NL193121C - Heat exchanger and use of such a heat exchanger in a gas heating unit. - Google Patents

Description

1 193121

Heat exchanger as well as use of such a heat exchanger in a gas heating unit

The invention relates to a heat exchanger, comprising a top-twisted twisted tube 5 with a helical swelling, sandwiched coaxially sandwiched between an outer tube and an inner tube, two spiral chambers defined on either side of the twisted tube, the chamber of which between the outer tube and the twisted tube at the top and bottom ends is hermetically sealed.

Such a heat exchanger is known from German patent specification DE-C-815,805, which describes a cooling device for liquids or gases, which can also be used as a heating device for liquids or gases. This device mainly consists of a top-end closed spiral corrugated cylindrical tube, which is placed closely between an outer and an inner tube. In this way, two separated spiral channels are formed. However, the spiral corrugated tube of the device according to the German patent does not comprise a vent cap, so that any air present can accumulate in the device. This can cause cavitation, that is to say the formation of cavities in fast flowing liquids, which is detrimental in particular to the pump, but also to the heat exchanger itself. Thereby the heat transfer in the presence of air bubbles in the system is considerably reduced. In the device according to DE-C-815.805 the transfer of fluids from the individual channels is also not excluded, because only the flanges of the inner, outer and intermediate pipe are connected to each other to seal the channels. The flange connection as carried out in the device according to DE-C-815.805 also has the serious disadvantage that it is not easily accessible, so that the calcareous deposits which remain in the spiral containing hot water, usually hard water, cannot be removed except by chemical means and therefore not in a safe, controllable manner.

Other known types of heat exchangers, such as the plate types or those, with multiple removable coils, eliminate the above problem, but are however negatively influenced by the necessary presence of sealing gaskets, which in case of failure do not transfer liquids, ie mixing hot water with the heating system water appearance. Furthermore, because they require more complicated manufacturing techniques, these gaskets increase the cost of the device.

The object of the present invention is to eliminate the above-mentioned problems by providing a heat exchanger which provides easy access to the heat exchange surface exposed to the hot water and thus allows total removal of all calcareous deposits thereon; simple, compact and economical, which also guarantees continuous safety of operation, excluding the possibility of transfer of liquids, and is characterized for this purpose in that the twisted tube is closed at the top by a vent cap fitted with a double O-ring gasket, whereby the O-ring gaskets cooperate with the inner surface of the twisted tube to form a hermetic seal and that the top edge of the outer tube is formed as an inward-facing shoulder, which shoulder also co-operates with the upper O-ring gasket of the vent cap forming a seal between the outer tube and the twisted tube, the twisted tube further comprising two O-ring gaskets which cooperate to form a seal with the inner surface of the outer tube, and the inner tube open at the top communicates with the spiral chamber between the interior tube and the twisted tube.

45 In this way, the heat exchanger is formed of three tubes, which are simply pushed together coaxially to form a system that is compact and easy to disassemble and therefore easily accessible. Furthermore, any possibility of transferring liquids is prevented by a double o-ring gasket, which is provided at each end of the heat exchanger. The economics of the system are evident, taking into account the fact that the helical swelling 50 of the main tube is easily obtained by hydroforming.

The invention will be explained with reference to the drawing, which illustrates a practical preferred embodiment and which is mainly given by way of example, which does not limit the technical, technological or structural variations which can be made, 55 being within the scope of the invention remains.

in the drawing: figure 1 shows a partly cut away perspective image of a heat exchanger according to a

Claims (4)

193121 2 exemplary embodiment, figure 2 is a partly cut-away view on a different scale of the three separate elements from which the heat exchanger is formed. With reference to the figures, reference numeral 1 denotes a tube with a spiral twisted swell obtained by hydroforming and sandwiched coaxially between an inner tube 2 and an outer tube 3. The twisted tube 1 has two lower ends 4 o-ring gaskets 5 and 6 for providing a seal between the tube 1 and the outer tube 3, and a carrier tube 7, which is attached to the end of the tube 3 by means of 10 flanges. The end of the twisted tube 1, on the other hand, ends in a neck 8, which is hermetically closed by an air outlet valve 9 by means of the o-ring gaskets 10 and 11. The same gasket 11, which presses against the shoulder 12, which is present on the top end of the outer tube 3 also forms a hermetic seal between tube 1 and tube 3. Finally, the inner tube 2 terminates at its bottom end in a funnel-shaped constriction 13 to form a chamber 14 for collecting water. In this way, between the three coaxial tubes 1, 2 and 3, two spiral chambers are defined, of which the inner 14, which lies between the inner tube 2 and the twisted tube 1, forms the deflection path for return in the arrows 15 indicated, direction of the hot water from the heating system, which is delivered into the inner tube 2 in a direction indicated by arrow 16. 20 The other spiral chamber 17, on the other hand, lies between the twisted tube 1 and the outer tube 3 and is flowed through it. heating water, which is coldly introduced therein through the inflow opening 18 present at the bottom of the outer tube 3, and which is withdrawn in hot condition from the outlet opening 19 present at the other end of the outer tube 3. The path in the chamber 17 followed by the hot water is indicated in Fig. 1 by arrows 20. 25 1. Heat exchanger, comprising a top twisted twisted tube with a helical swelling coaxially sandwiched between an outer tube and an inner tube, two spiral chambers defined on either side of the twisted tube, the chamber between the outer tube being defined. and the twisted tube at the top and bottom ends is hermetically sealed, characterized in that the twisted tube (1) is closed at the top by a vent cap (9) provided with a double O-ring gasket (10, 11), the O- ring gaskets (10, 11) forming a hermetic seal with the inner surface of the twisted tube (1) cooperating and the top edge of the outer tube (3) being an inwardly facing shoulder (12), which shoulder (12) also cooperates with the top O-ring gasket (11) of the vent cap (9) to form a seal between the outer tube (3) and the twisted the tube (1), which twisted tube (1) further includes two O-ring gaskets (5, 6), which cooperate to form a seal with the inner surface of the outer tube (3, 7), and that the inner tube (2) is openly connected on top with the spiral chamber (14) between the outer tube (2) and the twisted tube (1). Heat exchanger according to claim 1, characterized in that the inner tube (2) ends at its lower end with a funnel-shaped narrowing. Heat exchanger according to claim 1 or 2, characterized in that the inner tube is designed as a supply line. Heat exchanger according to one or more of the preceding claims, characterized in that it is used in a gas heating unit for household use. Hereby 2 sheets drawing