DE2410670A1 - Cooling or heating assembly parallel heat-exchanger tubes - spirally wound with individual tube coils at intervals - Google Patents

Abstract

The heat exchanger, which may be used as cooler in a compressor plant or in a motor vehicle, or as air and water preheater in a steam boiler plant, incorporates a number of parallel spaced heat exchanger tubes opening out into a common distributor or collector tube. Each of these is spirally wound, the helical coils of individual tubes being set at an interval from each other. They may have heat-exchanger fins on their outside surface, and may be detachably interconnected over their length, preferably by means of screw bolt assemblies with holder battery vertical to the spiral axis.

Description

Heat exchanger The invention relates to a heat exchanger with several, in particular parallel to one another, arranged at a distance from one another Heat exchange tubes, which at their ends are each in a common distributor or the collecting pipe open.

Such heat exchangers are widely used, for example as cooling units in compressor systems, as coolers in automobiles, as air and Feed water preheaters in steam boiler systems and the like. It flows in the Usually the medium to be cooled or heated in vertical pipes and mostly Gaseous cooling and heating media are routed in a horizontal direction. This heat exchanger arrangement is known as a so-called circular flow heat exchanger designated. The advantage of these designs, where the heat exchanger rchre often as finned tubes are trained, is based, among other things, on that the heat transfer with cross flow is essential because of the resulting turbulence is better than with parallel guidance. Very often cross-streams also enable cheaper ones spatial arrangements than other designs.

In the known heat exchangers of the type described above the heat exchanger tubes are usually considered between the manifold and the Straight tubes with a circular or elliptical cross-section arranged in a collecting tube trained, If one has also tried to exchange heat by using finned tubes To improve this known apparatus, it is easy to see that due to the length of the heat exchange tubes limited by the distance between the distributor and collector tube a certain heat exchange value cannot be exceeded. You still want to To achieve a greater heat exchange, it is necessary to increase the distance from Distribution and collecting pipe or their length and thus the number of heat exchange pipes to enlarge. Not to mention that this is a considerable additional Material, manufacturing and assembly costs are such an enlargement of the heat exchanger in many cases, for example in the case of motor vehicle radiators, not possible anymore.

The present invention is based on the object of a simple and effective heat exchangers with several, in particular parallel to one another, with Distance from each other arranged heat exchange tubes, which at their ends in in each case a common manifold or collecting pipe open to create which does not have the disadvantages of the known heat exchangers.

This. The object is achieved according to the invention in that the heat exchange pipes In each case spiral-shaped are healthy, whereby the spiral windings of the individual heat exchange tubes are arranged at a distance from each other. The rocking axis advantageously runs here of the spiral turns at least almost in the direction of the connecting straight line of distributor and manifold. In a particularly preferred embodiment, the heat exchange tubes are at least on their outer surface, with heat exchange fins or the like Mistake.

The invention enables with simple means, namely mainly by winding the heat exchange tubes, a surprisingly large enlargement of the Heat exchange without increasing the outer circumferential dimensions of the heat exchanger is necessary. As a result of the spiral turns, the length becomes one from the distributor to the collecting pipe, the heat exchange pipe opposite the direct one Removal of this enlarged many times. It is easy to see that as a result this enlargement of the pipe length and thus the heat exchange available standing pipe surface a significant increase in the heat exchange the previous heat exchangers is made possible. In doing so, the spiral windings generate an additional turbulence which increases the heat exchange. Assign the heat exchange tubes in addition, there are heat exchange fins, so the enlargement is achieved by the latter the heat exchange surface as well as the turbulence in terms of optimizing the heat exchange enlarged even further. Finally, in a heat exchanger according to the invention requires a smaller number of heat exchange tubes compared to the known ones, which reduces the cost of installing the heat exchange pipes on the manifold and the manifold reduced. The manufacture of the heat exchanger according to the invention is simple, since it is the usual pipe winding, after which the wound Solder or screw the pipes into the manifold and collecting pipe in the usual way permit. As a result of the compact and symmetrical design achieved by winding the heat exchange tube is a heat exchanger according to the invention in particular Can also be used as a high-pressure cooler for compressor systems.

The heat exchange tubes advantageously open at their ends in each case perpendicular to the straight line connecting the manifold and collecting pipe into this a. With this arrangement, it is not necessary to use the coiled heat exchange tubes for connection to the distributor or. Bend the collecting pipe again. You just need the end of the pipe run out tangentially after the last turn of the ball and at one extreme end at the distributor or

To attach Sanmel pipe.

A particularly compact design of the heat exchanger according to the invention results when the heat exchange tubes over their length, preferably detachable, Are connected to each other. It is useful to connect the heat exchange tubes between the sen at a distance from one another perpendicular to the winding axis of the spiral turns arranged screw bolt arrangements provided with retaining strips. To this This results in a compact heat exchanger package, which is largely vibration-isolated so that noticeable vibration noises and other adverse effects of mechanical vibrations, especially mechanical alternating stresses on the material, be avoided.

The invention is illustrated schematically below with reference to one in the drawing illustrated embodiment explained in more detail. They show: FIG. 1 a perspective Representation of a heat exchanger according to the invention and FIG. 2 a view A in the direction of the winding axis on the heat exchange tubes of the device according to FIG Figure 1.

The heat exchanger shown in the drawing is used for example as a high pressure cooler for a compressor system. He can in one in the drawing housing not shown be arranged.

In detail, the heat exchanger according to the invention has one distributor pipe each 1 and manifold 2. The medium to be cooled, for example highly compressed Air enters the inlet connection 3 of the distributor pipe 1 in the direction of the arrow and passes through it subsequently designed according to the invention heat exchange tubes 4 and then flows into the collecting pipe 2, from which it is cut through an outlet 5 as through the arrow indicated is removed from the heat exchanger. During his As the medium passes through the heat exchange tubes 4, it passes through between them according to the double arrow flowing through the cooling medium is cooled.

The heat exchange tubes 4 are each spirally wound where at the spiral turns of the individual heat exchange tubes at a distance a from one another are arranged. The distance a the Spiral turns allows a complete flushing of this through the cooling medium. The winding axis of the spiral turns runs in the direction of the straight line connecting distributor pipe 1 and collecting pipe 2.

The helical heat exchange tubes 4 adjacent to each other are a at a distance b from each other.

To improve the heat exchange, the heat exchange tubes 4 tauachrippon 6 on its outer surface tlärneaus. The clarity For the sake of this, the heat exchange fins 6 are only in the case of a heat exchange tube 4 indicated. In the same sense, there are only three in the drawing for the sake of simplicity heat exchange according to the invention @@@ shown. It goes without saying that the space between this is also provided with air exchange tubes.

The ends of the heat exchange tubes 4 each run out of the spiral tangentially and open perpendicular to the straight line connecting the manifold i and Collector tube 2 in this one. This results in a simple design of the heat exchange tubes 4 as well as a simple installation due to the easy accessibility this on the distributor pipe 1 and the collecting pipe 2. The heat exchange pipes 4 are soldered or screwed into the manifold 1 and the manifold 2.

The t1Tärlieaustauschrohre 4 can be detached from one another over their length connected, which is only shown in Figure 2 for the sake of clarity is. To connect the heat exchange tubes are between them at a distance from each other screw bolt arrangements arranged perpendicular to the winding axis of the spiral windings 7 provided with retaining strips 8. To increase the rigidity of the thus obtained Heat exchanger package, the retaining strips 8 are designed as continuous strips, wherein a bar each Sahraubbolzen arrangements 7 between two adjacent spiral heat exchange tubes 4 receives.

In a built heat exchanger of the type described, the distance between the distributor pipe 1 and the collecting pipe 2 was 600 mm. The diameter of the heat exchange pipes 4 was 15 mm on the outside and 13 mm on the inside. The diameter of the spiral turns of the heat exchange tube 4 was 110 mm. This resulted in a stretched length of a Heat exchange pipe 4 of 6 m.

It should be pointed out that the protection area the invention is not limited to the illustrated embodiment which the winding axes of the spiral heat exchange tubes essentially lie in one plane.

The invention basically also includes heat exchanges @ at which the spiral exchange tubes in several, for example two, rows are arranged, with the heat exchangers cbrohre a row expediently opposite those of the adjacent row are offset.

Claims (6)

Expectations 1. Heat exchangers with several, in particular parallel to one another, spaced heat exchange tubes attached to their ends open into a common distributor or collecting pipe, characterized in that that the Wärmeaustausc @ tubes (4) are each wound in a spiral shape, the spiral Windings of the individual heat exchange tubes (4) are arranged at a distance (a) from one another are. 2. Wärmeaustausaer according to claim 1, characterized in that the dadurcil Winding axes of the spiral turns at least almost in the direction of the straight connecting line runs from the distributor (1) and manifold (2). 3. Heat exchanger nacfi claim 1 or 2> characterized in that that the heat exchange tubes (4), at least on their outer upper surface, with heat exchange fins (6) or the like are provided. 4. Heat exchanger according to one of claims 1 to 3, characterized 6 - e characterizes, that the ends of the heat exchange tubes (4) are perpendicular to the straight connecting line from the distributor pipe (1) and collector pipe (2) open into these. 5. Heat exchanger according to one of claims 1 to 4, characterized in that that the heat exchange tubes (4) over their length, preferably detachably, with one another are connected. 6. Heat exchanger according to claim 5, characterized in that for Connection of the heat exchange tubes (4) between them at a distance from one another perpendicularly to the winding axis of the spiral windings arranged screw bolt arrangements (7) with Retaining strips (8) are provided. L e r s e i t e