NL8502377A - HEATING DEVICE. - Google Patents

Description

* A * Μ Kon / iuf / 2 Econosto

Heating device

The invention relates to a heating device, provided with a boiler / comprising an inlet chamber with air inlet means and gas inlet means, at least one burner arranged underneath it, at least one combustion space arranged again underneath it, at least one heat exchanger arranged again underneath it and at least one combustion gas outlet arranged underneath again, which heating device is provided with at least one fan.

Such a heating device is known from Dutch patent application 80.00460. With such a heating device, which is economical in use, the combustion gases are not very hot, so that the chimney draft in various circumstances is insufficient to be able to use a draft interrupter. The relatively low temperature combustion gases contain so much moisture that the moisture even condenses. This makes the wall of the chimney moist and can be attacked, so that a special material such as carbon steel must be selected for the chimney, which is not affected by the aggressive moisture of the combustion gases.

The object of the invention is to improve the discharge of combustion gases.

According to the invention a draft interrupter is provided at the combustion gas outlet and is provided with an ejector. As a result, the kinetic energy of the combustion gases is used to transport it through the chimney. In doing so, so much air inflowing the draft interrupting device is pushed into the chimney that the mixture of combustion gases and air has a dew point that is below the occurring temperature of the mixture.

Furthermore, the temperature of the mixture becomes so low that even plastic can be used as a chimney material. Aluminum pipes are also eligible as a chimney pipe.

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The invention will be elucidated in the following description with reference to a drawing.

Show in the drawing:

Figure 1 shows a side view, partly in section, of a heating device according to the invention, Figure 2 a variant of detail II of figure 1, and figure 3 on a large scale detail III of figure 1.

The heating device 1 comprises an insulating box 2, in which a heating boiler 3 and a fan 4 are incorporated. The heating boiler 3 comprises an inlet chamber 5 with a pipe-shaped air inlet 6 and with a gas inlet 7. Below this, a burner 8 of the flat burner type is arranged and again below this there is a combustion space 40. Again underneath this is a heat exchanger 9, and again below it an exhaust chamber 10 with an outlet 11 opening into a draft diverter 12, to which a flue gas discharge conduit 13 can be connected. The draft diverter 12 has inlets 14 for false air and a condensate discharge 15 designed as a ciphon. The flue gas outlet 11 opens into a flow-restricting nozzle 44, which acts as an ejector, and the combustion gases with a great deal of kinetic energy into the flue 46. of the draft diverter 12 flows according to arrows 45. False air is drawn in according to arrows 43 and is thereby drawn into the chimney outlet 46. The resulting mixture then has a low temperature of 60 to 70e, so that the chimney can be manufactured from PVC pipe. Any material that still retains its original strength properties at 60 to 70 ° and is moreover resistant to corrosion, for example aluminum, can be used. Furthermore, the advantage has been achieved that the dew point of the mixture of drawn-in air and combustion gases is below the temperature of this mixture, so that no troublesome condensate problems arise. As a result, the connection of the heating device 1 to existing gas discharge ducts not intended for high-efficiency boilers is nevertheless possible. The kinetic energy of the mixture is used to move the mixture outwards through the chimney if necessary. 'Yes? J .j Yes W / ƒ ^ A.

-3- to be transported. With very long chimneys it may be necessary or useful to use an extra fan or an extra strong fan 4.

The air resistance in the boiler 3 during operation of the burner 8 is many times greater than the natural draft in the flue gas discharge pipe 13, so that the amount of air entering the boiler 3 is independent of the flue gas discharge pipe 13, but is exclusively determined by the fan 4, so because of a certain Qh curve always provides a certain air flow when it is active. The electrical voltage of, for example, 220 volts applied to the fan 4 leads to a certain speed of an electric motor 16 which drives the fan 4 and the blade shape of the fan 15 blades 17 displaces a determined air flow rate. The arrangement of the fan rotor 18 relative to the air inlet 6 is important here. Preferably a factory-determined arrangement is chosen.

The flue gas discharge pipe 13 may have a first 20 conically narrowing piece of chimney pipe 50. Thanks to the application of the invention, a fairly narrow chimney pipe can be used.

The air inlet openings 14 are arranged at the same level as or below the flue gas outlet 46. The design of the draft diverter 12 and the relative level arrangement of the flue gas outlet 29 of the boiler 3 and the air inlet openings 14 and the flue gas discharge 46 of the draft diverter 12 are chosen such that in the operating state of a hot boiler, but not burning. burner no cold air is drawn through boiler 3.

In this way cooling of the boiler 3 is avoided, which strongly influences the boiler efficiency.

According to figure 2, the distance of the rotor 18 relative to the air inlet 6 is adjustable by making an inlet round 19 adjustable with screw means 20 relative to the air inlet 6, wherein a sealing ring 21 is present between the inlet mouth 19 and the air inlet 6.

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A pressure differential switch 23 is provided on the air inlet 6, which is connected to a controller 22 which opens the gas valve 24 when the pressure taken up in the inlet chamber 5 is sufficient and other required conditions 5 are met. This valve 24 is arranged on the gas inlet 7 behind a reducing valve 42, which reduces the pressure of the gas network when the main valve 25 is opened from 22 to 28 millibars to a certain constant pressure of, for example, 15 millibars.

In this way, a certain air flow rate is always mixed with a certain gas flow rate, in order to achieve the stoichiometric ratio ideal for the burner 8 at the optimum mixture quantity.

The gas inlet nozzle 28 of the gas inlet 7 is accurately manufactured in shape to obtain a determined gas flow rate at a certain pressure prevailing in the gas inlet 7.

The burner 8 preferably consists of a ceramic plate 30 with vertical channels 31 with a diameter of, for example, 0.7 mm with, for example, 100 holes per cm2. SR 20 thus creates a flame front with a height of, for example, a few millimeters, with a burner surface of, for example, 300 x 400 mm. In this way, a pure combustion gas is created without or almost without air overflow. A mesh grid can optionally be arranged under plate 30, among other things, to increase the burner capacity.

Before lighting the burner 8, a circulation pump 35 is first started which pumps water through the heat exchanger 9. The heat exchanger 9 consists of a number of pipes 36 which are provided with ribs 37. A control device 38 first starts the pump 35 and with a delay of a few seconds the fan 4. By means of the pressure switch 23, which records the pressure difference between the pressure in the air inlet 6 and the pressure in the combustion chamber 40, after determining sufficient pressure difference a few seconds later an electric ignition 39 was activated. The waiting time of a few seconds is chosen to ensure that no flammable gas-air mixture is present in the inlet chamber 5 and combustion chamber 40. Again a few seconds later, the 3502 377 -5 valve 24 is opened. After, for example, five seconds, there must then be a flame, which is determined with a flame detector 41. If there is then no flame, the valve 24 is closed again. The dimensioning of the burner 8 relative to the heat exchanger 9 is such that the combustion gases cool below the condensation point to obtain a high efficiency. In the heating device 1 according to the invention, the condensate does not fall on the burner 8. In the black burner 8, the speed of the gas-air mixture is so great that combustion takes place in and outside the ceramic plate 30.

Incidentally, a heating installation according to the invention can also be fired with an infrared burner.

3502377

Claims (11)

Heating device (1), provided with boiler (3), comprising an inlet chamber {5) with air inlet means (6) and gas inlet means (7), at least one burner (8) arranged underneath, at least one again underneath combustion space (40), at least one heat exchanger (9) arranged again underneath and at least one combustion gas outlet (11) arranged again underneath, which heating device (1) is provided with at least one fan (4), characterized in that at the 10 flue gas outlet (11) there is a draft breaker (12) fitted with an ejector. Heating device (1) according to claim 1, characterized in that the boiler gas outlet (11) is designed as a spray nozzle directed towards the chimney outlet (46) of the draft diverter 15 (12). Heating device (1) according to claim 2, characterized in that the spray nozzle narrows in flow direction. Heating device (1) according to claim 3, 20, characterized in that the draft interrupter (12) is provided with a condensation drain (15). Heating device (1) according to one of the preceding claims, characterized in that the draft interrupter (12) is made of plastic. Heating device (1) according to one of the preceding claims, characterized in that the chimney comprises a high-temperature PVC pipe. Heating device (1) according to one of the preceding claims, characterized in that the fan (4) 30 has a determined air output per unit time. Heating device (1) according to one of the preceding claims, characterized in that the gas supply (7) is provided with gas flow control means (7, 28, 42) with an adjusted fixed gas flow rate. Heating device (1) according to one of the preceding claims, characterized in that the position of the 3502377 -7 fan (4) relative to an air inlet (6) is adjustable. Heating device (1) according to one of the preceding claims, characterized in that the burner (8) is a black burner. Heating device (1) according to one of the preceding claims, characterized in that the burner (8) is a flat burner. 3502377