DE1013408B - Tubular heater - Google Patents

Description

Tubular heating element The invention relates to tubular heating elements, which from upper and lower horizontal manifolds and between them. arranged, vertical connection: rolls with two longitudinal ribs each running in a diametrical plane put together. Radiators of this type have. the disadvantage of being effective The heating surface is small in relation to the size of the radiator because the Distance of the longitudinal ribs from each other equal to or greater than the horizontal Extension of both longitudinal ribs is.

By the invention, a radiator has been created which this. Disadvantage eliminated and, in addition to greater heat output, the advantage lower Has construction depth. According to the invention: that is achieved in that the plane of each longitudinal rib at an acute angle between. 30 and 60 ° to the plane: the vertical pipe axes is inclined and that the distance between two adjacent longitudinal rib tubes is less than the horizontal extent of both ribs of a pipe. As in Further development of the inventive concept is proposed, a part of the finned tubes be arranged in mirror image to each other.

According to another invention feature. but can also be any finned tube be arranged as a mirror image of the preceding and following.

Finally, as is also suggested, on Both manifolds U-shaped hoods are attached, which have a greater depth than have the finned tubes and are provided with air passage openings.

The invention is shown in the drawing with reference to execution examples shown. Beget it.

Fig. 1 to 4 horizontal sections through the vertical tubes of Tubular heaters of various types and FIGS. 5 to 9 details in .der arrangement and in the structure of the radiator according to the invention.

In the drawing, the longitudinal finned tubes of the heating element are shown with a. and the Sarnrne; lrohire @ denoted by b. Between, two horizontally or nearly header pipes running horizontally and spaced one above the other: b can have a larger number of transverse to these and connecting them Longitudinal rib tubes, a. be provided. The longitudinal rib tubes a- can with the manifolds b be firmly connected by welding, soldering or otherwise.

As can be seen in FIGS. 1 to 3 and 9, the adjacent Longitudinal finned tubes a, such a distance. from each other, which is less than the: horizontal expansion of both ribs of a longitudinal finned tube a. is. The longitudinal ribs, right a are arranged in such a way that their ribs are below an angle between 30 and 60 ° are inclined at an acute angle to the plane of the vertical finned tube axes.

According to Figure 1, the longitudinal ribs of all longitudinal finned tubes a are parallel directed towards each other, while according to Fig. 2, one half of the ribs to the other Half is arranged in mirror image.

In Fig. 3 of the drawing, a radiator is shown in which the ribs of each longitudinal rib tube a to the ribs. of the previous and the subsequent longitudinal finned tube a. are provided in mirror image. The mirror image Arrangement of the longitudinal finned tubes according to Figure 3 has the advantage that a greater protection against injuries to the edges of the ribs.

Fig. 4 shows a radiator, as it is, for example, on riding curves provided walls can be reamed.

Norma, lerw @ ei: s-e, the heating pipes will have a round cross-sectional shape give. In some cases, however, it is advantageous to use another, for example oval, well-known cross-sectional shapes should be selected. This guarantees that that the required rib positions are precisely adhered to, as those in the headers for the heating tubes provided, the cross-sectional shape of the tubes corresponding holes exclude an arbitrary rib position.

Even. the headers can have the normal round cross-sectional shape be walked off, and above all n fit consideration for a pleasing appearance. A z. B. rectangular, known per se OOuschnittsform the manifolds has the Another advantage is that the holes for the heating pipes can be drilled or punched better and cladding sheets or other attachments lighter than with round collective rotors attach permit. The header pipes can be on the side where the longitudinal finned pipes are attached, according to known models up to about the diameter of the heating pipes be tapered so that the air at the lower manifold can better reach the finned tubes approach and can more easily flow off at the upper manifold. In Fig.5 is a such a tapered manifold b shown.

To protect the longitudinal ribs, which in general at an inclined arrangement. have a greater depth than the header pipes and therefore especially during transport spawns can be damaged, the collecting tubes can move along their entire length Fig. 6 be covered by U-shaped hoods d, the recesses in the central part. for the. Have air passage. Leave when using rectangular manifolds these hoods can easily be attached to the outer surfaces of the manifolds. at round or otherwise curved sleeve tubes: preferably on several Place the header webs e arranged for storage and fastening of the hoods.

In view of the possibility of economical mass production can the radiator is divided into machine-compatible, manageable individual parts in a known manner be e.g. B. from about two to five longitudinal finned tubes together with the associated manifolds with a total width of about 200 to 300 mm. These items will be more uniform Width, only with regard to the number and inclination of the finned tubes and with reference on the Rippemrohrlängei staggered in such a way that the headers preferably have a center-to-center distance of 300, 500, 600 and 1000 mm, like the standards for: r prescribe the secondary spacing of the radiators.

The individual parts can be welded or screwed together, in this case the headers are left-hand thread on one string, and on the one the other side have right-hand thread and both parts, as is known, by means of sleeves be connected with right-hand and left-hand thread. Fig @ 7 shows one assembled in this way Radiator in front view. The connecting sleeve is on the lower header pipes f, while si: ei is omitted from the upper headers.

It is easily possible to have more than one! Individual parts according to known Models to be arranged one above the other or one behind the other, especially if they have hoods according to the design specified above. Then the U-shaped hoods butt each one Part to each other; they form the distance and can be screwed together, r .. The header pipes can be arranged in a known manner, depending on the desired connection in series or one above the other be connected by special cables. 8 shows the vertical section Connection point of two individual parts of a tubular heater arranged one above the other according to the invention.

Several, individual parts or groups of individual parts can also be arranged at an angle to one another. Fing. 9 shows a radiator of such type, whose individual parts moving within an angle of 90 ° with respect to each other. The collecting pipes are connected to one another by elbows g, to which the connections are attached for the flow and return lines, and the heat transfer medium.

Claims (4)

PATENT CLAIMS: 1. Tubular heating element made from horizontal header pipes above and below and between these arranged, vertical connecting pipes, each with two longitudinal ribs running in a diametrical plane, characterized in that the plane of each longitudinal rib (a) at an angle between 30 and 60 ° to the plane the vertical tube axis is inclined and that the distance between two adjacent longitudinal finned tubes smaller ads is the horizontal extension of both ribs of a pipe. 2. Radiator according to claim 1, characterized in that some of the finned tubes are mirror images is arranged to each other (Fig.2). 3. Radiator according to claim 1 or 2, characterized characterized in that each finned tube is a mirror image of the preceding and following is arranged (Fig. 3). 4. Radiator according to one of claims 1 to 3, characterized in that on both manifolds (b) U-shaped hoods (c) are attached, which have a greater depth than the finned tubes and are provided with air passage openings (d) (Fig. 6). Documents considered: German Patent No. 395276; British Patent No. 656892.