DE10132682C1 - Operating device for hot water heating system has current generator incorporated in hot water circuit providing current for switching relay connecting electronic control to voltage network - Google Patents

Abstract

The heating system operating device has a current generator (20) integrated in the hot water circuit (10), with a turbine wheel (21) which is rotated by discharge of hot water, for providing an operating voltage for a switching relay, connecting an electronic control (40) to the network voltage. The heating system can have a summer mode and a winter mode, with the electronic control permanently connected to the network voltage upon selection of the winter mode.

Description

The invention relates to an arrangement for operating a fuel-operated Heating system with service and / or heating water circuit by one electrical control is controlled.

State of the art

In the conventional heating systems, the controls must be constantly be ready to respond immediately to heat requests, d. H. a breaking control function to be able to perform. Thereby the heat requirements  from the custom water circuit or heating water circuit come and are operated accordingly by the control.

This operation of the heating system, also called stand-by operation, requires continuous power consumption of a few watts.

In future, due to the Energy Saving Ordinance 2000, the entire electrical energy consumption will be taken into account when calculating the efficiency. The unnecessary stand-by energy consumption has an economic disadvantage.

It is known to use a generator or turbine to run water Power generation can be driven, as EP 0 361 333 B1 shows.

This generator can also be used to switch electrically controlled water valves of a water dispenser are used, such as WO 85/01337 can be seen.

It is an object of the invention to an arrangement of the type mentioned with which standby energy is no longer required in summer.

Advantages of the invention

This object is achieved according to the invention in that in the custom A power generator is integrated in the water circuit when hot water is withdrawn  a power-on switching means triggers that the power on switching means connects the control with the mains voltage and that the control If the control requirements are pending, even the mains connection switching means in the response state until they are processed.

The control system does not require any electrical energy in the waiting state. The one in Custom water circuit integrated power generator - generator and turbine - is driven when domestic water is withdrawn and generates electrical Power that is sufficient to respond to a power supply switching device.

This switches the control to the mains voltage so that it is pending Can take control requests. There are no control requirements then the mains supply can be Switch-on switching means can be switched off again. Are control requests changes, then the control takes over until it is processed Maintaining the power supply switching means in the response state. This operating as the heating system is particularly advantageous for summer operation.

Holding the power supply switching means in the response state becomes after an embodiment simply achieved by switching on the Control this a holding circuit for the power supply switching means switches and that the control after processing the to be carried out Control functions switches off the holding circuit.

In winter operation, it can then simply be provided that with a heating system system with summer and winter operation, the mains switch-on means in winter operation  is constantly kept in the response state, which is preferably due to this it takes place that the power supply switching means by means of a winter operation Selection switch can be switched on continuously.

According to a further embodiment, the structure according to the invention can thereby be varied so that the controller has no output terminals to hold the Mains connection means in the response state. This means that the control follows directly the on-off state of the generator.

A switching relay is preferably used as the mains connection switching means, that switches the control to the mains voltage with contacts, so that this for control functions to be carried out, electrical energy from the network can take.

Winter operation can also be modified so that the Stromer generator feeds an energy storage device that operates during winter operation and is switched off Power supply switching means the supply of the monitoring means for heat claims, d. H. Control requirements, takes over, and that the Superv switch on the mains voltage to the control. In usage-free The power supply to the controller can be switched off at times.

drawing

The invention is explained in more detail using a circuit diagram.  

embodiment

In the custom water circuit 10 , an impeller 21 of a generator 20 is introduced, which is rotated by the flowing in the custom water circuit and removed NEM hot water in rotary motion, namely during the entire time of removal. In this case, the generator 20 outputs a voltage at its outputs 22 , which brings an activated switching relay as the power-on switching means 30 to response. A diode 32 prevents the influence of the holding circuit A1 and A2 on the generator 20 . With the response of the power switch 30 , contacts 31 are closed, which turn on the power ~ to the controller 40 of the heating system. The controller 40 also closes a holding circuit via A1 and A2 for the mains switch-on means 30 , so that it remains switched on even after the completion of the hot water withdrawal if the controller 40 has to put the heating system into operation due to pending and occurring heat requirements , e.g. B. must control the ignition of the burner and the supply of fuel. The holding circuit via A1 and A2 for the power supply switching means 30 is maintained until no further control functions are to be carried out by the control. The shutdown of the holding circuit A1 and A2 is in this case independent of the operation of the generator 20 and the hot water withdrawal.

If there are no heat requirements and thus control requirements after the response of the mains connection switching means 30 in the control 40 , then the switching on of the holding circuit to the mains connection switching means 30 can be omitted and with the termination of the hot water withdrawal, the mains connection switching means 30 switched off because the generator 20 no longer emits electrical energy. With this operation, which preferably runs when the heating water circuit is switched off in summer, there is no stand-by energy during times when there is no hot water consumption, so that the efficiency of the heating system is improved according to the new energy saving regulation.

If hot water and heating water circuits are in operation in winter, then the mains switch-on means 30 can be switched on continuously in a simple manner by means of a winter operating switch to be closed. The controller 40 can therefore immediately respond to heat requests with control functions.

According to one embodiment, winter operation can also be modified in such a way that the generator 20 feeds an energy store that stores enough energy to provide the energy for supplying the monitoring means for occurring heat requirements when the mains connection switching means 30 is switched off, so that also In winter operation, no stand-by energy has to be delivered from the mains voltage, but only when control functions are carried out by the controller 40 . The switched on monitoring means then switch the mains voltage to the controller 40 .

Claims (7)

1. Arrangement for operating a fuel-operated heating system with a service and / or heating water circuit, which is controlled by an electrical control, characterized in that
that a power generator ( 20 ) is integrated in the domestic water circuit ( 10 ), which triggers a mains connection switching means ( 30 ) when domestic water is drawn,
that the mains connection switching means ( 30 ) connects the controller ( 40 ) to the mains voltage (~) and
that the controller ( 40 ) itself keeps the power supply switching means ( 30 ) in the response state until the processing of the control requests. 2. Arrangement according to claim 1, characterized in that with the switching on ( 31 ) of the controller ( 40 ) this switches a holding circuit (A1, A2) for the power supply switching means ( 30 ) and that the controller ( 40 ) after processing of the control functions to be performed switches off the holding circuit (A1, A2). 3. Arrangement according to claim 1 or 2, characterized in that in a heating system with summer and winter operation, the mains switch-on means ( 30 ) is kept in the response state in winter operation. 4. Arrangement according to claim 3, characterized in that the mains connection switching means ( 30 ) can be switched on continuously by means of a winter operation selection switch. 5. Arrangement according to one of claims 1 to 4, characterized in that the holding current outputs (A1, A2) of the controller ( 40 ) are omitted and the controller ( 40 ) directly follows the on-off cycle of the power generator ( 20 ). 6. Arrangement according to one of claims 1 to 5, characterized in that a switching relay is used as the mains switch-on means ( 30 ) which carries out the switching on and off of the mains voltage (~) for the controller ( 40 ) with contacts ( 31 ) , 7. Arrangement according to one of claims 1 to 6, characterized in
that the power generator ( 20 ) feeds an energy store, which takes over the supply of the monitoring means for heat requests, ie control requests, during winter operation and switched off power supply switching means ( 30 ), and
that the monitoring means switch on the mains voltage to the controller ( 40 ).