NO136622B - - Google Patents

Description

Tube radiator.

The invention relates to a pipe radiator with vertical pipes arranged between an upper and a lower collecting pipe, where heat exchange elements are kept clamped between the vertical pipes to form hot air channels, which Hang's trough-shaped depressions are in contact with said vertical pipes.

The new and characteristic feature is that each element is formed from a single aluminum plate, shaped as a polygonal chamber in cross-section, where along each side of the sides facing the vertical pipes are provided with inclined planes, which enables the element to be pressed between two nearby pipes and also easily removed from these.

According to a further feature, the pipe radiator according to the invention is arranged so that the ends of the aluminum plate forming the chamber do not completely collide, so that sufficient elasticity is achieved so that the chamber can be pressed between the vertical pipes.

As a non-limiting example, the drawing shall show a practical embodiment of the invention. Fig. 1 shows part of a heating element seen from the side. Fig. 2 is a longitudinal section along line II

—II in fig. 1.

Fig. 3 and 4 respectively show from the front and from above the heating element with aluminum plates and hood. Fig. 5 shows on a larger scale a longitudinal section along the line V—V in fig. 3. Fig. 6 also shows on an enlarged scale

part of a cross-section along the line VI—VI in fig. 3.

With reference to the drawing, the heating element consists first of a series of drawn and welded steel pipes which form a system of vertical downpipes 1, which are connected at the top with an inlet collector pipe 2 and at the bottom with a drain collector pipe 3. A series of plates of aluminum or aluminum alloy 4 is then mechanically sandwiched between the pipes 1 through which the heating medium flows. The whole forms a heating panel for use as a radiator or as a convector.

The heating panel can withstand all operating pressures and the aluminum plates, which are distinguished by their high conductivity, will achieve a favorable temperature and a high effect when they come into contact with the heating pipes.

Before the aluminum plates 4 are clamped between the tubes 1, these tubes are coated with a thin layer of varnish to reduce the thickness of the thin air film between the tubes and the plate channels. This air film should of course be kept to a minimum as air is known to be a poorer conductor of heat than varnish, the conductivity of which can be increased by adding metal powder, e.g. aluminum.

The aluminum plate 4 consists of plate material that is profiled along the pipes. They have the same effect as stoves, where they increase heat conduction or convection.

In order to increase the heat transfer during the operation of the heating elements, between the profiled plates 4 and the pipes 1, the plates are given channel-shaped bends 5, (see fig. 6), the inner surfaces of which fit together with the outer surface of the pipes 1. Inclined plan 10 facilitates the introduction

of the plates between the pipes.

The cap 6, which covers the upper edge of the plates 4 (see fig. 5) and the collector pipe 2, is provided

with longitudinal customs and lies with pressure

against the plates as its longitudinal edges 8

is bent back inwards 9.

It will be understood that the practical embodiments may deviate from the one described here. Thus 'can the heating element,

besides for vertical wall mounting, too

used as heat radiation element i

the roof covering, without therefore the invention's

frame is exceeded.

Claims (2)

1. Pipe radiator with between an upper and a lower collecting pipe arranged vertical pipes where heat exchange elements are kept clamped between the vertical pipes for to form hot air channels, which are in contact with said vertical pipes along trough-shaped recesses, characterized in that each element (4) is formed from a single aluminum plate, shaped as a polygonal chamber in cross-section where along each side of the sides facing the vertical pipe (1) is provided with an inclined plane (10), which enables the element to be pressed between two adjacent pipes and also easily removed from these. 2. Device as stated in claim 1, characterized in that the ends of the aluminum plate forming the chamber do not completely collide, so that sufficient elasticity is achieved so that the chamber can be pressed between the vertical tubes.