DE1130982B - Tubular heater - Google Patents

Description

Tubular heater The invention relates to a tubular heater with each an upper and lower manifold and between them at a distance from each other arranged, vertical connecting pipes, on which two wing-like, on the circumference of these tubes offset by 180 ° and connected here in a thermally conductive manner Sheet metal strips are provided after the space to be influenced and after the Aufstellwand are angled so that vertical air ducts for the to be heated Air and two roughly flat front heating surfaces are created.

In a known tubular heater of a similar type, extend from each vertical connecting pipe four wings of the wing-like cladding sheets up to the front surfaces of the radiator. This becomes these front surfaces that should assume as low a temperature as possible, a lot of heat is introduced. on the other hand it is desirable that those be in contact with the vertically flowing air Baffles come as close as possible to the temperature of the vertical connecting pipes Have temperature, in the known case because of the required low heat gradient low barriers are set to the front surface.

According to the invention, the above-mentioned are in a tubular heater Type made the aforementioned temperature conditions more favorable that the metal strips on the vertical connecting pipes in horizontal cross-section reversed mirror-image and are angled so that they are in the horizontal Cross section of one side and the base line of an isosceles rounded at the corners Form a triangle and include the associated connecting tube at its tip, while through the opening created by the missing triangle side in each case in the construction depth extended over the triangle tip, assigned to the same connecting pipe and this one Also with a rounded triangular tip, matching sheet metal strips protrudes, so that two similar air ducts belong to each connecting pipe, the are limited at the front and back by the flat front heating surfaces that as a result of touching the angled outer parts of the sheet metal strips a closed one Represent area.

In this training, only two sheet metal wings are sufficient for each vertical Connection pipe up to the front surfaces, so that to these a correspondingly larger There is a heat gradient or less heat is conducted to the front surfaces than at the well-known tubular heater with four wings per connecting pipe. Risk of burns on the heating surfaces is thus despite the high temperature of the heating medium in the connecting pipes largely avoided. On the other hand, because of the open triangle side in sheet metal strips protruding into the air duct but not reaching to the front surface, which have a lower heat gradient and therefore a higher temperature, the heat transfer particularly good for the air flowing through and therefore, overall, a cheaper one Thermal efficiency than given in the known tubular heater.

As a further improvement, the installation depth can be over the triangle tip elongated sheet metal strips as several flat areas in the air ducts at a distance be formed from the inside of the heating surfaces ending radiant surfaces, which concurrently additional convection surfaces of similar extent essentially are assigned radially to the respective vertical connecting pipe. This will be the convection and jet surfaces evenly over the entire cross-section of the air duct distributed. Furthermore, the front and rear heating surfaces, about halfway up beginning to be provided in a known manner with air passage openings, whose passage areas increase towards the top. This takes into account the fact that the air expands with increasing warming and at the same speed requires a larger cross-section.

In the drawing, tubular heating elements according to the invention are shown, namely Fig. a shows the front view of a tubular heater, Fig. b shows a side view, Fig. C to e horizontal cross-sections through different types of construction according to the line A-B in Fig. A, Fig. F to h show the front view of radiators with different types Air passage openings.

The tubular heating elements shown each consist of an upper header 1 and to this at any distance, depending on the height, parallel, lower header 2, which by any number of perpendicularly welded, also parallel and at any distance from each other connecting pipes 3 arranged the cavity for the heating medium, which can flow through the radiator, for example in the direction of the arrow (Fig. a) from top left to bottom right. To improve the heat exchange, the tubular heating element on the connecting pipes 3 is provided in pairs with blades 4 , which are connected in a way that is good heat-conducting, preferably continuously welded and spatially separated from one another. The wings 4 are continuous in height and each welded by a weld seam on a connecting pipe. The weld divides the wing 4 into two halves, one half of which 5 in z. B. curved shape forms an approximately straight or curved face and the other half 6 protrudes freely into the room. A connecting pipe 3, each with two wings 4, forms a radiator member. Adjacent links touch each other and form a closed pocket which is broken up into an equal number of air ducts 7 by the wings 4 (FIG. C). The projecting into the space halves 6 of the wings 4 can be divided lengthwise by numerous vertical incisions. The resulting, short lamellae 8 are optionally to the side. more or less curved and thus shifted into a wider air flow. At the same time, the wings 4 can each be equipped with additional convection surfaces, which are formed in the form of continuous, preferably shaped, also notched and transverse rails or webs 9 (FIG. E).

The tubular heater is further according to the invention on the front of the Links, specifically on the wings 4, especially in the upper and lower areas known through openings 10 of such type and size provided that a Bring increased air circulation in the air ducts, especially at higher levels Radiator elements can be arranged at half the height through openings 11 (Fig.f to h).

About the warm air expanding and rising in the air ducts to enable unhindered passage with approximately the same pressure and thus the greatest possible According to the invention, the front surfaces are used to achieve air throughput and maximum heat exchange the wing 4, starting at about half the height, up to the top with passage openings 12 provided, the cross sections of which are larger towards the top to the enlarged To create a volume of hot air that is as resistance-free as possible.

The tubular heating element can be perforated in a manner known per se Cover 13 at the top with a distance and be equipped in a similar manner at the bottom, which, however, does not belong to the invention.

Claims (3)

PATENT CLAIMS: 1. Tubular heating element, each with an upper and a lower one Collecting pipe and vertical spaced apart between them Connecting pipes, on which two wing-like running simultaneously, on the circumference of this Pipes are offset by 180 ° and adjoining sheet metal strips that are connected here in a thermally conductive manner are provided according to the room to be influenced and the installation wall are angled out so that vertical air channels for the air to be heated as well as two roughly flat front heating surfaces are created, characterized by that the sheet metal strips (4) on the vertical connecting pipes (3) in the horizontal Cross-section reversely arranged mirror-image and angled such that they in the horizontal cross-section one side and the base line one at the corners rounded, isosceles triangle and at its apex the associated Include connecting pipe, while through the resulting from the missing triangle side Each opening of the (6, 8) extended in depth beyond the triangle point Connection pipe (3) assigned and this also with a rounded triangular tip comprehensive, opposite sheet metal strips (4) protrudes, so that to each connecting pipe two similar air ducts belong, the front and rear through the flat ones Front heating surfaces (5) are limited as a result of touching the angled outer parts the sheet metal strips represent a closed area. 2. tubular heater according to claim 1, characterized in that the extended depth over the triangle tip Sheet metal strips as several fan-like in the air ducts at a distance from the inside the heating surfaces ending radiant surfaces (8) is formed, which concurrently additional Convection surfaces (9) of similar extent essentially radially to the respective one vertical connecting pipe are assigned (Fig. D, e). 3. Tubular heater according to Claim 1 and 2, characterized in that the front and rear heating surfaces, Beginning at about half the height, in a manner known per se with air passage openings (12) are provided, the passage areas of which increase towards the top. Into consideration drawn pamphlets; German Patent Nos. 354 537, 1045 622; German Utility model no.1686 951.