DE4334163A1 - Safety unit for water heater having heat exchanger heated by burner - has sensing unit for determining temp. of feed water of heating circuit and temp. detector controlling switch for monitoring temp. of feed water - Google Patents

Abstract

The contact (2) of the temp. detector (3) is connected in series with the sensing unit (1). This series circuit is connected with a microprocessor (7,8), the output of which is connected with the coil (13) of a gas regulating valve (14). The valve is arranged in a gas pipeline (15) leading to a burner. The contact (2) of the temp. detector (3) is connected in series with the feed sensing unit (1). This series circuit is connected with two microprocessors (7,8). The two microprocessors are connected with each other across a data exchange channel (9), and the outputs of the microprocessors are connected with a comparator. ADVANTAGES - Number of electrically leads required is drastically reduced. Gives very reliable evaluation of signals of temp. detector. Possible faults in one of microprocessors very reliably identified.

Description

The invention relates to a safety device on egg a heat exchanger heated by a burner Water heater, with a flow sensor to record the temperature a flow water of a heating circuit and one Switch-controlling temperature monitor for monitoring the tempera flow water.

With such safety devices, the flow sensor and the temperature monitor via separate lines with an evaluation circuit connected, the temperature sensor a control scarf tion influenced and a safety shutdown solely by the Evaluation of the signal of the temperature monitor depends.

This has the disadvantage that a relatively large number of Cables are required that must be laid.

The aim of the invention is to avoid these disadvantages and one To propose safety devices of the type mentioned at the outset, with which it was enough with a little assembly effort and with which the desired functions can be realized nen.  

According to the invention this is achieved in that the contact of the Temperature monitor is connected in series with the flow sensor, this series connection with a fail-safe microprocess is connected, the output of which is connected to the coil of a gas Control valve is connected, which lead to a burner in one the gas line is arranged.

In this way it is practical with only one line in which the temperature monitor or its switch turned on is grinded, found enough. This results in one Opening the switch of the temperature monitor due to an over If a limit temperature value is exceeded, the resistance increases of the series connection to an infinite value. That state can be evaluated and processed very easily.

According to a further feature of the invention, a safe unit on a heat rope heated by a burner shear water heater with a flow sensor to the Er Recording the temperature of a flow water in a heating circuit and a temperature monitor controlling a switch Monitoring the temperature of the flow water should be provided that the contact of the temperature monitor in series with the flow sensor is connected, this series connection with two microprocesses sensors is connected and the two microprocessors via a da exchange channel and the outputs are connected microprocessors are connected to a comparator.

The two microprocessors monitor themselves via this channel opposite.  

These measures result in a very reliable evaluation of the Temperature monitor signals. Overheating conditions or possible This will result in errors in one of the two microprocessor channels recognized very safely.

The invention will now be explained in more detail with reference to the drawing, which schematically shows a safety device according to the invention.

The arranged in a flow line of a heating circuit, not shown, flow sensor 1 , the resistance of which changes with the temperature of the flow water, is connected in series to a contact 2 of a temperature monitor 3 , which is also arranged in the flow line.

Via the line 4 and the lines 5 , 6 connected to it , two microprocessors 7 and 8 working in parallel are connected to the series circuit consisting of the temperature sensor 1 and the switch 2 of the temperature monitor 3 . These microprocessors 7 and 8 are in constant data exchange via a data exchange channel 9 .

The outputs of the microprocessors 7 and 8 are connected to a comparator 12 , which compares the output values of the microprocessors 7 and 8 with one another, and can only trigger control of the coil 13 if the signals are the same.

The output of the comparator 12 is connected to the coil 13 of a gas valve 14 which is arranged in a gas line 15 leading to a burner.

In the normal case, the switch 2 of the temperature monitor 3 is closed ge. The switch 2 opens only when a preselected limit temperature is exceeded. As a result, the resistance of the series connection of the flow sensor 1 with the switch 2 of the temperature monitor 3 suddenly changes to the value infinite. This also changes the output signal of the two microprocessors 7 , 8 , which also changes the output signal of the comparator 12 . The coil is switched off. This state is retained even when the temperature monitor 3 cools down and the switch 2 is switched on again; the shutdown remains locked. It can only be canceled by a manually operated, not shown Darge, unlocking button. Automatic unlocking by switching the operating voltage of the two processors on and off is also conceivable. Both types of unlocking are also conceivable for a solution with only one microprocessor.

As a further alternative, it is also possible to replace one of the two processors with a monitoring circuit (watchdog circuit) which is cyclically controlled by the remaining processor and which only outputs an enable signal to the comparator when the processor is functioning properly This way it is ensured that any malfunctions of individual components that occur lead to the valve 14 being switched off.

In normal operation, that is, with switch 2 closed, the steady signal of the sensor 1 is used by at least one of the processors as an actual value signal of a temperature control circuit not shown in all details. The control algorithm is stored in the program of the processor or processors. The control element of this control circuit is the quantity valve 14 , which can be designed both as a continuously acting proportional valve and as a switching valve (open / close).

Claims (3)

1.Safety device on a water heater heated by a burner, with a flow sensor for detecting the temperature of a flow water of a heating circuit and a switch-controlling temperature monitor for monitoring the temperature of the flow water, characterized in that the contact ( 2 ) of the temperature monitor ( 3 ) is connected in series with the flow sensor ( 1 ), this series circuit being connected to a microprocessor ( 7 , 8 ), the output of which is connected to the coil ( 13 ) of a gas control valve ( 14 ) which is arranged in a gas line ( 15 ) leading to a burner. 2.Safety device on a water heater heated by a burner, with a flow sensor for detecting the temperature of a flow water of a heating circuit and a switch controlling the temperature monitor for monitoring the temperature of the flow water, characterized in that the contact ( 2 ) of the temperature monitor ( 3 ) is connected in series with the flow sensor ( 1 ), this series circuit being connected to two microprocessors ( 7 , 8 ) and the two microprocessors ( 7 , 8 ) being connected to one another via a data exchange channel ( 9 ) and the outputs of these microprocessors ( 7 , 8 ) are connected to a comparator ( 12 ). 3. Safety device on a water heater heated by a burner, with a flow sensor for detecting the temperature of a flow water of a heating circuit and a switch-controlling temperature monitor for monitoring the temperature of the flow water, characterized in that the contact ( 2 ) of the temperature monitor ( 3 ) is connected in series with the flow sensor ( 1 ), this series circuit having a microprocessor ( 7 ) and this being connected to a watchdog circuit and the outputs of the microprocessor ( 7 ) and the Watch dog circuit are connected to a comparator ( 12 ).