NL9201989A - Dual heat exchanger - Google Patents

Abstract

The invention comprises a device for heating a heat- transfer medium and water, comprising a vessel for water, an inlet connection and an outlet connection for water on the vessel, at least two heating sources for the vessel, which are arranged at different heights, and a heat exchanger, which is arranged in the vessel, for the heat- transfer medium, the discharge of which is located at a higher level than the feed into the vessel, the heat exchanger having a branch which can be connected to the discharge, and the heating source arranged at the lower level being arranged below the branching point, and the heating source arranged at the higher level being arranged above the branching point but below the discharge.

Description

DOUBLE HEAT EXCHANGER

The invention relates to a device for heating a heat transport medium and tap water, comprising a tap for tap water, an inflow connection for an inflow connection and an outflow connection for tap water, at least two heating sources for the vessel at different heights and one arranged in the vessel heat exchanger for the heat transport medium, the discharge of which is located higher than the supply in the vessel.

The heating appliance for central heating and a hot water appliance, a so-called boiler, is known. The presence of two heat sources arises from the fact that an inexpensive heating source in use has insufficient capacity or a non-constant capacity. This includes in particular a heating source that is connected to a solar collector. When the heating capacity of the inexpensive heating source in use is not sufficient to heat sufficient tap water, the second heating element, which is more expensive in use, is switched on. This gives the tap water the desired temperature. However, the heat transport medium of, for example, a central heating installation is now also heated by the second heating source, which is more expensive to use.

The object of the invention is to provide a device in which the heat transport medium during operation of the two heating sources can optionally be heated by only the lower heating source or by both heating sources depending on the desired temperature of the heat transport medium.

This is achieved by the invention in that the heat exchanger has a branch connectable to the drain and the lowered heating source below and the higher heating source above the tapping point but below the drain.

This makes it possible to optionally let the heat transport medium flow through the part of the heat exchanger located above the upper heating source. As a result, it is possible to optionally heat the heat transport medium by the upper heating source if the tap water is heated at least by the upper heat source.

The bottom heating source is preferably connected to a solar collector. This has the advantage that the lower heating source is supplied with cheap energy. When the capacity of the heating element connected to a solar collector at a certain moment is not sufficient for heating the tap water, the second heating source is switched on. Depending on the energy requirement of the heat transfer medium, the medium flows only through the part of the heat exchanger under the branch or through the entire heat exchanger. In the event that the part of the heat exchanger under the branch allows sufficient heat transfer, the heat transport medium is only heated by solar energy while the tap water nevertheless reaches the desired, often higher, temperature.

The top heating source is preferably about two thirds of the height of the vessel. Due to this construction method, the bottom part of the vessel is a heat buffer of heat added by the bottom heating element. The buffer makes it possible to absorb fluctuations in the available heat capacity of the bottom heating element. Because the lower heating source is in principle the cheapest in use, the costs of the heat supply are hereby limited.

The invention will be further elucidated with reference to the accompanying drawing. The figure schematically shows an exemplary embodiment of the invention.

The device 1 according to the invention is contained in a double-walled vessel 2, which is insulated on the outside with the aid of material 3. The lower part of the vessel 2 has a partition wall 4 which is connected via a pipe 5 on the one hand to the solar collector 7 and on the other hand to the return pipe 8 of the solar collector 7 via circulation pump 9. The inner space 10 of a vessel 2 is filled with water and has a supply for cold water 6 and on the other side a discharge 13 for hot water. At the top, a burner 11 is provided which heats the water. The intermediate space 4 is provided with an overflow 12. The intermediate space 4 is further connected via the line 14 to the expansion line 15 of the vessel 2. The heat exchanger 16 for heating a transport medium has a discharge 17 higher in the vessel 2 is then situated an inlet 18. The heat exchanger 16 has a branch 19 which is connected to the outlet 17. By means of a valve 20, the heat transfer medium can flow either only through the lower part 21 of the heat exchanger 16 below the burner 11 or through both the lower part of the heat exchanger 16 below the burner 11 and the upper part 22 of the heat exchanger 16 above the burner 11 flows.

Claims (3)

Device (1) for heating a heat transport medium and tap water comprising a tap (2) for tap water, an inflow connection (6) and an outflow connection (13) for tap water on the vessel (2), at least two apart heating sources (4, 11) arranged at different heights for the vessel (2) and a heat exchanger (16) arranged in the vessel (2) for the heat transport medium whose outlet (17) is higher than the inlet (18) in the vessel ( 2), the heat exchanger (16) having a branch (19) connectable to the drain (18) and the lowered heating source (4) below and the higher heating source (11) above the branch point but below the drain (17) is fitted. Device (1) according to claim 1, characterized in that the lower heating source (4) is connected to a solar collector (7). Device (1) according to claim 1, characterized in that the top heating source (11) is located at about two thirds of the height of the vessel (2).