AT501916B1 - DEVICE FOR HEATING A LIQUID MEDIUM - Google Patents

Description

2 AT 501 916 B1

The invention relates to a device for heating a liquid medium, in particular drinking water, with a container from which the heated medium is dispensed via a dispensing line and in which for the indirect heating of the medium to be heated, a heating coil is arranged, the heating medium, in particular hot water, via a line to-5 can be performed, wherein in the heating circuit, a controllable via an actual value sensor beep or control valve (thermostatic valve) is arranged.

The heating water can be fed from a central heating system or a floor heating system or from a heating system or a heat pump system. 10

EP 1 371 908 A1 describes a device for hot water preparation, in which the temperature sensor is indeed arranged in the lower third of the hot water tank, but at a significant distance from the cold water supply. With such an arrangement, it is not possible to measure the temperature of the water just flowing into the container with this temperature sensor 15.

EP 0 270 993 A2 has disclosed a method for preventing the preservation and multiplication of harmful germs of a service water volume located in a heatable system. In order to avoid a different temperature distribution in different water layers of the container, warmer water is passed from the upper region of the container in a separate "bypass system" in the lower region of the container. This known measure does not serve the removal of water or simultaneous cold water supply. In US 2003/0183618 A1, a system for hot water preparation is described, wherein one or more temperature sensors can be retrofitted into existing systems via the supply or discharge connections. It is preferred to install the temperature sensor at the port, which conducts warm water from the container. Alternatively, the temperature sensor in the cold water supply line can be installed so that it extends into the top 30 of the container, whereby the temperature is absorbed in the largest possible € ntfemung of the cold water inlet. A measurement of the temperature in the range of cold water inflow can not be found in the publication.

In a device of the type mentioned (AT 397 144 B), it has been known to regulate the flow through-amount of the heating water in dependence on the temperature of the returning from the heating coil heating water. In such a system determines the return temperature of the heating water as the actual value of the flow rate of the heating water, the (adjustable) setpoint determines the maximum return temperature and thus indirectly the setpoint of drinking (custom) water temperature. If it also succeeds in this known system, 40 small inflow to be heated medium - as occurs at low tapping of heated medium (hot drinking water) - immediately compensate by reloading, it is desirable to achieve a further improvement here.

This is inventively achieved in a device of the type mentioned above, 45 that the actual value sensor is arranged in the container and there in the inflow region of the medium to be heated in the container. Characterized in that in this arrangement, the actual value of entering into the container to be heated medium (drinking water) is taken at its entry into the container, the shut-off or control valve in the heating circuit virtually delay over the entrance of the medium to be heated in the container opened and heated in the container so located medium. In addition, the device according to the invention makes it possible to close the valve in the heating circuit as soon as the actual-value sensor, which is in contact with the heated medium in the container, signals to the valve that the setpoint temperature recognized as permissible has been reached. This excludes that the heated medium is overheated when the temperature of the heating medium is higher than the limit temperature to 55 which may be heated to be heated medium in the container. In practice, the temperature of the drinking water to be heated is limited to 60 ° C, but must not fall below 50 ° C, since at this temperature, rapid growth of Legionella occurs, with no preconditions above 60 ° C more for legionella growth, but higher than 60 ° C, because of the limescale and galvanized containers that are banned because of the precipitation of zinc. At temperatures up to 60 ° C, there is also no risk of scalding.

It is particularly useful if, in a further embodiment of the invention, the actual value sensor is arranged in a projecting into the container tube, which is connected via bores with the interior of the container io and to which the supply line of the medium to be heated is connected. By this measure, a particularly intensive contact between the entering into the container to be heated medium and the actual value sensor is achieved, which is conducive to detecting the actual temperature. In order to prevent the occurrence of a "cold seep" at the lowest point of the container by timely recharge, it is provided in a further embodiment of the invention to arrange the actual value sensor in the deepest region of the container.

The container for the heated medium may be in a lying, i. be formed with its longitudinal axis horizontally arranged 20 bottle.

The still present in the return of the heating medium heat can - at least partially - be used to heat the cold drinking water before it enters the container, including provided in a further embodiment of the invention that the supply line for the medium to be heated to 25 in the container a heat exchanger is connected, which is acted upon by the return of the heating medium from the arranged in the container heating coil with heating medium.

The invention is explained below with reference to the drawing. FIG. 1 shows a schematic representation of a device according to the invention and FIG. 2 shows an enlarged scale in relation to FIG. 1, the detail denoted by A in FIG. 1. The embodiment shown in the drawing is illustrative only and does not limit the invention to this illustrated embodiment. In the drawing, 1 designates the supply line for cold drinking water, which is heated in a container 7 indirectly via a heating coil 8 through which the heating medium flows. The heated medium 5 in the container 1 is withdrawn via a bleed line 2. In the bleed line 2 a stopcock 6 is arranged. The heating coil 8 is the heating medium, in particular hot water, supplied via a line 3. In the heating circuit, a controllable via an actual value sensor 40 10 shut-off or control valve (thermostatic valve) 9 is arranged. In the illustrated

Embodiment, the shut-off or control valve 9 is arranged in the feed line 3 for the heating medium. However, the shut-off or control valve 9 could instead be arranged in the return 4 of the heating medium. The shut-off valve 9 is a valve that can take two positions (open or closed) and this valve also serves to Durchflußmengen-45 control of the heating medium for keeping the supply line warm to min. 55 ° C.

The actual value sensor 10 is arranged in the container 7 and there in the inflow region of the medium to be heated in the container 7. Thus, the actual value sensor 10 is arranged in a pipe 11 DN25 projecting into the heat exchanger 7. This tube 11 is connected via holes 14 in its jacket with the interior of the container 7 in connection. To the pipe 11, the supply line 12 is connected to the medium to be heated 5. The Istwerfühler 10 is located in the deepest region - 50 mm above the lowest lying generatrix of the container 7. 55

Claims (5)

In the illustrated embodiment, the container 7 for the heated medium 5 is shown as lying, i. with its longitudinal axis horizontally arranged bottle formed. The capacity of such bottles is preferably ~ 7.01. 5 The supply line 12 for the medium to be heated in the container 7 is connected to a heat exchanger 13 which is acted upon by the return 4 of the heating medium from the arranged in the container 7 heating coil with heating medium. In this way, it is possible to heat the cold drinking water before it enters the container 7, using the heat still contained in the return of the heating medium. The setpoint temperature at the shut-off valve 9 io is preferably set to 60 ° C. As soon as the actual value sensor 10 in the container 7 senses this temperature, the shut-off or control valve 9 is closed. This avoids that even if the heating medium has a temperature which is higher than 60 ° C, the heated medium 5 contained in the container 7 is heated beyond the temperature of 60 ° C addition. 15 Claims: 1. A device for heating a liquid medium (5), in particular drinking water, with a container (7) from which the heated medium (5) is discharged via a dispensing line (2) and in which, for indirect heating of the medium to be heated, a heating coil (8) is arranged, which is the heating medium, in particular hot water, via a line (3) can be supplied, wherein in the heating circuit via an actual value sensor (10) controllable shut-off or control valve (thermostatic valve) (9), characterized in that the actual value sensor (10) is arranged in the container (7) and there in the inflow region of the medium to be heated in the container (7). 2. Device according to claim 1, characterized in that the actual value sensor (10) in a container (7) projecting tube (11) is arranged, which is connected via bores (14) with the interior of the container (7) and to in which the supply line (12) of the medium (5) to be heated is connected. 3. Device according to claim 1 or 2, characterized in that the actual value sensor (10) in the lowest region of the container (7) is arranged. 4. Device according to one of claims 1 to 3, characterized in that the container (7) for the heated medium (5) as lying, i. is formed with its longitudinal axis horizontally arranged bottle. 5. Device according to one of claims 1 to 4, characterized in that the Zufuhrlei- device (12) for the medium to be heated in the container (7) is connected to a heat exchanger (13) of the return (4) of the Heating medium from the in the container (7) arranged heating coil (8) is acted upon with heating medium. 45 of them 1 sheet of drawings so 55