NO155712B - DISTRIBUTOR MEDIA DISTRIBUTOR SYSTEM. - Google Patents

Description

The present invention relates to a distribution system for flowing media with a back and forth flow in heat exchangers or similar devices.

Distributor system that includes separate forward and reverse flow is e.g. known from heating technology. If heat media is to be led through such distributor systems, the temperature of the forward and reverse flow differs significantly.

It has therefore been suggested e.g. in connection with heat exchangers to combine the flow and return line into a double line. Such a line, which was also insulated, is described in West German Gebrauchsmuster No. 7004901. Such a double line comprises both a forward flow line and a return flow line and thus prevents heat loss. First in front of the heat exchanger itself, e.g. a heating element, the double line is split and connected to the heating element on both sides.

A similar approach is taken when it comes to chemical devices that are to be tempered.

When it comes to underfloor heating, e.g. when using plate-shaped heat exchangers, which offer special advantages compared to those that contain hoses or tubes placed in similar lines, in such a way that on one side of the plate-shaped heat exchanger, a forward flow is arranged which is connected to the heat exchanger, and that a return flow is arranged on the other side of the plate-shaped heat exchanger. In this way, all flows are arranged parallel to each other.

If the heat exchanger or the like within a heating circuit are arranged in whole or in part one after the other, such forward and reverse flow devices will not be suitable.

It is thus a task for the invention to provide a tempering system or the like which uses a main stem, and which allows some or all of the heat exchangers in the system to be connected in series, and whereby forward flow and return flow lie on the same axis.

According to the invention, this is achieved by combining forward and reverse flow, and that the single-walled heat exchanger elements in the forward flow and/or return flow line are connected to these so that at least one partition wall in the heat exchanger element projects so far into the forward flow and/or return flow line that the temperature medium flows on one side of this partition in one direction and on the other side of the partition in the other direction in countercurrent.

Preferably, forward and backward flow takes place in a pipe, which is bent 180° at one end and thus runs back.

According to another aspect, it is advantageous that the forward flow and return line consist of a double pipe.

According to a further aspect, it is advantageous that the forward flow and return flow line consist of a pipe with a dividing wall.

According to one embodiment, the connection of the heat exchanger elements to the flow and/or return line is made via connection pieces which are provided with a partition wall in the flow direction and a partition wall in the forward flow direction of the heat exchanger element.

Preferably, the connecting piece opposite the partition wall of the heat exchanger element has a partition wall in the direction of forward flow, and which is connected to the partition wall of the heat exchanger element. Furthermore, it is advantageous that the heat exchanger element is connected to the forward flow and/or return flow line by means of butt welding. It is further advantageous for the connecting piece to have a circumferential and inwardly directed surface for stiffening the inserted heat exchanger element.

The distributor system proposed according to the invention has the advantage that, on the one hand, it is particularly space-saving and that, on the other hand, it can be used for floor heating and otherwise room heating in the baseboard area, whereby the system is easily accessible. The system also has the advantage that the heat exchanger elements can be connected one after the other, and that the forward and reverse flow takes place in the same axis through parallel running pipes where the direction of flow can be reversed if desired.

In the following, the invention will be explained in more detail with help

of an embodiment and figures, where:

Fig. 1 shows a schematic sketch of a distributor; Fig. 2 shows forward flow and return flow device in a heat exchanger according to known technique; Fig. 3 shows a device according to the present invention; Fig. 4 shows a connecting piece in longitudinal section; Fig. 5 shows a cross-section of Fig. 4;

Fig. 6 shows an embodiment in section; and

Fig. 7 shows a cross-section of figure 6.

As can be seen from fig. 1, connecting pieces 1 are arranged, which are connected to a flow and return line 2, at the end of which or in the last part of the connecting piece there is arranged a turning element 3 for the tempering medium. The connecting piece 1 has a partition wall 1a, which in the direction of flow corresponds to the partition wall 2a of the forward flow and return flow line 2, and which thereby separates the forward flow and the return flow. From the dividing wall la in the direction of flow, a continuation runs vertically thereto in the direction of forward flow to the heat exchanger element 4ab. This partition wall 1b in the direction of forward flow corresponds to the partition wall 4b of the heat exchanger element 4, which reverses the flow in this element. In this element, further dividing walls 4a are optionally arranged which, in the event that the heat exchanger element is designed as a plate, divides it into several channels. The connecting piece 1 has a somewhat enlarged diameter at the end for pushing in the flow and return pipe 2. The connection is preferably made by means of butt welding, which also applies to the connection of the heat exchanger element 4 with the connecting piece 1.

In order to clarify the invention, Figure 2, on the other hand, shows the state of the art, and from which it appears that a forward flow 5 and a return flow 6 are connected to the heat exchanger 7, and then to each of the opposite sides.

Figure 3 shows the principle of the invention, namely the double pipe

2 for forward flow and reverse flow as well as a series of connected heat exchanger elements 4 with partitions 4a for reversing the flow.

The connecting piece 1 is in fig. 4 produced on an enlarged scale, and from which partitions la and lb are clearly visible. The flanks ld on the upper side of the connecting piece 1 serve to better guide and stiffen the inserted heat exchanger element 4, as this is particularly apparent from figure 5.

Figure 6 shows an embodiment of the invention where, instead of the combined forward and reverse flow pipe 2 and the connecting piece, a pipe 8 with the two bent at the end at 180° is arranged. the forward flow and return flow parts 8a respectively. 8b. The heat exchanger element 9 is here arranged in the forward flow part 8b of the pipe 8, whereby the reversal of the flow is carried out by means of the partition wall 9b, which reaches up to the inner wall of the pipe 8 lying just above.

Figure 7 shows a section through figure 6, with the help of which the partition wall 9b in the forward flow part 8b of the pipe 8 can be seen.

The invention is of course not limited to such an area of application as is described here, but the invention can be used everywhere where heat exchangers are connected one after the other or the like, and where these are flowed through by a tempering medium or the like.

Claims (8)

1. Distribution system for flowing media with a forward flow and return flow in heat exchangers etc., characterized in that the forward flow and return flow line are combined, and the individual heat exchanger elements (4, 9) in the forward flow and/or return flow line (2) are connected to these so that at least one partition wall (4b, 9b) in the heat exchanger element (4) projects so far into the forward flow and/or return flow line (2) that the temperature medium flows on one side of this partition wall in one direction and on the other side of the partition in the other direction in the opposite direction. 2. Distributor system according to claim 1, characterized in that forward flow and return flow occur in a pipe (8) which is bent 180° at the end, so that the pipe runs back in this way. 3. Distributor system according to claims 1 and 2, characterized in that the forward flow and return flow line consists of a double pipe (8a, 8b). 4. Distributor system according to claims 1-3, characterized in that the forward flow and return flow line consists of a pipe (2) with a dividing wall (2a). 5. Distributor system according to one of the claims 1-4, characterized in that the connection of heat exchanger elements (4) to the forward flow and/or return flow line (2) is made via connection pieces (1), which are provided with a partition wall (la) in the direction of flow and a dividing wall (lb) in the forward direction of heat exchanger elements (4). 6. Distributor system according to one of claims 1-6, characterized in that the connecting pieces (1) opposite the partition wall (4b) of the heat exchanger element (4, 9) have a partition wall (lb) in the direction of forward flow, which is connected to the partition wall (4b) of the heat exchanger element (4a ). 7. Distributor system according to one of claims 1-6, characterized in that the heat exchanger elements (4) are connected to the forward flow and/or return flow line (2) by means of butt welding. 8. Distributor system according to one of the claims 1-7, characterized in that the connecting pieces (1) have an all-round and inwardly directed surface (ld) for stiffening the inserted heat exchanger element (4).