DE102010007249A1 - Heat exchanger, particularly condenser, is provided with double helix-shaped wall that is introduced in cylinder of two separate helical tubes - Google Patents

Abstract

The heat exchanger is provided with a double helix-shaped wall (A) that is introduced in a cylinder (B) of two separate helical tubes (C,D). The warmer mediums are conducted in latter tube and the colder mediums are conducted in the former tube. The difference in temperature between the mediums is almost reversed. The heat exchanger contains aluminum alloy or plastic.

Description

It is known to arrange tubes spirally to compensate for the temperature difference between two media ( DE 691 24 391 T2 ).

The ideal case of a heat exchange process is that at the end medium 1 has inlet temperature of medium 2, and vice versa.

The aim of the invention specified in claim 1 is an efficient heat exchange at low production costs.

The invention maximizes the surface area between the media while minimizing the distance between media.

The invention will be exemplified in the drawing 1 shown.

A

die doppelhelixförmige Trennwand, welche zur besseren Darstellung auf der einen Seite schwarz und auf der anderen grau gezeichnet ist,

B

den die Einheit bildenden Zylinder,

C, D

die beiden Röhren in denen die beiden Medien aneinander vorbeigeleitet werden,

E

den Auffangbehälter für anfallendes Kondensat,

S1–S3

die Schnittebenen und

α

den Winkel in der Wand (A).

Here denotes:

A

the double-helical partition, which is black on one side and gray on the other, for better illustration

B

the cylinder forming the unit,

C, D

the two tubes in which the two media are led past each other,

e

the collecting container for accumulating condensate,

S1-S3

the cutting planes and

α

the angle in the wall (A).

The heat exchanger according to claim 1 is particularly suitable when media with the same heat transfer coefficient are used. Closer or further spiraling of the partition wall (A) allows the ratio between the flow area and the exchange surface to be varied and optimized for a specific exchanger volume.

The embodiment according to claim 2, shown in section (S3) in FIG 2 , is particularly suitable for media with different heat transfer coefficients.

The explained in claim 3 manufacturing the heat exchanger unit from only one piece ensures that this can be operated even under high pressure.

When manufactured from plastic, the unit can be manufactured so inexpensively that instead of a cleaning an exchange can take place.

In claim 4, the unit can be opened, whereby the possibility of cleaning is simplified. This can be advantageous in the case of air or exhaust gas usage.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 69124391 T2 [0001]

Claims (4)

Heat exchanger, also capacitor, characterized in that by introducing a double helical wall (A) within a cylinder (B), two separate spiral tubes (C and D) are formed. Through the one tube (D), the warmer medium, passed through the second (C), the colder medium. As the media flows through the exchanger unit, the temperature difference between the media almost reverses. When using mixed gaseous media, part of the admixture condenses in the cooled medium and is collected in the container (E). Heat exchanger, also capacitor, according to claim 1, characterized in that the double helical wall (A) has an angle (α), whereby the tubes (C and D) have different flow cross-sections. Heat exchanger according to claim 1 to 2, characterized in that the heat exchanger is made in one piece, for example in the continuous casting of an aluminum alloy or with an extruder made of plastic. Heat exchanger according to claim 1, characterized in that the double helix-shaped inner wall is introduced into an openable cylinder such that by introducing a seal a tight separation of the two tubes is ensured.

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