NL8803074A - METHOD FOR REDUCING THE WITHDRAWAL PERIOD OF THE DELIVERY OF HOT SANITARY WATER BY A WATER HEATER. - Google Patents

Description

f ί VO 1378

Title: Method for shortening the waiting period for hot sanitary water to be delivered by a water heater.

The invention relates to a method for shortening the waiting time for hot sanitary water to be delivered by an instant-type water heater, comprising a primary water circuit suitable for providing hot water for domestic heating, a gas burner or a such a means for heating the water circulating through said primary circuit, a secondary water circuit suitable for providing hot sanitary water, and a heat exchanger wherein the primary circuit 10 and the secondary circuit are in mutual heat-exchanging relationship to heat the sanitary water.

As is known, the generation of hot sanitary water to be dispensed by the secondary water circuit of a water heater of the above type is initiated by opening a service valve of the sanitary system operated by the water heater. The sanitary water in the secondary water circuit is heated by the hot water circulating through the water heater's primary water circuit.

20 When the water in the primary water circuit intended for domestic heating is already hot (burner on) as will be the case during the winter months, the waiting time for hot sanitary water to be dispensed through a use tap is virtually nil.

25 On the other hand, when the water in the primary circuit is cold (burner off), as will be the case during the summer months, the waiting time, although short, is still a considerable time.

In fact, when a tap in the plumbing system controlled by the water heater operated 30 is opened, the gas burner is ignited and the water in the primary circuit starts to heat and will take an 88030747 * -2 «part of the transfer progressively obtained heat to the sanitary water in the secondary water circuit, providing this water continuously and not using it until it reaches a desired temperature.

There is a need to minimize / even suppress said waiting time, both to provide improved options for the user and to avoid wasteful consumption of drinking water.

For this purpose it has been proposed to allow the water in the primary circuit to be heated at all times, however one technique originating from this proposal is known to have the disadvantage of an excessively high energy input and of an intensified formation of chalky precipitates within the water circuits of the water heater.

It has also been proposed to provide the water heater with a heat storage device in which hot water from the primary circuit can be stored, but this proposal has the drawback of a considerable increase in the size of the water heater and of manufacturing costs.

The problem underlying the present invention is to provide a method to significantly shorten or even completely reduce the waiting time for hot sanitary water dispensing from the moment the burner of an instant water heater is activated. suppress, overcoming the known disadvantages.

This problem is solved according to the present invention in that a method is characterized in that the exchange of heat between the primary and the secondary circuit of the water heater is prevented when the water in the primary circuit has a lower temperature than a predetermined value, wherein the exchange of heat between the first circuit and the second circuit is restored when said value is exceeded.

According to one aspect of the present invention, the heat exchange between the primary and the secondary water circuit of such a water heater is prevented by decoupling the heat exchanger from the secondary water circuit.

The features and advantages of a method according to the present invention will be elucidated by the following detailed description of a preferred embodiment thereof, with reference to an instant type wall mounted water heater shown in Fig. 1 of the accompanying drawing .

In the figure, in general, reference numeral 1 designates a wall-mounted instant-type water heater comprising a primary water circuit 4 for generating and providing hot water for home heating purposes and a secondary water circuit 11 for generating and providing hot sanitary water.

The primary circuit 4 can be connected to a house heating system (not shown) via discharge pipe 5 and return pipe 6. The primary circuit 4 comprises a water circulation pump 12, the suction pipe 12a of which is in liquid-20 connection with the return pipe 6, while the discharge pipe 12b for water pipe is connected to a first heat exchanger (or primary heat exchanger) 7 which is carried in a position above the gas burner 3.

Starting at the outlet end of the heat exchanger 7, the primary circuit includes a three-way valve 9, a first path of which communicates with the primary heat exchanger 7 through a valve 8, a second path of water conduction connected to the discharge conduit 5 , and a third way is connected for water conduction to a second heat exchanger (or secondary heat exchanger) 10.

The secondary heat exchanger 10, in turn, is connected, via an outlet pipe 12c, for water conduction to the suction pipe 12a of the water circulation pump 12.

The secondary water circuit 11 can be connected to a sanitary water supply system (not shown) through discharge line 16 and return line 14. The lines 14 and 16 88030747 4-4- are in fluid communication with the secondary heat exchanger 10. By way of illustration, the lines 14 and 16 for water conduction mutually connected to a pipe coil portion 15 extending through the secondary heat exchanger 105 of which it is an integral part.

For a schematic representation it can be said that the primary water circuit 4 and the secondary water circuit 11 of the water heater 2 share the secondary heat exchanger 10, whereby said water circuits are placed in a reciprocal heat exchange relationship.

In the secondary water circuit 11, the lines 14 and 16 are mutually connected by a bypass line 17 of the secondary heat exchanger 10. A valve member 18 is mounted in this line 17 for interrupting the sanitary water flow, such as a solenoid valve, under control by a temperature sensor 19 mounted in the conduit 12c of the primary circuit 4 of the output end of the heat exchanger 10. In a preferred embodiment, the pipe coil section 15 of the secondary circuit 11 is sized to produce much greater load losses than those caused by the by-pass 17 is produced, so that, when the solenoid valve 18 is open, almost all of the sanitary water flow passes through the by-pass 17, resulting in the heat exchanger 10 being disconnected from the secondary water circuit 11.

It goes without saying that in an alternative embodiment the secondary circuit 11 may be provided with another valve device to effectively decouple the sanitary water flow from the flushing pipe section 15, ie the heat exchanger 10.

The water heater 1 further includes a flow sensor 20 disposed in the water inlet conduit 14 of the secondary circuit 11 and operable to control the ignition of the burner 3 when a sanitary water tap is opened.

8803074? * £ -5-

During the summer season, and in any case when the house heating function is not desired, the burner 3 of the water heater described above will be in an off state, and the water in the primary circuit will be cold.

In this state, the solenoid valve driven by the temperature sensor 19 is open.

When hot sanitary water is requested, such as by opening a service valve, the water flow through the secondary circuit itself takes place through the by-pass 10 17, the secondary heat exchanger 10 being completely or almost completely disconnected from this circuit. At the same time as opening the service valve, the flow sensor 20 will directly control the burner 3 to ignite it, thereby starting the heating of the water circulating through the primary circuit 4 15, including the secondary heat exchanger 10. As far as this heat exchanger is 10 disconnected from the secondary water circuit 11, during the heating of the water in the primary circuit 4, no heat exchange takes place between this water and that in the secondary circuit 11. This condition is maintained until the water in the primary circuit 4 has been brought to a predetermined temperature value.

When this value is reached, the temperature sensor 19 will control the solenoid valve 18 to close it, with the result that the heat exchanger 10 is coupled back into the secondary water circuit 11. Thus, the heat exchange state between the water circulating through the primary circuit 4 and the sanitary water circulating through the secondary circuit 11 is restored.

By preventing heat exchange between the primary circuit and the secondary circuit of the water heater 1 during the initial warm-up period of the water circulating through the primary circuit, this water is able to quickly reach its predetermined temperature value. and it has been shown that the waiting time at the sanitary water dispensing tap can be increased by more than 50%. 8103074.

'v -βάθη is reduced from what has hitherto been possible, or can even be completely suppressed.

8803 0747

Claims (4)

A method for shortening the waiting time for hot sanitary water to be delivered by an instant-type water heater, comprising a primary water circuit suitable for providing hot water for home heating, a gas burner or the like for heating the water circulating through the primary circuit, a secondary water circuit suitable for providing hot sanitary water, and a heat exchanger, wherein the primary circuit and the secondary circuit are in reciprocal heat-exchanging relationship to provide the sanitary water heating, characterized in that the exchange of heat between the primary circuit (4) and the secondary circuit (11) of the water heater (1) is prevented when the water in the primary circuit (4) has a lower temperature than a predetermined value, whereby the exchange of heat between the first circuit (4) and the second circuit (11) is restored when said value is t exceeded. Method according to claim 1, characterized in that the exchange of heat between the primary water circuit 20 (4) and the secondary water circuit (11) of the water heater (1) is prevented and restored by the heat exchanger (10) respectively to be disconnected from and fed back into the secondary water circuit (11). 3. Instant type water heater, comprising a primary water circuit suitable for providing hot water for home heating, a gas burner or the like for heating the water circulating through the primary circuit, a secondary water circuit is suitable for providing hot sanitary water and which comprises a return pipe and a sanitary water discharge pipe, and a heat exchanger in which the primary water circuit and the secondary water circuit are in reciprocal heat-exchanging relationship to heat the sanitary water , which is provided with an 8803 074 · -8- VI pipe (17) extending between the return pipe (14) and the delivery pipe (16), which passes the heat exchanger (10), and a decoupling fastened in the pipe (17) valve member (18) driven by a temperature sensor 5 (19) operative to control the temperature of the water circulating through the primary water circuit (4) measure. Water heater according to claim 3, characterized in that the temperature sensor (19) for measuring the temperature of the water circulating through the primary circuit (4) is mounted in an outlet section (12c) of this circuit of the heat exchanger (10). 8803074Γ