EP1484570A2 - Heating medium distributor for an air supply device including several heat exchangers - Google Patents

Abstract

The distributor (1) includes a box housing (2) divided by a partition wall (3) into two flow chambers (5, 6). The first flow chamber acts as a prior collection line, and the second one acts as a return collection line. The housing may be divided by two walls (3, 4) into three flow chambers (5, 6, 7). The second and third are combined to form the return collection line.

Description

a) einer Vorlaufsammelleitung für das Heizmedium, von der für jeden Wärmetauscher ein Vorlauf-Anschlußstutzen abzweigt;

b) einer Rücklaufsammelleitung für das Heizmedium, in welche für jeden Wärmetauscher ein Rücklauf-Anschlußstutzen einmündet,
wobei

c) die Vorlauf- und die Rücklauf-Anschlußstutzen so angeordnet sind, daß die Strömungswege des Heizmediums durch den Verteiler für alle Wärmetauscher gleich lang sind.

The invention relates to a heating medium distributor for a multiple heat exchanger comprising supply air system

a) a flow line for the heating medium, from which branches off a flow connection piece for each heat exchanger;

b) a return manifold for the heating medium, in which opens a return port for each heat exchanger,
in which

c) the flow and the return connection pieces are arranged so that the flow paths of the heating medium through the manifold for all heat exchangers are the same length.

In many industrial processes, especially in the painting technique, it is necessary in the Conditioning conditioned air, especially to heat. For this purpose, so-called supply air systems used in which for heating the to be conditioned Air multiple heat exchangers arranged in parallel are. A heating medium distributor passes heated Heating medium, in most cases hot water, the individual heat exchangers and conducts after passage cooled by the heat exchanger heating medium again.

Known heating medium distributors are produced by soldering or welding individual pipe pieces together. This is associated with elaborate manual labor, which requires qualified personnel. In addition, these known heating medium distributor build comparatively large, since all welds must be accessible.
This large design has the consequence that the heating medium distributor normally not installed in the housing of the supply air system but must be applied to this or this. For this reason, they must be provided with a complex heat insulation.

The object of the present invention is to provide a heating medium distributor of the type mentioned above, which is cheaper to manufacture and requires less space.

d) der Heizmedium-Verteiler ein kastenartiges Gehäuse aufweist, das durch eine Trennwand in eine erste Strömungskammer, die als Vorlaufsammelleitung dient, und eine zweite Strömungskammer, die als Rücklaufsammelleitung dient, unterteilt ist.

This object is achieved in that

d) the heating medium distributor comprises a box-like housing, which is divided by a partition in a first flow chamber, which serves as a feed manifold, and a second flow chamber, which serves as a return manifold.

According to the invention thus the heating medium distributor itself no longer composed of pipe sections, but in the essentially formed by a box-like housing, this - far from the supply air system to which it is mounted should be - with largely automated procedures can be produced. This way will be at lower Costs the quality of the joints elevated. The box-like housing can be at the same large or even larger flow paths on smaller Accommodate space as the conventional heating medium distributor. For larger flow cross sections sink Flow velocity and flow resistance, what leads to lower operating costs. The inventive Heating medium distributor can be factory installed in the housing Zuluftanlage criticized, tested there and then together transported to the end customer with the supply air system, which reduces installation time at the end customer becomes.

Particularly preferred is an embodiment of the invention, in which the housing by two partitions is divided into three flow chambers, of which the first serves as a flow collector and the second and the third in an end area communicate with each other and together serve as a return collective. The heating medium returning from the heat exchangers So first goes through the distributor in one direction, then makes a turn by 180 ° and flows in opposite directions back again. In this way, the Connections via which the heating medium distributor the fed hot medium and cooled from this Heating medium is discharged, in the same end of the Housing be provided.

It is useful if the housing of commercially available Semi-finished product is composed. As such semi-finished product come flat plates or sheets, curved sheets or the like in question, the best still tailored and then need to be connected together. Also This reduces the costs associated with the production of the product heating medium distributor according to the invention are connected, considerably.

The housing may in particular be welded together from steel parts be.

In an advantageous embodiment of the invention are all supply connection supports and all return connection sockets at the same approximately parallel to the partition extending side of the housing, wherein the Supply connection piece or the return connection piece the flow chamber adjacent the side of the housing in question push through. This heating medium distributor leaves So for example, above the different Arrange the heat exchanger in the housing of the supply air system and directly to the connections of the individual heat exchangers connect via its connecting piece.

Alternatively, it is possible that the flow connection piece and the return port on an approximately vertical arranged to the partition wall extending side of the housing, are slightly offset against each other and so directly open into the corresponding flow chambers. At this Embodiment become penetrations of connecting pieces dispensable through a flow chamber, which is true Under certain circumstances, a slightly more expensive wiring outside the distributor.

The requirements for the accuracy of the welds in the manufacture of the heating medium distributor itself as well as in the manufacture and assembly of the heat exchangers can be lowered when the flow connection piece and / or the return connection piece of the Heating medium distributor each a flexible connector, e.g. a piece of tubing. In this way can position deviations of the connecting piece of the Heating medium distributor opposite the terminals of Heat exchangers are easily compensated.

As mentioned above, it is due to the small Construction of the heating medium distributor according to the invention In many cases possible, the heating medium distributor accommodate within the housing of the supply air system. In this case, requires the housing of the heating medium distributor even no thermal insulation anymore, which again brings a significant cost advantage brings.

Figur 1

in isometrischer Darstellung einen Heizmedium-Verteiler für eine Zuluftanlage;

Figur 2

einen Längsschnitt durch den Heizmedium-Verteiler von Figur 1;

Figur 3

einen Schnitt gemäß Linie III-III von Figur 2;

Figur 4

einen Schnitt gemäß Linie IV-IV von Figur 2.

An embodiment of the invention will be explained in more detail with reference to the drawing; show it

FIG. 1

in isometric view a heating medium distributor for a supply air system;

FIG. 2

a longitudinal section through the heating medium distributor of Figure 1;

FIG. 3

a section along line III-III of Figure 2;

FIG. 4

a section along line IV-IV of Figure 2.

The one shown in the drawing and a total of the reference numeral 1 provided heating medium distributor is used to, heating medium, such as hot water, a Supply a plurality of heat exchangers. This in the Drawing not shown heat exchanger in a fresh air system, as they are, for example found in paint shops and there the supply air for the spray booth conditioned, in particular heated.

The heating medium distributor 1 has a box-shaped Housing 2, which consists essentially of commercial Sheet metal semi-finished products is made. This housing 2 comprises a rectangular, flat top 2a, a corresponding designed rectangular, flat bottom 2b, two semicircular curved side walls in cross-section 2c and 2d and two correspondingly shaped end walls 2e and 2f, as rectangles with on the narrow sides attached semi-circular surface sections can be understood.

The housing 2 is characterized by two partitions 3, 4, which are extend perpendicular to the housing top and bottom 2b and are closely connected with these, in a total of three Flow chambers 5, 6, 7 divided.

As shown in particular in FIG. 2, the first begins Partition wall 3 on the left in Figure 2 end wall 2e, and Although on a line through which the long dimension of End wall 2e is divided in the ratio 1: 2. This first Partition 3 extends over a relatively short Distance parallel to the side walls 2c and 2d of the housing 2 and then by a wall piece 3a, which is parallel to the front wall 2e runs, about one-third of the width of the housing 2, seen in the direction of the longitudinal extent the end wall 2e, offset in parallel. To the partition wall section 3b is thus another partition wall section 3c scheduled, which now again parallel to the Side walls 2c and 2d runs and until in FIG led right wall 2f of the housing 2 and there is welded with this.

Between the lower side wall 2b and in FIG first partition 3 becomes in this way a first flow chamber 5 formed. This one is in the left one End wall 2e adjacent region 5a opposite to the rest Area 5b slightly widened.

The second partition 4 is at a certain distance from the partition wall portion 3b parallel to this the partition wall 3 with a portion 4a attached, the turn, by about one third of the longitudinal dimension of End walls 2e and 2f in the direction of the upper in Figure 2 Sidewall 2c extends. To this section 4a sets then a parallel to the side walls 2c and 2d extending partition section 4b, which in a certain distance from the right in Figure 2 side wall 2f ends.

The between the first partition 3 and in FIG Upper side wall 2c lying interior of the housing. 2 is thus through the second partition 4 in two flow chambers 6, 7 divided, the at the right in Figure 2 end of the housing 2 communicate with each other. The in Figure 2 upper side wall 2c adjacent third flow chamber 7 is in one between the section 3b of the first Partition wall 3 and the portion 4a of the second partition 4b lying area 7a widened.

In the widened area 5a of the first flow chamber 5 opens from above, so the top of the housing 2a enforcing, approximately in the middle of the transverse dimension the housing top 2a a Zuflußstutzen 8, via the hot medium in the first flow chamber 5 of the distributor 1 can be introduced. In the widened portion 7a of the third flow chamber 7 opens in a similar manner from above, the housing top 2a piercing, a return connection 9, about the medium, which the distributor 1 and the heat exchangers has flowed through, can be dissipated.

At the lower side wall 2d of FIG Housing 2 are at regular intervals flow connection 10 attached, which in the first flow chamber 5 open. Opposite this flow connection 10 offset in the longitudinal direction of the housing 2 are, also at regular, identical intervals on the lower side wall 2d in Figure 2 return port 11 provided, which the first flow chamber 5 enforce and in the second flow chamber 6 open. Each of these connecting pieces 10, 11 comprises outside the housing 2 serving as a connector flexible hose piece 10a or 11a and a connecting flange 10b and 11b, respectively.

All parts of the distributor 1 are preferably made Steel and are in the places where they are together are connected, tightly welded.

Due to its comparatively small dimensions For example, the distributor 1 described above can be incorporated within the Housing of the supply air system in the immediate vicinity of Heat exchangers are mounted. This has the advantage that the distributor 1 different from the previously known, Distributor made up of individual pieces of pipe, which is arranged outside the housing of the supply air system had to be, does not need to be isolated. During assembly of the distributor 1 of the inflow pipe 8 with the house-side flow line of the heating medium, the return connection 9 with the house-side return line the heating medium, the flow connection piece 10 with the corresponding flow connections of the heat exchanger and Finally, the return port 11 with the return ports connected to the individual heat exchanger. Due to the flexible hose pieces 10a, 11a can while certain dimensional deviations in the position of Connections of the heat exchangers are compensated, so that insofar as no high welding accuracy can be maintained got to.

During operation of the supply air system, hot heating medium flows via the inflow 8 at the top 2a of the distributor 1 in the first flow chamber 5 a. It will be from there via the flow connection piece 10 in the in FIG. 2 lower side surface 2d to the different heat exchangers led, where its heat partly to the to be heated Gives off air. From each heat exchanger returns the cooled Heating medium via a return connection piece 11a in the Distributor 1 back, flows through there first, the first Flow chamber 6, then turns on the right in Figure 2 End of the housing 2 by 180 °, flows through in opposite directions third flow chamber 7 and finally over the Return connection 9 at the top 2a of the housing 2 to discharged home-side return line.

The arrangement of the supply and return connection piece 10 or 11, via which the individual heat exchangers be supplied, corresponds to the Tichelmann principle. This means that the path of the heating medium through the manifold 1 and the heat exchangers for each individual heat exchanger is the same length, so that all heat exchangers in the same Be supplied with heating medium.

The described distributor 1 can be modular be. This means that he is at least in his middle area consists of identical sections, in each of which the three described flow chambers 5, 6, 7 are formed and the a certain number of connecting pieces 10, 11 have for heat exchangers. The widened areas 5a, 7a of the flow chambers 5, 7, the inflow pipe 8 and the return pipe 9 in the housing top 2a and the connection between the Flow chambers 6 and 7 are in these middle sections of the distributor 1 but not available.

In a Ausfühtungsform not shown in the drawing The invention is the third flow chamber 7 not available. The heating medium is therefore not in the vicinity of that point of the housing 2 is returned, in which the feed takes place. The Zuflußstutzen 8 and the return connection 9 in the top of the housing. 2 can therefore be found at opposite end of the Housing 2.

On the hose pieces 10a, 11a in the inlet connection piece 10 bezw. Return connection 11 may possibly. be waived if at the precision of the welds both of the distributor 1 and during assembly the heat exchanger is paid attention to high precision. Such rigid connection pieces 10, 11 are understood cheaper.

In the embodiment illustrated above with reference to the drawing were all connecting pieces 10, 11 for the heater at the approximately parallel to the partition wall 3 extending Side 2d of the housing 2 is arranged. This does it required that the return port 11, the Penetrate flow chamber 5 to enter the flow chamber 6 to be able to open. These penetrations will be in an embodiment not shown in the drawing avoided, in which the connecting pieces 10, 11 at an approximately perpendicular to the partition side of the housing 2 are arranged, for example, at the Bottom 2b. By a certain lateral reservation the return connection piece 11 with respect to the flow connection piece 10 it is possible that all connecting pieces 10, 11 directly into the correct flow chamber 5, 6 open.

Claims (8)

Heating medium distributor for a multiple heat exchanger comprising supply air system with a) a flow line for the heating medium, from which branches off a flow connection piece for each heat exchanger; b) a return manifold for the heating medium, in which opens a return port for each heat exchanger; in which c) the supply and the return connection ports are arranged so that the flow paths of the heating medium through the distributor for all heat exchangers are the same length,
characterized in that d) it has a box-like housing (2), which is divided by a partition wall (3) into a first flow chamber (5) serving as a feed header and a second flow chamber (6) serving as a return manifold. Heating medium distributor according to claim 1, characterized in that the housing (2) by two partitions (3, 4) in three flow chambers (5, 6, 7) is divided, of which the first (5) serves as a feed manifold and the second (6) and the third (7) in an end region communicate with each other and together serve as a return manifold. Heating medium distributor according to claim 1 or 2, characterized in that the housing (2) is composed of commercially available semifinished product. Heating medium distributor according to one of claims 1 to 3, characterized in that the housing (2) is welded together from steel parts. Heating medium distributor according to one of claims 1 to 4, characterized in that all flow connection pieces (10) and all return connection pieces (11) on the same approximately parallel to the partition wall (3) extending side (2a) of the housing (2) are arranged and that the flow connection piece (10) or the return connection piece (11) through which the question side (2a) of the housing (2) adjacent flow chamber (5). Heating medium distributor according to one of claims 1 to 4, characterized in that all supply and all return connection pieces are arranged on a side of the housing extending approximately perpendicular to the partition wall, laterally offset slightly from one another and thus open directly into the corresponding flow chambers. Heating medium distributor according to one of the preceding claims, characterized in that the flow connection piece (10) and / or the return connection pieces (11) comprise a flexible piece of hose (10a, 11a). Heating medium distributor according to one of the preceding claims, characterized in that the housing (2) has no thermal insulation.

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