CS213603B1 - Element of the heat exchanger - Google Patents

Description

The invention relates to a heat exchanger element, in particular for hot-water flat radiators.

The prior art exchangers are designed as structurally integrated units, in which only the thermo-circulation surface is exceptionally in solid connection with heat transfer surfaces, which ensure the transfer of heat into the space. The known solutions use longitudinal or vertical tubes, or various internal ribs, possibly connected to these tubes as thermocirculation profiles, which require structural modifications when joining heat exchange surfaces with thermocirculation profiles. For this purpose, various clamps, pulling and thrust springs are used. These construction elements increase the thermal bridge when the thermocirculation profiles β touch the heat transfer surfaces and the heat transfer is not perfect and there is a considerable loss in the use of thermal energy. Also known types of heat-liquid heat exchangers, especially hot-water radiators, are demanding and, together with uneconomical use of heat energy, they are unsatisfactory. '°

The aforementioned disadvantages are overcome by the heat exchanger element of the present invention that the closed thermo-circulation profile has at least one flat side wall provided with at least one flat flexible retaining clip, one arm of which is rigidly connected to the straight side wall of the thermocirculation profile. and a plane of the side wall by a pitch that is less than the thickness of the arm of the heat-exchanging additional surface for sliding the arm of the heat exchanger element below this resilient retaining clip.

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By firmly connecting the heat exchange surfaces with the thermocirculation profiles that are inside the radiator, an increased heat transfer from the thermocirculation profiles to the heat exchange surfaces is achieved through which radiation and convection of warm air into the space is ensured. The hot water flat bodies formed using the heat exchanger element of the present invention exhibit increased performance over the known types of radiators with their reduced weight. The weight reduction of the radiator and the increase of the output are achieved by using heat exchange surfaces, which by perfect tight connection with thermocirculation profiles take over as much heat for radiation and convection of warm air into the space. This progress and the higher effect which results in a faster standby power is also achieved by attaching the heat transfer surfaces to the thermocirculation profiles by means of clips.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is illustrated in the accompanying drawing, in which: FIG. 1 and FIG. 2 show a hot-water flat radiator made of thermocirculating profiles which can be made of closed profiles with at least one straight side wall. eg rectangular profiles running along the entire length of the exchanger.

Giant. 3 and 4 show another possible specific application for a rectangular profile running along the length and height of the exchanger.

The thermocirculation profiles 1 are the connections between the inlets and outlets of the heat transfer medium, which are formed by closed profiles with at least one straight wall. The rectangular resilient retaining clips 6 are welded to the straight side walls 2 of the thermocirculating profiles 1, for example welded to the thermocirculation profiles by means of circular heat-convection profiles 1 The illustration shows a particular application for the rectangular profile of the thermocirculation profile 4 to which the heat transfer additional surface 2 is attached by means of a retaining clip 4, which is stitched to the wall 8 of the thermocirculation profile 1. The second clip arm 4 has a thermocirculation wall 4. a spacing 6 which allows the arm 6 of the heat exchange surface to be firmly inserted.

Claims (1)

SUBJECT OF THE INVENTION The heat exchanger element, in particular for a hot-water radiator, consists of a thermocirculating profile provided with heat-exchanging additional surfaces, characterized in that the closed thermocirculating profile (1) has at least one flat side wall (O) provided with at least one flat flexible retaining clip (4). the arm (5) is rigidly attached to the straight side wall (3) of the thermocirculating profile (1), while its second arm is parallel to the plane of the side wall (3) by a pitch (7) that is less than the thickness of the arm (1). 6) heat transfer additional surfaces (2) for sliding the arm (6) under this flexible retaining clip (4),