NL8102552A - Gas-fired central heating boiler - has round or oval-section water jacket contg. air blower-fed burners in U=section baffle with preheat exchanger below - Google Patents

Abstract

The gas-fired central heating boiler comprises a double-walled (2,3) water jacket (1) around a combustion chamber containing burners (7,8) with air supply and combustion gas removal (17) by a blower. The water flowing (15) through the jacket is pre-heated in a heat exchanger (11) heated by the combustion gas after this has passed (P etc.) along the jacket such that condensation occurs on the exchanger. The jacket is circular or oval in cross-section and contains the heat exchanger below an upwardly open U-section baffle (9,10) around the burners such that the combustion gas rising above the burners passes over the edges (10) of the baffle and flows downwards along the jacket and via the heat exchanger to the flue connection (17) at the bottom.

Description

- 1 - • t

Closed central heating boiler,

The invention relates to a closed central heating boiler, the combustion space of which contains one or more gas burners is at least partly surrounded by a double-walled water jacket 5, wherein the supply of combustion air and the discharge of combustion gases is effected by a fan, and water to be heated is passed through the double-walled water jacket surrounding the combustion space, after first being preheated in a heat exchanger placed in the flow of combustion gases, which is first passed along the double-walled water jacket, such that condensation may form on the heat exchanger, further means are present for discharging the cooled combustion gases and for collecting and discharging the condensate.

Such a boiler is described in the article "New generation central heating boiler", which was published in January 1979 by N.V. Nederlandse Gasunie in Groningen.

The boiler described in the aforementioned article has attempted to transfer as much heat as possible from the combustion gases to the water and to minimize losses to the surroundings.

For this purpose, the combustion gases are first guided, by means of a fan, through a first heat exchanger placed above the burner in the combustion space and then, after reversing the flow of combustion gases, through a second heat exchanger, which is located in a space adjacent to the combustion space.

The combustion gases are cooled in the second heat exchanger to such an extent that condensation of the water vapor present in these gases occurs. The condensate created by the condensation process is collected under the second heat exchanger and drained from there. Since no condensation water will be formed on the first heat exchanger, through which the pre-heated water flows, the burner below is free from dripping 81 02 5 52-2 condensation water. The combustion process in the combustion chamber is thus not disturbed, so that a complete combustion can be achieved.

Although this known boiler has a high efficiency, a drawback is that the overall size of the boiler is considerable due to the presence of the additional space adjacent to the combustion space, in which the second heat exchanger is housed.

Another drawback of the known boiler is the high manufacturing costs. Due to the overpressure present in the double-walled water jacket, the flat walls thereof must be made heavy. Furthermore, the construction is complicated and various parts of the boiler are difficult to access for cleaning and carrying out. 15 of repairs. The latter partly because it is desirable to insulate the double-walled water jacket.

The object of the invention is now to provide a boiler of the above-mentioned type, which has a very high efficiency, the total omyang of which is small and wherein the simple construction ensures cheap production and easy accessibility.

For this purpose it is provided according to the invention that the double-walled water jacket comprises the entire boiler room, in which the combustion space and the heat exchanger are located, and mainly consists of two cylindrical or elliptical walls arranged horizontally and concentrically with each other, with closing walls between their ends, with a gas burner disposed within the casing, which extends for a large part of the length of the casing and surrounded by an approximately U-shaped curved guide plate, arranged such that between the gas burner and the double-walled water jacket remains a space that only communicates at the top with the space in which the gas burner is located, so that the combustion gases after ascending above the gas burner are led over the top edges of the guide plate along the water jacket to there coming into contact with the second heat exchanger, 40 which is a placed between the guide plate and the water jacket 81 02 552-3, after which the combustion gases are removed.

According to a further elaboration of the invention, the water discharge connection of the second heat exchanger is arranged near one end of the boiler and connected to a water supply connection of the double-walled water jacket which is located near this end at the bottom of the water jacket, while the water discharge connection on the on top of the water jacket and on the other end. A simple connection between the heat exchanger and the double-walled water jacket is hereby guaranteed.

The invention will now be elucidated on the basis of an exemplary embodiment, shown in the drawing, in which: fig. 1 schematically shows a perspective view of a boiler with the closing plate omitted for showing different parts; and Fig. 2 schematically shows an approximately vertical longitudinal section over the boiler of Fig. 1.

The boiler shown mainly consists of the double-walled water jacket 1, which is built up from the outer wall 2, the inner wall 3, the front closing wall 4 and the rear closing wall 5. It is clear that the closing walls 4 and 5 can form one whole with the Walls 2 and 3 or whether one of the closing walls 4 or 5 can also be connected to walls 1 and 2 by means of flanges, while walls 4 and 5 can further be built up from different parts to be connected to each other for mounting of other parts.

An elongated air supply duct 6 is arranged in the closing wall 4, the longitudinal axis of which extends parallel to the longitudinal axis of the water jacket 1. On the top surface of the duct 6, two elongated burners 7 and 8 are arranged symmetrically, while around the duct 6 and the burners 7 and 8 are provided with an ü-shaped guide plate 9. The top edges of the guide plate 9 are bent approximately at right angles to form the parts 10.

40 Between the lower part of the guide plate 9 81 02 5 52 - 4 - and the inner wall 3 of the water jacket 1 is the second heat exchanger il, provided with a water supply pipe 12 and a water discharge pipe 13, which is directly connected to the water supply pipe 14 of the water jacket 5 1. As indicated by the arrows 15, the water within the jacket 1 flows from the water supply pipe 14 to the water discharge pipe 16 and from there to heating elements (not shown) which release the heat absorbed by the water, such as, for example, into the air rooms to be heated. From the heating elements, the water flows back to the water supply line 12 of the heat exchanger 11.

The combustion gases obtained by the burners 7 and 8 flow upwards and are deflected along the top edges 10 of the guide plate 9 and then flow downwards along the inner wall 3 of the jacket 1, in the manner indicated by the arrows P .

At the bottom part of their path, they come into contact with the heat exchanger 11 to be cooled to such an extent that condensation forms on the heat exchanger 11. The combustion gases are discharged from the lower part of the water jacket 1 via the pipe 17.

It outwards through the closing wall. 4 projecting end of the sleeve 6 is connected to a fan (not shown), which provides a forced, continuous air flow. This air flow is exhausted at the top surface of the duct, inside the water jacket, through two pipes 18 for supplying primary combustion air to the burners 7, 8 and through a number of longitudinal rows of outflow openings. The rows of outflow openings are located on either side of the burners 7 and 8, wherein guide plates 19 and 20 are provided for further guiding of the air flowing out of the outflow openings.

Gas is supplied to the burners 7 and 8, the length of which substantially corresponds to that of the tube 6, via pipes (not shown). During operation, the gas must be burned - above the burners and no spontaneous combustion must occur within 40 burners. Although the flames at the deflection 81 02 552

Claims (4)

As shown diagrammatically in the drawing, the heat exchanger 11 can be built up from a number of rib pipes 21 connected in series, or also in parallel ribbons. The condensation water formed on the rib pipes 21 can also be discharged via the pipe 17 and, for example, be discharged directly from the pipe 17 drained, in an unspecified manner. In any case it is ensured that no code formation will occur on the upper part of the inner wall 3 of the water jacket 1, so that there is no danger that condensation water will drip onto the gas burners. The fan (not shown) can be connected by means of a tube (not shown) to the open end of the air supply duct 6 and then generates an overpressure in the boiler room, in contrast to the boiler fan according to the above article. Although the above-described embodiment is simple and compact, it would of course also be possible to provide the water jacket 1 on its underside with a downwardly projecting, more rectangular part, for accommodating the heat exchanger therein, this rectangular part being either cannot be arranged symmetrically with respect to the vertical longitudinal surface of the water jacket 1. However, these are possibilities which will be clear to the skilled person, as well as further changes, which can be made without departing from the inventive idea. -Conclusions- 8102552 \ f V - 6 - -Conclusions- 1. A closed central heating boiler / of which the, one or more gas burners / combustion space is at least partly surrounded by a double-walled water jacket, whereby the supply of combustion air and the discharge of combustion gases is guided by a fan and the water to be heated is guided by the double-walled water jacket surrounding the combustion space, after first being preheated in a heat exchanger placed in the flow of combustion gas which has first been passed along the double-walled water jacket, such that condensation may form on the heat exchanger, further means being present are for discharging the cooled combustion gases and for collecting and discharging the condensate, characterized in that the double-walled water jacket (1) comprises the entire boiler room, in which the combustion space and the heat exchanger (11) are located and mainly consists of two almost horizontal and cylindrical or elliptical walls (2,3) arranged concentrically with respect to each other with sealing walls (4,5) between their ends, a gas burner (7,8) arranged within the casing (1) extending over a large part of the length of the jacket extends and is surrounded by an approximately U-shaped curved guide plate (9,10), which is arranged such that a space remains free between the gas burner (7,8) and the double-walled water jacket (1) which only communicates at the top with the space in which the gas burner is located, so that the combustion gases after ascending above the gas burner (7,8) over the top-30 edges (10) of the guide plate (9) along the water jacket (1) are guided downwards to contact the second heat exchanger (11), which is fitted between the guide plate (9) and water jacket (1), after which the combustion gases at the bottom of the water jacket (1) drained from it. Boiler according to claim 1, characterized in that the water discharge connection (13) 81 02 5 52 * * * - - 7 - of the second heat exchanger (11) is arranged near one end of the boiler and connected to a water inlet connection (14) of the double-walled water jacket (1), which is located near this end at the bottom of the water jacket (1), while the water outlet connection (16) at the top of the water jacket (1) and at the other end thereof has been applied. Boiler according to claim 1 or 2, characterized in that an elongated air supply duct (6) is arranged within the ü-shaped guide plate (9, 10) on which one or more elongated burners (7,8) are located between rows of outflow openings. in the top surface of the sleeve (6) and with air guide plates (19,20) mounted on the top surface of the sleeve (6). 4. Boiler as described and / or shown in the drawing. 8102552