DE3209653C1 - Heat exchanger, in particular hot water heater - Google Patents

Abstract

A heat exchanger (10) consists of a number of hollow vanes (12) arranged in the form of a star and closed at the end face and at the outer rims, but communicating with one another at the inner rims. The inner rims (20) of all the vanes (12) delimit a central space in which connecting tubes (28) are inserted at the top and bottom and sealingly soldered. A blocking piece is located in the central space, so that hot water supplied from above must flow downwards into the vanes (12), the large-area vanes effectively dissipating heat to the environment. The novel heat exchanger has a particularly high heat output per design volume. <IMAGE>

Description

The invention relates to a heat exchanger, in particular a hot water heater, with a axially extending central channel and a number of

65 radial channels arranged radially to this and connected to the central channel over their entire length, the two thin-walled channel walls of each of the radial channels running essentially parallel to one another and the radial channels being arranged in a star shape in the cross section of the heat exchanger, and with two connecting pipes.

In a known heat exchanger of this type (US-PS 18 38 083) is a cast body, whose peripheral wall is corrugated to enlarge the heat exchange surface. The wave troughs can run vertically or horizontally. The first alternative results in the generic training, in which, however, the radial channels are relatively wide and diverge towards the central channel. All radial channels open at the top and bottom in integrally cast heads, the outer contour of which corresponds to an imaginary one Cylinder collapses up to which the radial channels extend outward.

DE-OS 19 28 146 shows a non-generic heat exchanger with a number of plate pairs that limit several flow channels each and which are welded to one another at the circumferential edges. Between every two pairs of plates there are lamella packs bent in a zigzag shape.

The object of the invention is to design a heat exchanger of the type mentioned in such a way that its heat exchange capacity improved with the same size and a cost-effective production is made possible.

According to the invention, this object is achieved in that all of the channel walls consist of at least one at the outer edge of the radial channels facing away from the central channel by an angle of approximately 180 ° and at the inner edge of the two channel walls of two adjacent radial channels facing the central channel an angle that is roughly the difference between 180 ° and the quotient of 360 ° and the number of radial channels corresponds to, bent sheet metal blank exist, the tight connection of the radially extending neighboring Front edges of the two channel walls of each of the radial channels by means of a soldered seam or a welded seam is formed.

The manufacture of a heat exchanger from a sheet metal plate significantly reduces the manufacturing costs. Since the radial channels have a constant, very narrow width, the volume of water they contain is low, which means a large ratio of heat exchange area to enclosed water volume is achieved. The closely adjacent arrangement of the two channel walls of each radial channel enables furthermore, the adjacent front edges are closed with one another by a single weld seam or solder seam connect, whereby not only the manufacturing costs are reduced but also the air-side external space remains open at the end between each two radial channels. So the air can do without any Obstruction flow fully through the heat exchanger in the axial direction.

An advantageous embodiment consists in the fact that when connecting pipes are inserted coaxially to the central channel the inner edges of the adjacent channel walls are designed to reach the connecting pipes. As a result, once the water volume is reduced, the canal walls continue to have a maximum size achieved and finally a simple assembly of the connecting pipes made possible by the frontal

Soldering or welding of the radial channels can also be soldered in or welded in.

Further embodiments of the invention are the subject matter of the dependent claims 3 to 7, for which no independent protection is desired. The subject matter of claim 7 enables the formation of a Heat exchanger with reduced installation depth.

The subject matter of the invention is explained with the aid of the drawing, which shows an exemplary embodiment. It shows

F i g. 1 is a perspective view of a heat exchanger, partly in section,

F i g. 2 shows a radial section through the heat exchanger according to FIG. 1 on an enlarged scale along the Line H-II in FIG. 3 and

3 shows an axial section through the heat exchanger according to FIG. 2 along the line III-III.

The heat exchanger 10 consists of seven blades

12, which are arranged in a star shape at equal angular intervals. Each wing 12 has two in minor Distance parallel flat channel walls 14 and 16 of constant width, which at their Outer edge 18 are tightly connected to one another.

Adjacent canal walls 14, 16 adjoining one another Wings 12 are connected to one another at their inner edge 20. Front edges 22 of the wings 12 are soldered shut or welded shut. Each wing 12 thus has a flat, large-area radial channel 24, which over its communicates with a central channel 21 adjacent to the entire length adjacent to the inner edge 20. Approximately in these tubular central channel 21 two connecting pipes 28 are frontally inserted and when soldering the Front edges 22 are soldered on with a solder seam 30. The heat exchanger 10 is made of a one-piece Sheet metal blank made, which is alternately bent inwards and outwards, whereby the inside bend

takes place via an angle that is made up of the difference between 180 ° and the quotient of 360 ° and the number of blades composed, while the outside bend is 180 °. In the case of seven wings 12 with one each A leaf width of 7 cm results, taking into account the allowance for the outer edges 18 and for the inner edges 20 a developed cutting length of 100 cm. At a distance of 7 cm from an end edge of the blank this is bent by 128.6 °. After again 7 cm

the blank is bent back by 180 ° in the opposite direction. Then again after about 7 cm again an inside bend at the mentioned angle of 128.6 °, etc. After seven inside bends and six Outside bends, the two end edges of the blank are adjacent to each other and become an outer edge 18 is soldered shut.

In order to keep the channel walls 14 and 16 at a distance, are shown in FIG. 2 and 3 on the inside of the duct walls 14 and 16 punctiform projections 32 arranged.

To increase the air-side heat exchange surface, a lamella pack 34 is located between each two blades 12 used, which consists of parallel lamellae 36, which are essentially flat and rectangular to the bisector plane between each two adjacent blades 12 are arranged. The opposite Ends of the lamellae 36 are alternately connected to adjacent lamellae 36. All slats 36 are so long that they abut against the channel walls 14 and 16, respectively. Each disk pack 34 consists of one Sheet metal cut in a serpentine shape. The plate packs 34 have approximately the same length as Wings 12 and are held on them by means of end-face retaining rings 38 which form the outer edges 18 include and on which the lamella stacks 34 are supported with the outermost lamella 36.

Instead of the two end-face retaining rings 38, a sheet metal jacket with a circular or cylindrical shape can also be used polygonal outline can be used.

In the central channel 21, which is delimited by the inner edges 20, a locking body 40 is pressed, the is soldered before inserting the connecting pipes 28. It is important that the locking body 40 from the upper and lower connecting pipe 28 is sufficiently spaced so that the water flow does not is hindered. The blocking body 40 prevents a direct flow from the upper connecting pipe 28 through the central channel 21 to the lower connecting pipe 28. The water must therefore pass through the radial channels 24 flow.

Several of the heat exchangers 10 can be placed next to one another and on the water side by means of T-pieces connected in parallel to form a radiator.

For this purpose 2 sheets of drawings

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Claims (7)

Patent claims: 1. Heat exchanger, in particular hot water heater, with an axially extending central channel .-, nal and a number of radially arranged axially extending radial channels connected to the central channel over their entire length, the two thin-walled, flat channel walls of each of the radial channels essentially run parallel to one another and the radial channels are arranged in a star shape in the cross-section of the heat exchanger, and with two connecting pipes, characterized in that all of the channel walls (14, 16) consist of at least one outer edge (18) of each of the radial channels facing away from the central channel (21) (24) facing at an angle of about 180 °, and the central channel (21) the inner edge (20) of the two channel walls (14, 16) of two adjacent, ₀ radial channels (24) by an angle, which is about the difference between 180 ° and corresponds to the quotient of 360 ° and the number of radial channels (24), curved sheet metal blank, the dense verb indung the radially extending adjacent -> ₅ beard end edges (22) of the two channel walls (14, 16) each of the radial channels (24) is formed by means of a soldered seam or a welded seam. 2. Heat exchanger according to claim 1, characterized in that when coaxial with the central channel (21) inserted connecting pipes (28) the inner edges (20) of the adjacent duct walls (14, 16) are designed to reach the connecting pipes (28). 3. Heat exchanger according to one of claims 1 or 2, characterized in that the two End edges of the at least one sheet metal blank are arranged on one of the outer edges (18). 4. Heat exchanger according to one of claims 1 to 3, characterized in that each between the duct walls (14, 16) of two adjacent radial ducts (24) have a lamella pack (34) axially parallel and approximately at right angles to the bisector of the two radial channels (24), the channel walls (14,16) touching slats (36) is arranged. 5. Heat exchanger according to claim 4, characterized in that the fins (36) of each of the Hang the lamella packs (34) next to one another in a serpentine fashion. 6. Heat exchanger according to one of claims 4 or 5, characterized in that at least the radially outer plate (36) each of the plate packs (34) over its axial length with the two associated channel walls (14, 16) is connected by means of soldered seams. 7. Heat exchanger according to one of claims 1 to 6, characterized in that the radial channels (24) are shorter in their radial direction in one circumferential area than in another circumferential area.