NL8403236A - High efficiency central heating boiler - uses spirally wound heat exchanger around combustion chamber and around coaxial insulation block - Google Patents

Abstract

The fuel enters the combustion chamber (2) via a nozzle assembly (3)in which it is mixed with incoming air. The air is drawn by a fan (18) to the nozzle and burner through the outer casing of the boiler housing (1). The burning mixture heats a cylindrical grid (13), surrounded by a spirally-wound tube (5). A certain amount of the inlet air also enters the heat exchanger from the combination chamber (16) via openings (19) in the wall. The tube has small dia. fins (6) to assist the heat transfer. At the end of the combustion chamber is a body of heat-insulating material (10) surrounded by an extension of a tube (5') which has larger dia. fins (7). The heat transfer medium, e.g. water, is pumped through the spiral tube and the heated medium leaves the boiler via a pipe (8) at the other end. The outer air inlet casing is separated from the heat exchanger assembly by a cylindrical intermediate wall (11) of insulating material. The exhaust gases leave the boiler via a vertical flue (12) with a condensate drain (20).

Description

3Γ.0. 32747

Boiler for a central heating system.

The invention relates to a heating boiler, in particular a so-called high-efficiency boiler, for a central heating installation, comprising a house with an internal combustion space in which at least one burner opens and which communicates with a discharge for the combustion gases, wherein, through this space extends at least one passage channel for the heating medium to be heated, which channel is provided with means for increasing its heated surface and on one side can be connected to a supply for the relatively cold heating medium and on the other side with a drain for the heated heating medium. Such a heating boiler is generally known.

In the known boilers of this type, a number of substantially straight tubular passageways pass through the combustion space, which channels each end on either side of the combustion space, into collection spaces which can be connected to the supply and the discharge for the heating medium respectively . In order to obtain a high efficiency, the lower channels form a condenser which is located in the flue gas discharge, whereby the boiler becomes relatively expensive and takes up a relatively large amount of space.

The object of the invention is to provide an improved heating boiler with a high efficiency.

This object is achieved in that in the boiler according to the invention the passage channel is formed by an essentially spirally wound tube which is arranged coaxially near the inside of the combustion space and which can be connected at the outer end to the medium discharge, the burner being in the cavity opens within the spiral, and this spirally wound tube is extended inwardly past the heating space in the direction towards the flue gas discharge with a part received in an annular space, which is bounded on the inside by an the cavity of the extension member is a body of a heat-insulating material and at the outside through a wall which essentially forms an extension of the inside of the combustion space, this space communicating at the inner end stands with the exhaust for combustion gases and the extension part of the spiral wound tube at the bin can be connected to the medium supply.

In a heating boiler designed in this way, the main part of the spiral-wound tube surrounding the open cavity is heated directly by the flames of the burner, while the combustion gases pass through the annular space along the extension part of the spiral-wound tube to the outlet for the burner. the combustion gases flow, so that these combustion gases are cooled while releasing heat to the heating medium flowing through this extension part in countercurrent. The said annular space with the extension part of the spiral-wound tube incorporated therein thus forms a condenser which is directly incorporated in the boiler, so that it can be made compact and can be manufactured relatively cheaply.

Preferably, a circumferential glow grate is disposed in the combustion space, in the cavity within the spirally wound tube, thereby providing more uniform heating of the main portion of the spirally wound tube.

Advantageously, the extension part of the spiral-wound tube has a larger heated surface than the other main part of this tube, whereby the heat transfer to the heating medium flowing through the spiral-wound tube is distributed more evenly. To this end, the extension part of the spiral-wound tube and the main part of this tube 25 can also be formed of different materials.

Advantageously, an annular channel is separated between the inside of the housing and the outside of the spirally wound tube for supplying combustion air to the burner, whereby this combustion air can be preheated to some extent.

An opening can be provided in this air supply channel, through which part of the supplied air can flow from the outer end of the spiral-wound tube into the annular space around the glow grate, which air serves as secondary combustion air for the combustion of the fuel around the glow grate .

The invention is further described with reference to the drawing in which a boiler according to the invention is schematically shown in axial section.

As shown in the drawing, the heating boiler comprises a housing 1 with a combustion chamber 2 into which a burner 3 is formed, which is formed by a gas supply 3 'and a venturi-5 nozzle 31' located behind it, wherein a grate 4 is further arranged. Provided in the combustion space 2 is a passageway for the heating medium, which consists of a spiral-wound tube 5 provided with the heating surface-enlarging fins 6. The spiral-wound tube 5 is extended by a part 5 ', this extension part being provided with the heating surface enlarging fins 7 which are larger than the fins 6. The spirally wound tube 5, 5 'can be connected at the outer end, as indicated by the arrow 8, with a drain for the heated heating medium, while this tube at the inner end, as indicated by the conduit 15 9 with the pump 9 'contained therein, can be connected to the cold heating medium supply.

A body 10 of a heat insulating material is disposed in the cavity within the extension portion 5 'of the spirally wound tube, so that the extension portion 5' is located in an annular space 20 which is bounded by the outer surface of the body 10 and the inner surface of an intermediate wall 11 of a heat-insulating material, and which communicates with the combustion gas discharge 12.

In the combustion space 2, near the spiral-wound tube 5, a sleeve-shaped glow grate 13 is arranged, so that when the stove is in operation, a flame pattern is enveloped uniformly in the grate, whereby the spiral-wound tube 5 is heated uniformly.

An annular channel 14 30 is separated by the intermediate wall 11, which at one end communicates with a ring channel 15 formed around the combustion gas discharge 12, and at the other end communicates with a collecting space 16, in which a fan 18 is arranged. . Combustion air is supplied to the burner 3 via the channels 15, 14 and the collection space 16, in operation, according to the arrows 17, which air is preheated in this way.

Openings 19 are provided in the inner wall of the collection space 16, through which part of the combustion air supplied, as secondary combustion air, is supplied to the outside of the glow grate 13 as secondary combustion air.

When the boiler is in operation, the heating medium 5 flowing through the spirally wound tube 5 is heated directly by the glowing combustion grate 13. The combustion gases thereby flow along the extension part 5 'of the spirally wound tube to the outlet 12, the heating medium flowing through the spirally wound tube 5' being preheated and the combustion gases being cooled, which gases counter-flow with the tube. 5 'flowing heating medium flows.

The water vapor in the combustion gases is condensed in this way, so that the condensation heat released in this way is released to the heating medium. The condensate flows out of the drain 20.

For a good discharge of the condensate, the body 10 is designed to run slightly conical inwards.

840 323 6

Claims (6)

1. Boiler, in particular a so-called high-efficiency boiler, for a central heating installation, comprising a house with an internal combustion space in which at least one burner opens and which is connected to an outlet for the 5 combustion gases, whereby at least one space extends through this space. one passageway for the heating medium to be heated extends, which channel is provided with means for increasing its heated area, and can be connected on one side with a supply for the relatively cold heating medium and on the other side with a heated heating medium outlet, characterized in that the passageway is formed by an essentially helically wound tube coaxially disposed near the inside of the combustion space, and connectable at the outer end to the medium outlet, the burner in the cavity within the spiral 15, and this spiral v ornately wound pipe extending beyond the combustion space, in the direction towards the combustion gas outlet, is extended inwardly with a part contained in an annular space bounded on one side by a recess located in the cavity of this extension part body of a heat insulating material and on the outside by a wall which essentially extends the interior of the combustion space, said space at the inner end communicating with the combustion gas outlet and the extension portion can be connected to the medium supply at the inner end. 2. Boiler according to claim 1, characterized in that a circumferential glow grate in the combustion space is arranged in the cavity within the spiral wound tube. 3. Boiler according to claim 1 or 2, characterized in that the extension part of the spiral-wound tube has a larger heated surface than the other main part of this tube. 4 ·. Boiler according to claims 1-3, characterized in that the extension part of the spiral wound 8403236 ** Γ r -6 tube and the main part of this tube are formed from different materials. 5. Boiler according to claims 1-4, characterized in that an annular channel is separated between the inside of the housing and the outside of the spiral wound tube for supplying combustion air to the burner. 6. Boiler according to claims 2-5, characterized in that an opening is provided in the air supply channel through which a part of the supplied air can flow from the outer end of the spiral wound tube into the annular space around the annealing grid. 3403236