled cylinder arranged around the combustion crucible and is closed with a cover made of solid refractory material. The boiler, according to the utility model, contains the known system of automatic fuel feeding through a screw feeder and a gear motor, as well as flame tubes placed vertically above the retort furnace in the exchanger's water jacket. In the central space of the exchanger, directly above the combustion chamber, a deflector is suspended in the shape of a cylinder open at both ends, with sections of steel profiles attached to its outer outer surface. These profiles are placed in guides attached to the inner wall of the exchanger. Such a location and shape of the deflector causes an elongation of the exhaust path, which runs along the central part of the cylinder, then reflects off the combustion chamber cover and turns back and down moving between the outer wall of the cylinder and the inner wall of the exchanger. They re-enter the combustion chamber, where they are subjected to the high temperatures of the furnace and then returned to the top through the flue gas in the water exchanger. This results in a significant improvement in the thermal efficiency of the boiler without the need to equip the boiler with additional levels that extend the exhaust path. It also reduces the emission of harmful carbon oxide in relation to the known single-level boilers. The object of the utility model is shown in the drawing, where Fig. 1 shows a clearance section and Fig. 2 shows a cross section of the boiler 1a. The boiler 1 is equipped with a retort burner 1, to which solid fuel from the container 2 is supplied by a screw feeder 3 driven by a geared motor 4. Above the burner there is a combustion chamber equipped with a refractory lining 5. Above the chamber a the combustion chamber is a cylindrical deflector 6 equipped with bars 7, which are embedded in guides 8 attached to the wall of the exchanger 9. Inside the exchanger there is a tube tube 10. The combustion chamber is closed with a cover 11, above which is a flue gas collector 12 and exhaust outlet 13. PL PL

Claims (1)

2 PL 64 786 Υ1 Description of the model The subject of the utility model is a solid fuel retort boiler intended for use in central heating systems in single- and multi-family houses as well as smaller recreational and industrial facilities. The boiler is known from the Polish patent application no. 367811 entitled "Retort burner and boiler with retort burner". The boiler has a burner placed in a chamber, where air is supplied by a blower mounted outside. The fuel is fed to the burner from a bunker located outside by means of a screw conveyor driven by a gear motor. Above the burner unit there is a heat exchanger unit with a chimney part, the main elements of which are a spiral coil and a water jacket with exhaust pipes. It is also known from the description of the Polish utility model No. 61740 entitled "Central heating variable-furnace boiler", which has two furnaces: upper and lower, while the lower furnace has a burner connected to a fuel feeder mounted in the air chamber. The steel heat exchanger is made in the form of three water partitions. At the bottom of the grate, a bowl-shaped deflector is suspended, with its convex part facing the burner. Another known solution of the boiler is presented in the international patent document WO 9731224. The boiler consists of two levels arranged one above the other, the lower level being a cylindrical combustion chamber to which fuel is fed through the feeders. The upper level contains the exchanger and the exhaust pipe. Both levels are connected by a nozzle allowing the flames to be scattered by an air circulator from the base of the combustion chamber towards the exhaust pipe. The exchanger is formed as a double-walled cylinder around the combustion crucible and is closed with a cover made of refractory material. The boiler, according to the utility model, contains the known system of automatic fuel feeding via a screw feeder and a gear motor, and smoke tubes placed vertically above the retort furnace in the exchanger's water jacket. In the central space of the exchanger, directly above the combustion chamber, there is a deflector in the shape of a cylinder open at both ends, with sections of steel profiles attached to its outer surface. These sections are placed in guides attached to the inner wall of the exchanger. Such a location and shape of the deflector causes the extension of the exhaust gas path, which runs along the central part of the cylinder, then bounces off the combustion chamber cover and returns downwards, moving between the outer wall of the cylinder and the inner wall of the exchanger. They re-enter the combustion chamber, where they are subjected to the high temperatures of the furnace and then returned to the top of the flame tubes in a water exchanger. This results in a significant improvement in the thermal efficiency of the boiler without the need to equip the boiler with additional levels extending the flue gas path. It also reduces the emission of harmful carbon monoxide in relation to the known single-stage boilers. The object of the utility model is shown in the drawing, where Fig. 1 shows a longitudinal section and Fig. 2 shows a cross section of the boiler. The boiler is equipped with a retort burner 1, to which solid fuel from the bunker 2 is supplied by a screw feeder 3 driven by a gear motor 4. Above the burner there is a combustion chamber equipped with a refractory lining 5. Above the combustion chamber there is a cylindrical deflector 6 equipped with flat bars 7, which are embedded in guides 8 attached to the wall of the exchanger 9. Inside the exchanger there are smoke tubes 10. The combustion chamber is closed with a cover 11, above which there is a flue gas collector 12 and an exhaust gas outlet 13. Protective disclaimer. of the worm feeder and gear motor, and a cylinder-shaped deflector, characterized in that the deflector (6), open on both sides, is suspended directly above the furnace on profiles (7) placed inside the guides (8), which are attached to the inner wall of the water exchanger (9) .