EP1650507A1 - Security interrupting device for a water heater. - Google Patents

Abstract

The safety breaker (21) is for a water heater (10) which has a heater unit (14) and switch unit (16) to switch the heater unit on and off in dependence upon a signal from a flow sensor (30). A safety switch unit (23,24) is in purely mechanical communication with a thermo-mechanical element (26) which is connected to a temperature sensor (25) in a heat transmitting manner so that following an over-limit temperature recorded by the temperature sensor a purely mechanical opening of the safety switch unit takes place. An independent claim is included for a water heater equipped with the aforesaid safety breaker.

Description

The invention relates to a safety interruption device for a water heater, in particular a water heater, with a switching device for interrupting heater supply lines of the water heater, wherein the switching device is connected to a temperature sensor, so that causes an interruption of the switching device as a result of a temperature detected by the temperature sensor detected is, and the switching device is mechanically connected to a pressure sensor, so that due to a detected by the pressure sensor pressure exceeding a certain pressure, an interruption of the switching device is mechanically effected.

Such a safety interruption device is known from DE 101 04 438 A1, which comprises a coil and a displaceable therein anchor pin for interrupting corresponding electrical contacts. In this case, temperature signals are processed in a control unit which electrically controls the coil for displacement of the anchor pin. In case of failure of the electrical supply of the control unit or the electrical control of the coil, however, the temperature monitoring function of the safety interruption device may be at risk.

Other related safety interruption devices are known from DE 92 02 892.6 U and DE 195 25 313 C2.

The object of the invention is to provide a simple safety interruption device with temperature and pressure monitoring, which has a high degree of reliability.

The invention solves this problem in particular by the fact that the switching device is purely mechanically connected to a thermo-mechanical element which is heat-transmitting connected to the temperature sensor, so that as a result of the temperature sensor detected temperature value exceeded purely mechanical an interruption of the switching device is effected. Due to the absence of electrical or electromechanical transmission means between the temperature sensor and the switching device, the function of temperature monitoring is not affected by a complete or partial failure of the supply voltage, whereby the reliability of the water heater is increased overall. Furthermore, a simplification of the structure of the interruption device can be achieved.

A purely mechanical connection means that neither electrical nor electromechanical transmission means are used, but hydraulic or pneumatic transmission means are not excluded. A thermo-mechanical element refers to an element in which a temperature change is converted into a movement. A simple and therefore preferred thermo-mechanical element is a bimetallic element. The invention is not limited thereto. It is also conceivable, for example, a based on the thermal expansion of a liquid element.

The switching device expediently has a snap-action mechanism for interrupting the heating cables, in order to allow a sudden opening of the electrical contacts and to prevent them from welding together. One aspect of the invention is therefore to use the same snap mechanism for both the temperature shutdown and for the pressure shutdown, which significantly reduces the expense of separate shutdown mechanisms.

Fig. 1:

eine schematische Darstellung einer Ausführungsform eines Durchlauferhitzers.

Further advantageous features will become apparent from the following description of advantageous embodiments with reference to the accompanying drawings. Show it:

Fig. 1:

a schematic representation of an embodiment of a water heater.

A water heater 10 comprises a heating chamber 13 between the water inlet 11 and the water outlet 12. In the heating chamber 13, a heater 14 is arranged, having one or more heating elements, not shown, for heating water flowing through the heating chamber 13. The power supply of the heater 14 by means of supply lines 15, which are connected for example to a supply network. For user-side switching on and off of the water heater 10 or for setting different heat levels, a switching unit 16 may be provided, which may be controllable, for example by means of a control device 17, such as a microprocessor. The control device 17 is connected via lines 18 to supply lines 15b, 15c.

For monitoring the water pressure, a pressure sensor 19 is provided, for example, in the heating chamber 13. This may, for example, simply be the open end of a pressure line 20. The pressure line 20 transmits the water pressure to the safety interrupter 21 or to a switching mechanism 23 arranged in the interrupter 21 and has for this purpose a pressure input 22 and a corresponding feedthrough. The switching mechanism 23 is used for the coupled operation of switches 24, wherein each switch 24 is connected in each case one of the supply lines 15. If the water pressure in the heating chamber 13 exceeds a certain pressure, the pressure signal transmitted by means of the pressure line 20 triggers the switching mechanism 23 to interrupt the switches 24 and thus to completely disconnect the supply lines 15 from the mains. The switching mechanism 23 is designed to prevent welding of the contacts as a snap mechanism, so that the opening of the switch 24 is abrupt. Conveniently, a pressure transducer is provided as part of the switching mechanism 23, as part of the pressure sensor 19, or anywhere between the pressure sensor 19 and the switching mechanism 23, for example in the form of a piston cylinder or diaphragm to convert the pressure of water detected by the pressure sensor 19 into motion , which is transmitted purely mechanically to the switching mechanism 23. The transmission of the pressure signal is carried out without external energy, in particular without related to the utility services 15 electrical energy, so that in case of failure of the supply lines 15a, 15b, 15c, the pressure monitoring is not affected.

For monitoring the temperature of the water heater 10, a temperature sensor 25 is provided, which is conveniently located in the vicinity of the heater 14, but this need not necessarily be the case. The measured temperature is transmitted to a thermo-mechanical element, for example in the form of a bimetallic strip 26. This can be done for example by means of a thermal bridge 27, for example, from a good heat conductive metal, such as brass or copper. Exceeds the temperature measured by the temperature sensor 25 or transmitted by the temperature bridge 27 a certain threshold temperature, causes the thermo-mechanical element 26 - for example, by sufficient bending in the case of a bimetallic strip - a guided movement to the same switching mechanism 23 for interrupting the same switch 24th and thus transferred to the complete separation of the supply lines 15 from the network. The interruption device 21 has a temperature input 28 and a corresponding feedthrough for this purpose. The thermo-mechanical element 26 serves as a mechanical temperature converter for converting the temperature into a movement which is transmitted purely mechanically to the switching mechanism 23. The transmission of the temperature signal is carried out without external energy, in particular without the utility services 15 related electrical energy, so that in case of failure of the supply lines 15a, 15b, 15c, the temperature monitoring is not affected.

The drawing is to be understood schematically in terms of temperature monitoring. Since the heat conduction is relatively sluggish in practice, the thermo-mechanical element 26 is preferably arranged at a short distance from the temperature sensor 25. This can be achieved, for example, that the temperature sensor 25 is part of the interruption device 21, for example in the form of a metallic bottom plate of the same. The interruption device 21 is therefore preferably arranged in the vicinity of the heating chamber 13 or connected thereto.

Instead of the temperature monitoring shown in Fig. 1, for example, a conduit may be provided with a liquid which expands when the temperature rises, the extent of which is converted into a movement, for example by means of a piston. This line can be the function of the thermo-mechanical element 26 and optionally also the temperature sensor 25 and the intermediate thermal bridge 27 meet. The bimetallic strip 26 of FIG. 1 is then unnecessary. In another embodiment, the thermo-mechanical element 26 and the interruption device 21 may be arranged separately from one another spatially separated from one another, the transmission of the temperature signal between the two devices being purely mechanical.

Especially with a plurality of heating elements, a detection of the temperature at several points may be expedient. For this purpose, a plurality of temperature sensors 25 may be provided, which are each connected to the thermo-mechanical element 26 and are arranged, for example, in each case in the vicinity of a heating element, or a spatially extended, for example, elongated, temperature sensor 25 covering a plurality of heating elements.

After the triggering of the switching device 23, 24, this can be reset again when the triggering condition (temperature or pressure exceeded) is no longer present, thereby closing the switch 24 and to allow a continuation of normal operation.

Claims (6)

Safety interruption device (21) for a water heater (10), having a switching device (23, 24) for interrupting heater supply lines (15) of the water heater (10), wherein the switching device (23, 24) is provided with a temperature sensor (25). is connected, so that as a result of one of the temperature sensor (25) detected temperature value exceeding an interruption of the switching device (23, 24) is effected, and the switching means (23, 24) with a pressure sensor (19) is mechanically connected, so that as a result of an interruption of the switching device (23, 24) is mechanically effected, characterized in that the switching device (23, 24) is purely mechanically connected to a thermo-mechanical element (26), the heat-transmitting with the temperature sensor (25 ) Is connected, so that as a result of one of the temperature sensor (25) detected temperature exceeded purely mechanical egg interruption of the switching device (23, 24) is effected. Safety interruption device according to claim 1, characterized in that the thermo-mechanical element (26) is a bimetallic element. Safety interruption device according to claim 1 or 2, characterized in that the thermo-mechanical element (26) is arranged in the interruption device (21). Safety interruption device according to one of Claims 1 to 3, characterized in that the temperature sensor (25) is part of the interruption device (21). Safety interruption device according to claim 1 or 2, characterized in that the switching device (23, 24) has a snap mechanism. Water heater (10) having a heating device (14) supplied by means of supply lines (15) and a safety interrupt device (21) according to one of claims 1 to 3 for the supply lines (15) of the water heater (10).

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