NO138469B - HIGH PRESSURE JET WASHING SYSTEM. - Google Patents

Description

Combined boiler with two burners for solid and/or liquid fuel.

The present invention relates to a

combined boiler with two fireplaces for

solid and/or liquid fuel, such as coal,

firewood, rubbish or oil and the like.

In a combustion chamber for oil is there

built-in high-pressure oil unit with

downward nozzle; at the same time is the hearth

for solid fuel provided with a downwardly directed flue gas channel that extends through the water space of the boiler and passes below

in a further gas outlet channel running across the boiler.

The invention is distinguished by the fact that the combustion chamber is provided with a motor

its outlet opening for the flue gases into the hearth for solid fuel converging walls, and that the combustion chamber's gas outlet opening and the hearth's gas outlet opening

are located on opposite sides of the hearth.

Further features of the invention will

can be seen from the following description of an embodiment with reference to the drawing, in which fig. 1 shows the boiler in perspective from the front, fig. 2 a partial section

perspective view of the boiler, fig. 3 is a schematic, transparent perspective view of the boiler and fig. 4 a schematic horizontal section

of the same.

In the drawing, 1 indicates the boiler's outer casing, 2 the combustion chamber for oil, 3

the fireplace for solid fuel, 4 the water heater and 5 the oil unit which is off

the high pressure type. The oil unit 5 is included

its lower part arranged vertically in a nozzle

6, whose walls consist of a non-corroding alloy, such as the alloy known on the market under the name "Canthal" which

can withstand a temperature of approx. 1700° C. The nozzle is designed so that the flame 7 is constricted in the direction towards the lower end of the nozzle, the nozzle walls being conically inclined and arranged in such a way that it is achieved that practically the entire combustion of the oil gases takes place in the nozzle. In this, the flame 7 provides a high temperature (of approx. 1100° C). The radiant energy from the walls of the nozzle 6 and the heat from the remaining part of the oil flame are then transferred to the surrounding water mantle and thus to the heat-transferring medium. The combustion gases are led from the combustion chamber 2 through a narrowing flue gas channel 8 through the hearth 3 for solid fuel, further through a vertically downwards flue gas channel 9 past the water heater and then through a channel 10 running across the boiler to the chimney. Thanks to this construction, the flue gas channel is quite long and the heat-transferring surface is up to approx. 2.8 ms for such relatively small external dimensions of the boiler as length 1200 mm, width 525 mm and height 1060 mm. Tests carried out have shown that in this way the greatest possible effect is extracted from the fuel.

The central part of the boiler is fitted with tightly closing hatches 11 and 12. Behind these hatches is the hearth 3 for rubbish and solid fuel. One of the hatches (12) is provided

with draft regulator 13. The fireplace is designed so that the solid fuel lies on it

a water-cooled, i.e., water-flowed grate 14 which, due to its water cooling, is well suited to serve as a slag separator for the ash lying underneath

container 15. The flue gases from the hearth 3 are led in the same way as the oil combustion gases through channels 9 and 10 to the chimney (not shown). When burning solid fuel, a so-called rosette valve (rotary valve) 16 is opened on the upper hatch 11. In combination firing, i.e. when simultaneously firing with oil and e.g. rubbish and waste, the rosette valve 16 must also be open. The return water from the heating elements in the heat conduction system is distributed fan-shaped in the bottom 17 of the boiler from a place in the vicinity of the hearth 3 for solid fuel.

The water heater 4 is, in the embodiment shown, of the combined type, i.e. of both storage and battery type. It consists of two storage containers and an intervening pipe system, the length of which at the above-mentioned size of the boiler goes up to approximately 60 m and which ensures a practically constant temperature of the outgoing hot water.

The boiler is well insulated. A fiberglass insulation is placed between an outer and an inner housing, and an extra, insulating layer is arranged at the bottom of the boiler.

The boiler is also provided at the top with a cover 26 which covers all control devices 27, such as hydrothermometer, heater regulator, the high-pressure oil unit 5 switching device and the like in a recess 18, as well as the oil unit 5 in a specially designated recess 19 above in boiler 1 interior. The flue gas duct 10 led across the boiler is previously provided with an opening 21 covered with a hatch 20, through which the ducts 9 and 10 are accessible for screening.

As can be seen from fig. 3 and 4, the tip of the vertically downwards-directed oil flame is deflected into the combustion chamber 2 and led to the gas outlet opening through the narrowing channel 8 which is formed by the two converging walls 23 and 24. The smoke gases flow from the outlet opening 22 towards that of the hearth's 3 walls which lies directly against the outlet opening, strikes at a relatively high speed against this wall provided with oven hatches, etc., whereby the gas is imparted with a turbulent movement and is thus caused to give off its heat to all 3 walls of the hearth. At the upper end of the hearth 3, a further opening 25 is arranged in the wall directly opposite the slot 22, through which the upward-flowing gas, which has already given off part of its heat, is led through the vertical channel 9 and the horizontal channel 10 to the chimney. As both the combustion chamber 2 and the hearth 3 as well as the flue gas channels 9 and 10 are surrounded by water.

the heat release from the flue gases is good;

the temperature of the flue gas that is led to the chimney is consequently particularly low. The efficiency of the boiler is particularly high, namely as much as 92 per cent.

Of course, the invention is in no way limited to the embodiment shown and described. Thus, the hearth for the solid fuel can have a round instead of a rectangular cross-section. The gas outlet channels 9 and 10 and the water heater can change places with the combustion chamber 2 and the oil unit 5, which is advantageous when the connection to the chimney is arranged to the right instead of to the left of the hearth 3.

Claims (3)

1. Combined heating boiler with two fireplaces for solid and/or liquid fuel, such as coal, wood, garbage or oil and the like, where a high-pressure oil unit with a downward-facing nozzle is built into a combustion chamber for oil, and where the fireplace for solid fuel is provided with a downwardly directed flue gas channel which extends through the water space of the boiler and below it transitions into a further gas outlet channel running transversely through the boiler, characterized in that the combustion chamber (2) is provided with an outlet opening (22) towards its outlet for the flue gases into the hearth ( 3) for solid fuel converging walls (23, 24), and that the gas outlet opening (22) of the combustion chamber (2) and the gas outlet opening (25) of the hearth (3) are located in mutually opposite locations of the hearth (3). 2. Boiler according to claim 1, characterized in that the combustion chamber (2) is provided with a slot-shaped gas outlet opening (22) which opens at the lower end of the hearth (3), which is suitably rectangular in cross-section, at one of its corners, and that the downward-directed gas outlet channel (9) is connected to the upper end of the hearth (3) by the hearth wall lying directly against the 1 slot-shaped gas outlet opening (22). 3. Boiler according to claims 1 and 2 with a hearth (3) with a round cross-section, characterized in that the slot-shaped outlet opening (22) for the flue gases from the combustion chamber (2) opens tangentially into the hearth (3).