NL8201932A - PANEL RADIATOR. - Google Patents

Description

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Panel radiator

The invention relates to a panel radiator provided with a radiation panel and a tube construction attached to the radiation panel for guiding a medium therethrough in order to transfer the temperature of this medium to the radiation panel.

In the known radiators of this type a serpentine tube is used as tube construction, which is placed between two panels and which either rests directly against these panels or is spaced from the panels by means of ribs arranged between the panels.

In order to easily bend a tube into a serpentine tube, generally the cross section of such a tube will be circular i *

In addition, it is desirable that for the temperature of the medium flowing through the serpentine tube (eg, warm water) to be transferred as efficiently as possible to the radiation panel, the serpentine tube rests against that panel. However, it is clear that. the circular cross section of the tube does not contribute to an optimal heat transfer.

An optimal heat transfer can be obtained by giving the tube a rectangular cross-section and placing the wide side against the radiation panel. However, such a tube cannot be bent in serpentine form.

For example, there is one to overcome this objection. construction in which a number of equally long, rectangular cross-section longitudinal tubes 25 are placed parallel to each other, while the open head ends of these longitudinal tubes can be connected to, for instance, transverse ends of the longitudinal tubes, wherein. these head tubes always connect two longitudinal tubes to each other, in such a manner that the medium of serpentine guided through the tube construction flows through the rectangular longitudinal tubes.

There is also a further construction in which the head ends of the longitudinal tubes are attached to common head tubes, in which transverse bulkheads are placed in these head tubes in order to achieve the desired serpentine flow. the longitudinal tubes.

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The manufacture of both these constructions is very time consuming and expensive, since the head ends of the longitudinal tubes have to be welded to the head tubes and, in the case of the common head tubes therein, also transverse bulkheads have to be welded. In addition, the weld beads must be ground away to allow the tube construction to rest as effectively as possible against the radiation panel.

The object of the invention is to provide an improved panel radiator, which substantially obviates said objections.

The object is achieved in that, according to the invention, the tube-10 construction consists of a number of tube parts of substantially rectangular cross-section, which are substantially parallel and spaced apart from each other, of which one of the flat walls rests against the radiation panel, and which is sealed at the head ends. from a number of cross-connecting tubes, the diameter of which is smaller than the height of the side walls of the tube sections perpendicular to the radiation panel, in order to connect successive tube sections to each other such that the flow direction of the medium in a successive tube section is that of a previous pipe section, for which there are openings in the side walls. arranged through which the cross connection tubes protrude into the relevant tube parts and are in sealing connection with the relevant side walls.

Since according to the invention the diameter of the cross connection tubes is smaller than the height of the side walls of the longitudinal tubes, and because the outer circumference of the openings in the side walls is preferably spaced from the plane of the longitudinal tubes resting against the radiation is located, the cross-connection tubes become spaced from the plane of the radiation panel, so that the cross-connection tubes welded to the side walls no longer need to be ground. This provides significant work savings.

A further work savings can be obtained by squeezing the head ends of the longitudinal tubes together, such that the surface resting against the radiation panel and the upper surface of the longitudinal tubes opposite it are pressed together, whereby the seam thus obtained is sealed if necessary. . By pressing both surfaces mentioned against each other, the weld seam is spaced from the plane of the radiation panel, so that the grinding of the weld is not necessary here either.

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In addition to these advantages, the panel radiator according to the invention has a number of other advantages.

In modern construction - especially in non-residential works and offices - it is often desirable to work with standard built-in panels for all kinds of purposes. For example, one of these panels can be a panel radiator, which can then participate in an aesthetically pleasing manner. forming a wall constructed from standard panels.

The advantage of the invention is that with a built-in panel 10 of a certain size it is possible to adjust the heat capacity of the pipe construction according to the invention in a simple manner. After all, the number of longitudinal tubes to be applied is determined by the length of the cross connection tubes. If the length of the cross-connection tubes is short, more longitudinal tubes can be arranged on the radiation panel and, on the other hand, this length is greater than fewer longitudinal tubes can be arranged on such a radiation panel. It is clear that the heat capacity can be controlled very easily in this way. In addition, the heat can be properly distributed over the entire surface of the radiation panel.

Therefore, no cold areas are formed in places furthest from the feed, as is the case with the conventional plate radiator.

Here it is only a matter of placing the desired number of longitudinal tubes with the desired rectangular cross sections.

25 One can set the mutual distance differently; e.g.

by a gradually increasing distance between the longitudinal tubes.

For the manufacture of a panel radiator according to the invention with longer or shorter cross-connection pipes and / or longitudinal pipes with different cross-sections, whereby the longitudinal pipes can optionally be arranged at different mutual distances, no additional operations are required, so that an extra cost is incurred. wide range of the possibilities outlined above with regard to the heat capacity within a limited area.

The invention will be explained in more detail below with reference to an exemplary embodiment and with reference to the drawing. Herein shows:

Fig. 1 the schematic representation of the rear of a radiation panel against which the pipe construction is attached; 8201932 -4-

Fig. 2 is a sectional view of FIG. 1 along the lines ll-li.

In FIG. 1 and 2, a panel radiator is shown, provided with a radiation panel 1 and with a tube construction 1 attached to the radiation panel for guiding a transport medium, e.g. hot water, through it. This tube construction 2 consists of a number of substantially parallel and spaced apart longitudinal tubes 3, which are sealed at their head ends 4 and of a number of transverse connecting tubes 5 for interconnecting the longitudinal tubes in such a way that the transport medium follows the successive longitudinal tubes ser-10 flows pentin-wise.

The longitudinal tubes 3 have a substantially rectangular cross-section and rest with one of their wide walls 6 against the plane of the radiation panel 1.

The cross-connecting tubes 5 have a profile which is smaller than the height of the side walls 7 of the longitudinal tubes 3 and are preferably arranged near the head ends 4 of the longitudinal tubes 3 and extend into suitable opposite sides in the side. Walls 7 formed openings 8 of the respective adjacent longitudinal tubes 3. In connection with the most favorable possible flow of the medium, a rectangular profile of the cross connection tubes 5 and associated openings 8 is preferred. ________

The openings € are arranged such that the cross-connecting tubes 5 inserted therein are spaced from the plane of the radiation panel, as shown in FIG. 2 is clearly indicated.

The cross-connecting tubes 5 are shown. preferably welded to the openings 8, or - when a flow drill is used to make the openings 8 - pressed therein and glued.

The tube construction 2 thus formed can. eg with the help of spring clamping brackets 9, see in particular Fig. 2, are fixed against the radiation-3Q panel 1 in cooperation with fixing elements mounted in the radiation panel in the form of for instance pins 10 with screw thread and associated nuts 11.

In order to transport the medium through the tube construction 2, at the beginning and end of this tube construction, a supply connection 12, 12, respectively. drain connection 13 fitted.

8201932

Claims (5)

Radiator according to claim 1, 20, characterized in that the number of longitudinal tubes (5) to be placed on a radiation panel (1) is determined by the length of the cross connection tubes. Radiator according to claims 1-2, characterized in that the cross section of the longitudinal tubes (3) are equal to each other. Radiator according to claims 1-3, characterized in that the tube circumference of the openings (8) in the side walls. (7) is located at a distance from the plane (6) of the longitudinal tubes (3) resting against the radiation panel (1). Radiator according to any one of the preceding claims, characterized in that the openings (8) in the longitudinal tubes (3) and the cross section of the cross connection tubes are circular. 8201932 \ \ * '_' _ __ _______ _ _ __ ______ ________ ..- 6- Radiator according to any one of the preceding claims 1-4, characterized in that the openings (8) in the longitudinal tubes. (3) and the cross-section of the cross-connection tubes (5) are rectangular .. * r (V 8201932