AT407323B - ELECTRIC WATER HEATER - Google Patents

Description

AT 407 323 B

The invention relates to an instantaneous water heater according to the preamble of claim 1.

With such electric instantaneous water heaters, the problem arises that the dispensing outlet temperature is controlled by the specification directly on the device or a remote control during economical operation. This has the disadvantage that the tap temperature cannot be set directly at the point of use or the tap.

The aim of the invention is to avoid these disadvantages and to propose an instantaneous water heater in which a predetermined outlet temperature can be ensured at each tap.

According to the invention this is achieved in a water heater of the type mentioned by the characterizing features of claim 1.

The proposed measures ensure that a tap is detected at any tap and the temperature of the water flowing out of the instantaneous water heater is set on the basis of the desired value assigned to the tap in question so that the desired outlet temperature is reached at the tap in question. For example, the outlet temperature in a shower can be set to a temperature of less than 42 ° C, thereby safely avoiding scalding.

It can also be provided that priorities of tapping points are determined with simultaneous tapping at several tapping points.

The type of sensors can be chosen arbitrarily. So sensors can be provided in the form of paddle switches with which the operating state "tap opened" and "tap closed" can be recognized.

In these sensors, which are known per se, a movable flow resistance is inserted into a tube. When the tap is opened, the position of the resistance is shifted due to the onset of flow in the pipe. This change in position is detected by an electrical sensor, e.g. detected a Hall sensor and forwarded it to the control of the instantaneous water heater as an electrical signal.

Furthermore, the sensors can also be designed in the form of anemometers. In these, a flow in a tube is detected via the rotation of an impeller in this tube. If a flow is formed in the pipe by opening a tap, the impeller begins to turn. This rotation is recognized by an electrical sensor and transmitted to the control of the instantaneous water heater.

In addition, the sensor can also be formed by a hot wire element. In such a sensor, a wire is arranged in a flow channel and is heated by means of electric current. The temperature of the wire is kept constant. If a tap flows through a service water line and thus a sensor when the tap is opened, the cooling of the hot wire element changes and the current flow through it changes. This change in the current flowing through the hot wire element, which is detected by an electrical sensor, is passed on to the control of the instantaneous water heater.

The features of claim 2 result in a very simple constructive solution. A very simple assembly of the sensors is also ensured.

The features of claim 3 result in the advantage of a very compact arrangement, an optional spigot being possible at one of two or more tapping points. Due to the arrangement of one sensor at each of the outputs of the hydraulic switch, it is possible to supply the tap points with process water at different outlet temperatures.

The invention will now be explained in more detail with reference to the drawing. 1 and 2 schematically show different embodiments of electrical instantaneous water heaters according to the invention.

In the embodiment according to FIG. 1, an electrically heated instantaneous water heater 1 is connected to two independent tapping points 2, 21 via two process water pipes 5, 51.

In each of these process water pipes 5, 51 there is a sensor 3, 31 with which a tap can be detected. These sensors 3, 31 are connected via signal lines 4, 41 to a controller 7 integrated in the instantaneous water heater 1, in which a separate setpoint for each tap 2, 21 is set via an adjuster 8, 81 of the outlet temperature at the relevant tap 2, 21 2

Claims (3)

AT 407 323 B is entered. Now e.g. tapped at the tap 21, the outlet temperature of the instantaneous water heater 1 is adjusted to a value at which the desired tap temperature, which is predetermined by the setpoint, results at the tap 21, i.e. the heat losses in the area of the domestic water line 51 are taken into account. The embodiment according to FIG. 2 differs from that according to FIG. 1 in that a hydraulic switch 6 is connected directly to the water heater 1, at the outputs of which the service water pipes 5 and 51 are connected, which lead to the tapping points 2, 21 . In the area of the outputs of the hydraulic switch 6 sensors 3, 31 are integrated into the latter, which are connected to the controller 7 of the instantaneous water heater 1 via signal lines 42. In this embodiment too, different setpoints for the tap temperature can be assigned to each of the two sensors 3, 31 or the tapping points 2, 21 and these values can be entered into the control. The temperature to which the contents of the instantaneous water heater are heated is determined by the controller as a function of the tap 2.21 at which the tap is drawn. PATENT CLAIMS: 1. Electric instantaneous water heater for supplying at least one tap (2, 21), which is connected via a service water line (5, 51) to the electric instantaneous water heater (1), which is provided with a control that determines the temperature of the water flowing through, characterized in that that a sensor (3, 31) is arranged in each service water line (5, 51) leading to a tap point (2, 21), which serves to detect a tap and is connected to the control of the instantaneous water heater (1), which controls a temperature The setpoint for each tap (2, 21) is entered using an adjuster (8, 81). 2. instantaneous water heater according to claim 1, characterized in that each sensor (3, 31) is arranged in a pipe section which is inserted into a service water line (5, 51). 3. instantaneous water heater according to claim 1, characterized in that the sensors (3, 31) are arranged in the outputs of a hydraulic switch (6), to which the hot water pipes (5, 51) leading to a tap (2, 21) each are. HERE 1 SHEET OF DRAWINGS 3