DE29908916U1 - Cooling or the like Heat exchanger element - Google Patents

Description

PO Box 1 0 11 6 1 . I·· "«·" V·** <fl> ·· *' Kumpean l'ateni and

D-80085 Munich 4^kJ^ European Trade Mark Attorneys

Maximilianstrasse 6, 60011 Munich and the surrounding area

D-80539 Munich MÜLLER, SCHUPFNER & GAUGER Curved steel cables and arches

Telephone:+49-89-219912 0 ■

Fax: ,49-89-219912 20 PAItNTANWALTh M AX I MARK®

Hoogovens Aluminium 8403. GM-DE HJM/S&zgr;

Cooling or similar heat exchanger element

The invention relates to a cooling or similar heat exchanger element made of a material with good thermal conductivity, with a profiled web part and at least one rib protruding from it.

Such cooling elements are used, for example, in refrigerators to dissipate heat from the interior. For this purpose, as many ribs as possible are used, which are attached to the profiled web part, for example by rivets.

The invention is based on the object of simplifying the production of such cooling elements and improving their function as much as possible.

The invention is characterized in claim 1 and in subclaims further developments and improvements of the invention are claimed. Based on the description of the figures,

...12

MAXIMARK® FORM 001

Particularly preferred embodiments of the invention are explained in more detail below.

According to the invention, the web part and the rib or several ribs consist of a jointly extruded profile; the rib or the ribs are connected to the web part via a connecting web.

The manufacture of the cooling element according to the invention is significantly simplified because it can be manufactured in one and the same extrusion process step without several individual parts having to be manufactured separately and then connected to one another. Aluminum or an aluminum alloy is particularly preferred because of its good extrusion properties and good thermal conductivity. The omission of connection techniques such as riveting, screwing, gluing or the like also means that the heat from the ribs can be better dissipated to the web part and from there to the cooling unit without connection points with lower thermal conductivity. The invention is particularly well suited for cooling by free convection in refrigerators.

The rib is preferably located in a plane parallel to the main part of the web part.

According to a further embodiment of the invention, the connecting web between the rib/ribs and the web part is arranged at an angle of inclination α to the normal to the rib/ribs and the main part of the web part. In other words: If the rib/ribs and the main part are arranged vertically, the angle of inclination α corresponds to the angle to the

MÜUER, SCHUPFNER & GAUOER

horizontal plane. The angle of inclination should be at least 40°, preferably between 42° and 50°. The moisture condensing on the cooling fin is then guided along the inclined connecting bar to its lower edge, where it drips off into a liquid collecting channel, for example.

It is recommended to design the connecting web with openings, particularly in the form of holes with a circular or oval cross-section, so that condensed liquid collecting in the space between the main part of the web part and the rib can flow through these openings and drip off the outside of the lower edge of the cooling element. Air can also flow through the openings, which is beneficial when used in refrigerators where cooling is achieved by free convection.

It is recommended that the connecting web be made thicker than the other parts of the extruded profile. The thickness of the connecting part should be at least 1.5 times, preferably more than twice the thickness of the main part of the web part and/or the thickness of the ribs.

The use of the cooling element is not limited to cooling purposes; it is also possible to use this element for heating purposes in heat exchangers, since the transfer of heat along the profiled parts is also easily possible.

Preferred embodiments of the invention are shown schematically in the drawing.

Figure 1 shows a partial cross section through an inventive

MÜLLER, SCIIUPFNER 4 SUCTION

cooling element and

Figures 2, 3 and 4 Cross sections through alternative cooling elements.

According to Figure 1, the web part 1 consists of a substantially horizontally extending flat upper part, from which the main part 1b extends downwards with the length L1 to a connecting part 2, while a shorter secondary part la extends downwards by the length L2 from the horizontal part between the main part 1b and the secondary part la. The transition between these two parts is expediently rounded with a radius R.

At a distance A from the main part Ib, the rib 3 is arranged in a parallel manner in an offset, here also vertical plane, which is connected to the web part 1 via the connecting web 2. All three of these parts are profiled from the same material in a common extrusion process. The thicknesses Dl of the secondary part la and the main part Ib as well as the thickness D3 of the rib 3 are significantly smaller than the thickness D2 of the connecting web 2.

The connecting web 2 is arranged at an angle of inclination α to the normal N (corresponding to the horizontal in Figure 2) and ends with the lower edge 2a, which is designed as a drip edge. Openings 4 in the form of circular holes in cross section are drilled through the connecting web 2 between the main part 1b and the rib 3 in order to drain away condensate collecting in the space between the rib 3 and the web part 1.

MÜLLER, SCHUPFNER S CAUGER

The following dimensions are preferred

Ll: 130 mm L2 : 40 mm Dl: 2 mm D2: 3 mm D3 : 2 mm A: 20 mm R: 10 , 5mm α: 45 O

From the examples in Figures 2, 3 and 4 it can be seen that several ribs, in these cases the two ribs 3, 3a, are connected to the main part Ib of the web part via a connecting web 2 inclined at an angle α. According to Figures 2 and 3, the two ribs 3, 3a can end at the bottom at a common connecting web 2, while the lower end of the rib 3a ends at a connecting web 2c to the other rib 3, which in turn merges at the bottom via a connecting web 2b into the web part 1 at its lower part. In all cases, drip edges 2a are present at the bottom, which protrude downwards from the main part Ib of the web part in a direction facing away from the ribs 3, 3a.

In Figure 2, the main part Ib is extended downwards over the transition to the connecting bridge 2.

MIllUR, SCHUPFNER & GAUGER

Claims (11)

EXPECTATIONS 1. Cooling or similar heat exchanger element made of material with good thermal conductivity, with a profiled web part (1) and at least one rib (3, 3a) protruding from it, characterized in that the at least one rib (3, 3a) is connected to the web part (1) via a connecting web (2) and the web part (1), connecting web (2) and rib (3, 3a) are extruded together. 2. Cooling element according to claim 1, characterized in that the at least one rib (3, 3a) extends in the same plane as the main part Ib of the web part (1) - but offset by a distance A from this. 3. Cooling element according to claim 1 and 2, characterized in that the connecting web (2) is at an inclination angle (α) of at least 40° with respect to the normal to the plane MAXIMARK« FORM of the main part (Ib) of the web part (1) or the rib (3, 3a). 4. Cooling element according to claim 3, characterized in that the angle of inclination (α) is between 42" and 50°. 5. Cooling element according to one of the preceding claims, characterized in that the connecting web (2) has openings. 6. Cooling element according to claim 5, characterized in that the openings (4) are designed as holes with a circular or oval cross-section. 7. Cooling element according to one of the preceding claims, characterized in that the connecting web (2) has a thickness (D2) which is at least 1.5 times the thickness (D3) of the rib (3). 8. Cooling element according to claim 7, characterized in that the thickness (D2) of the connecting web (2) is at least twice the thickness (D3) of the rib (3). 9. Cooling element according to one of the preceding claims, characterized in that the main part (Ib) of the web part (1) has a length (Ll) between 10 and 25 cm and is at a distance (A) from the adjacent rib (3) between 1 and 5 cm MÜLLER. SCHUPFNER 4 GAUCER is arranged. 10. Cooling element according to one of the preceding claims, characterized by the use of aluminium or an aluminium alloy 11. Cooling device, in particular a refrigerator, with a cooling element according to one of the preceding claims. MÜLLER, SCHUPFNER S QAUGER