DE29721686U1 - Heat exchanger - Google Patents

Description

Joh. Vaillant GmbH u. Co. GM 1620

The invention relates to a heat exchanger according to the preamble of claim 1.

In known heat exchangers of this type, the tubes are equipped with fins in order to increase their surface area or heat exchange area.

The disadvantage of such known heat exchangers lies in the considerable effort required to manufacture them.

The aim of the invention is to propose a heat exchanger of the type mentioned at the beginning, which is easy to manufacture.

According to the invention, this is achieved in a heat exchanger of the type mentioned at the outset by the characterizing features of claim 1.

The proposed measures result in the advantage of very simple manufacture of the heat exchanger. In addition, the proposed measures also result in very close contact between the layers of heat-conducting material and the exhaust gases of a burner acting on the heat exchanger. This also results in a very high level of efficiency.

The layers with perforations are preferably made of metal mesh, metal grids, expanded metal or perforated sheets. This allows the exhaust gases from a burner to flow through the layers. This results in a very fine division and redirection of the exhaust gas flow, which leads to a very intensive heat exchange.

The features of claim 3 result in the advantage that heat is also conducted from the combustion chamber wall to the tubes, thus preventing overheating of the combustion chamber wall.

The features of claim 4 ensure in a simple manner that the individual layers are spaced apart from one another in the area between the pipes or pipe sections and lie close to one another in the area of the pipes or pipe sections and are therefore in close heat-conducting contact with one another. Soldering or welding the layers to the pipe sections results in a very good transfer of heat from the layers to the pipe(s).

The features of claim 5 result in a good drainage of any condensate that may occur.

The invention will now be explained in more detail with reference to the drawing. In this drawing: Fig. 1 shows a schematic view of a heat exchanger according to the invention,

Fig. 2 schematically shows a plan view of a section of the layers of the heat exchanger according to Fig. 1 and

Fig. 3 shows a variant of the invention.

The same reference symbols indicate the same details in all figures.

In a heat exchanger according to the invention, a pipe 2 is laid in a serpentine line with sections running parallel to one another and through which a heat exchange medium flows, which will usually be water. However, several individual pipes can also be laid.

Furthermore, a burner 4 supplied via a gas line 3 is arranged in the combustion chamber 1, wherein a gas valve 5 is arranged in the gas line 3.

This tube 2 or its sections are embedded in layers 6 of good heat-conducting material, whereby each of the layers 6 is provided with openings for the passage of gas.

Layers 6 are preferably metal grids, metal fabrics, expanded metal or perforated panels.

These layers 6 are preformed so that the individual layers 6 in the area of the pipe 2 lie close to one another and rest against the pipe 2. In these areas, the individual layers 6 are welded or soldered to one another and to the corresponding pipe 2 or pipe section by means of weld seams 7.

By preforming the individual layers 6, whereby the layers 6 directly adjacent to the individual pipe sections are the most corrugated and the layers 6 furthest away from the pipe sections have the least corrugation, it is ensured that the individual layers 6 are spaced apart from one another in the areas between the pipe sections.

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This allows the hot exhaust gases from the burner 4 to flow through the entire package of layers 6. As they flow through the layers 6, the exhaust gas flow is divided and increasingly diverted, resulting in good heat transfer from the exhaust gases to the layers 6 and subsequently to the pipe 1.

The layers 6 are in heat-conducting connection with the wall 8 of the combustion chamber 1, whereby the layers 5 are butt-fitting or tangential to the walls 8.

Fig. 3 shows a detail of the formation of the layers 6 in edge areas. The layers 6 are laid in folds 9 between the pipes 2, which form drip edges that allow defined dripping of any condensate that may occur.

Claims (1)

■2 &agr; ti Joh. Vaiilant GmbH u. Co. GM1620 EXPECTATIONS Heat exchanger with at least one tube (2) through which a heat exchange medium flows and which is provided with devices for increasing its heat exchange surface, characterized in that the tube (82) is embedded in layers (6) of heat-conducting material provided with perforations and spaced apart from one another, these layers (86) being in heat-conducting connection with the tube(s) (2). Heat exchanger according to claim 1, characterized in that the layers (6) provided with perforations are formed by metal fabric, metal grid, expanded metal or perforated diaphragm. Heat exchanger according to claim 1 or 2, characterized in that the layers 86) are further provided with the inner wall 98) of a combustion chamber (1) are thermally conductively connected. Heat exchanger according to one of claims 1 to 3, characterized in that the layers (86) are preformed and lie closely against one another in the region of the pipe(s) (2) and are spaced apart from one another in other regions, the layers (6) being welded or soldered to one another and to the pipe(s) (2) by means of seams (7) running in the longitudinal direction of the pipe(s) (2). Heat exchanger according to one of claims 1 to 4, characterized in that the layers (86) between the tubes are provided with folds (9) as drip edges.