DE2931803A1 - Flat heat-exchanger forming storage vessel wall - has outer passages round edge and protruding above inner ones - Google Patents

Abstract

The heat-exchanger has flow passages for a heat-transfer medium and forms the wall of a heat-storage vessel. Outer passages (2,3') extend round the edge, and protrude above the inner ones (3"). The passages can consist of manifolds (2) and connecting passages (3',3"). The manifolds and the two connecting passages (3') at the edge form the outer passages. The heat-exchanger can consist of a blown plastic flat radiator. There can be two or more of them one above the other, sealed together in the plane of the outer passages which bear against each other.

Description

Flat heat exchanger as a wall of a heat storage

container and container made therefrom The invention relates a planar heat exchanger as a wall of a heat storage tank to the Oberoeriff of the patent claim and a container made therefrom.

Heat exchangers of this type and containers made therefrom are in DE-OS 28 02) 43 described. A flat heat exchanger in the form of a plate radiator is intended to form the side wall of a latent heat accumulator. The flow channels of the heat exchanger are flowed through by a heat transfer medium, which supplies heat to the latent storage mass or removes. The large heat dissipation surface of the panel radiator is special for this suitable.

There are two plate heating elements for the production of a storage tank of the type mentioned arranged at a distance from one another and by an interposed Round edges tightly with one another by means of two circumferential weld seams. Of the The distance and thus the height of the frame is determined by the thermal conductivity of the storage medium and the specified time in which the charging or discharging process should expire. Thus, preferably flat containers are created that are easy to transport and which can be stacked to form large containers at the installation site.

A flat heat exchanger as the wall of such a flat hardener for a latent storage means should be designed so that it is even better suitable for the intended purpose than the previously used panel radiator.

According to the invention, this is indicated in the characterizing part of the claim 1 achieved measure.

The deliberate modification of a panel radiator with the raised outer channels leads to many advantages. Two heat exchangers of this type can be used without interposing a frame placed on top of one another and connected by a single circumferential weld seam will. A component and a weld seam are one part. The surrounding connection area also consists of heat exchange channels, which increases the heat exchange and heat losses decreased.

The manufacture of the heat exchangers is very easy. One agrees by experimenting the desired height of the flat container and adjusts the height of the outer channels this level, while the inner flow channels have the usual dimensions of keep about 2 to 3 cm. In the Rerel, the outer channels are this measure by the Exceed 2 to 3 times. If a panel radiator with collecting and connecting ducts is used, form the collecting channels and the two connecting channels located on the edge the outer ducts, which are to be brought to the desired height. With a preferred Manufacture of the heat exchanger from plastic by the blow molding process can be available Blow molds can be easily reshaped. The manufacture of the special element is possible without difficulty.

In addition to the advantages of the heat exchanger according to the invention already mentioned there are special advantages when creating a large container. So far have been Flat containers stacked on top of each other. Two heat exchangers were placed on top of each other, so that only one side of the heat exchanger could serve for heat exchange. now Multiple tanks can be manufactured by placing several heat exchangers on top of each other in the factory and welded. The upper limit is the weight of the multiple container and the resulting portability. In contrast to the well-known stackable container Both serve in the multiple container according to the invention Heat exchange surfaces the heat exchanger the heat transfer.

The accompanying drawing shows an embodiment of the invention represent.

It shows: FIG. 1: A cross section through a heat exchanger FIG. 2: The top view of the heat exchanger according to FIG. 1. FIG. 3: An enlarged Cross section through three assembled heat exchangers The heat exchanger 1 has Collective channels 2 and connecting channels 3 ', 5. The collecting channels 2 and the two on Edge-lying connecting channels) t form the outer channels, which are the height of the inner Projecting connection channels 31t. The cross-section of the channels can be any Own shape. Recommended for production from plastic using the blow molding process a round cross-section. The outer channels could also be used instead of those shown oval shape be designed round.

Several heat exchangers of the type shown are on top of one another set and welded along the support surfaces 4 to form a multi-layer container. The interiors are filled with the storage mass through filler necks (not shown) filled.

Connection piece 5 are used to connect the flow channels with the System.

Claims (4)

Claims 1. Planar heat exchanger with flow channels for a heat transfer medium as a wall of a heat storage tank, characterized by am Outer channels running around the edge and projecting the height of the inner flow channels (3 '') (2, 3 '). 2. Planar heat exchanger according to Claim 1, which is denoted by that the flow channels are designed as collecting channels (2) and connecting channels (3 ', 3 ") are and dal3 the collecting channels (2) and the two connecting channels located on the edge () ') form the outer channels (2, 3'). 3. Planar heat exchanger according to claims 1 and 2, characterized in that that it is used as a plate heater made of plastic after blowing is trained. 4. Heat storage tank from e flat heat exchangers according to the claims 1 to 3, characterized in that at least two heat exchangers (1) one above the other arranged and dicnt in the plane (4) of the superposed outer channels (2, 3 ') are connected to each other.