DE884565C - Radiator with slanted limbs arranged one above the other - Google Patents

Description

I radiator with slanted limbs arranged one above the other The invention relates to radiators with a plurality of flat, one above the other arranged, blind-like around their horizontal longitudinal axes, z. B. by q.5 °, obliquely Provided heating elements whose surface exposed to air is greater than the surface acted upon by the heating medium. Have known radiators of a similar type Heating elements consisting of a horizontal, cylindrical or square tube, are connected to the sheet metal strip by welding. Because of the only, the welds between the air-flushed sheet metal and the pipe that is flushed from the inside with the heating medium good metallic connection and because of the large, air-flushed surface, im These known radiators have a ratio to that flushed by the heating medium low thermal transmittance. This is the one type of known radiator with cylindrical tubes still due to the highly variable flow cross-section for the air is reduced, in the case of the other type with square tubes also by that the surrounding cladding panels are only flushed on one side by the air while reducing the air cross-section over its entire length.

The .der differs from these known radiators Invention in that the horizontally extending with its longitudinal axis, in cross section flat heating medium channels formed by part of the width of air-flushed sheet metal strips have at least a third of the total heating element width and on both sides are connected to known vertical distribution and collecting channels. Since the air-flushed Almost all or a considerable part of the radiator surfaces is flushed with the heating medium Directly opposite walls and the flat heating medium channels for the air. smooth, cross-section only slightly variable passage cross-sections result, the heat transfer values are considerably -'higher -than those mentioned known radiators. The flat He.izmittel'kanäle can be without the Cross-section of the heating element needs to be changed at the ends, with the distribution and connect collecting channels for the heating medium. The limbs can therefore be in any Length of long rods with a uniform cross-section can be cut off.

The drawing shows examples of the subject matter of the invention.

Fig. I shows a vertical section through a radiator with different, slightly different heating elements manufactured from one another; Fig. 2 gives the associated. Side view, Fig. 3 again the plan view; Fig. 4 and 5 show Parts of a vertical section and a plan view with something made differently Heating elements; Figure 6 shows the vertical section through other types of construction the heating elements.

The uppermost heating element in Fig. I consists of a flat sheet metal strip i, with which the edges 3 and 4 of a curved sheet metal strip 2 preferentially - #, or by roller seam welding are tightly connected. The sheet metal strip i is wider than the strip 2, so that of this on both sides of the sheet metal strip i partial strips are available, which are flushed with air on both sides, whereby the width of the heating channel 5 has at least one third of the entire width of the heating element.

The second heating element from the top is different from the top one only in that the sheet metal strip i on the middle, the strip 2 opposite Part also has a curvature, whereby that of the strip: 2 be flatter can than with the uppermost heating element.

With each of the five lower heating elements there are two equal sheet metal strips 6 and 6 ', in which the bulges are on one side, joined together so that the bulges are opposite to each other and the strip parts, surrounded by air on both sides .des = Sheet metal tire 6 on one side, that of sheet metal strip 6 'on the the other side of the heating medium channel 5 is located. The connection to points 3 and 4 -done again by welding, preferably by roller proximity welding.

The ends of the heating elements (on the side) have distribution and collection channels 7 and $ connected, preferably welded, as shown in the side view Fig.2 and from the top view Fig. 3 can be seen. If the heating medium enters the Chamber 7 and is this in a known manner by a partition in approximately half Divided height, the heating medium flows out of the upper part of the chamber 7 from the right to the left into chamber 8 and in the lower part .from chamber 8 into .den lower Part of the chamber 7 and emerges from this through the nozzle i i. The heating medium ducts 5 of the heating elements stand with their entire cross section, including their highest and deepest part, with the distribution and collection channels? and 8 related what -important because of good ventilation and because of good drainage of the cooled heating medium is.

Instead of assembling a heating element from two metal strips, 'can it can also be formed from a sheet metal strip. Examples of this are in the partial figures 4, 5 and 6 shown. In the execution according to Fig. 4 and 5 there is a sheet metal strip 12 provided with four bulges on one side, so that on one side: flat strip 15 remains. Then the sheet metal strip is at the entire length 13 turned over so that the bulges are opposite one another and the sheet metal walls touch at 14 and 16. They become close to each other at 14 along their entire length welded, while 16 spot welded connections are sufficient at individual points, since there is no tight seal between the two heating medium channels 17 and 18 at this point against each other is required.

The flat .Strip 15, the heating surface on both sides as air-flushed works can also be absent. The width of the heating element then only extends from 13 to 14. Instead of two heating medium channels 17 and 17 which are lens-shaped in cross section 18 three of which are trained. There is also only one longitudinal seam 14, which must be tight, while spot welding at the other contact points of the sheet metal walls enough.

Fig. 6 shows an embodiment in which a sheet metal strip ig over the entire length at a distance of less than a quarter of the whole Width away from the edges at 2o -and 21 is turned over in such a way that the edges at 22 and 23 touch the opposite sheet metal wall and welded with her .proof so that two Heizmittel'kanäle 24 and 25 arise, whose front ends with the vertical distribution and collecting channels for the heating medium are welded.

In the heating element below in Fig. 6 are the transition points 2 @ o and 2-1 closer to the edges of the sheet metal strip. ig moved, making the bodies the welds 22 and 23 have a certain distance from each other, so that between Both a B1eehestripe 26 on both sides flushed with air remains.

In Fig. 6, the reversal points are the reverse of the third heating element from above 2o and 21 so far together on the sheet metal strip that they are a little more than a quarter of the width of the sheet metal strip i9 away from the edges of the sheet metal strip are. The points 22 and 23 are therefore superimposed, so that three sheet thicknesses can be connected to each other with just one seam weld, which, however requires a higher welding power than if only two sheet metal thicknesses together are to be connected.

The heating elements of the radiator described can be manufactured in such a way that sheet metal strips are continuously shaped by mouthpieces or rollers, brought together and welded to form an uninterrupted or long heating element strand «-Ground, of which the necessary for the radiators common lengths are cut.

Claims (5)

PATENT APPLICATIONS: i. Radiators with a plurality of flat ones, one above the other arranged, blind-like around their horizontal longitudinal axes, z. B. at a.5 °, obliquely placed heating elements, the surface of which is exposed to the air is larger than the surface acted upon by the heating medium. characterized in that the with their longitudinal axis running horizontally, cross-sectionally flat heating medium channels (5, 17, i3, 2.4 and 25) formed by part of the width of air-flushed sheet metal strips have at least a third of the entire width of the heating element and on both sides are connected to known vertical distribution and collecting channels (7 and g). 2. Radiator according to claim i, characterized in that the heating elements are of such a from two z. B. by roller seam welding, -ten sheet metal strips exist, that a Heizmittelkanal (5) arises, on both sides of which on both sides air-flushed heating surfaces (i) are located (Fig. i). 3. Radiator according to claim i, characterized in that each heating element is formed from a sheet metal strip (12) is, which is turned over at one edge (20) so that the edge of one leg is welded to the other so that one leg (15) ate the other (14) towers above (Fig.q.). . 4. Radiator according to claim r, characterized in that each heating element is formed from a sheet metal strip (i9) which is folded over at both edges (2o, 21), and the sheet metal strip edges (22,23) in .der center of the (half the envelope length are sealed. 5. Method of manufacturing the heating elements of the radiator according to claim i, characterized in that sheet metal strips run continuously formed by mouthpieces or rollers, brought together and formed into a continuous one Heating element strand are welded, of which the individual heating elements in required Length to be cut off. Printed publications: Swiss patent specification No. 173 315.