DE2558509A1 - Control unit for electric flow heater - has differential pressure switch operated by venturi tube with pipe bypass sections - Google Patents

Abstract

The flow heater switch has a multistage switching device for connection or disconnection in steps of individual heaters in the heated vessel. A temperature sensor is provided at the vessel outlet, which also controls the heater switching. A by-pass pipe for temperature adjustment is provided. The centuri (6) is by-passed by a pipe (7) with a valve (8) controlled by the temp sensor (11) through a control element (10). It opens when the temp at the water outlet exceed a value above the maximum temp which can be set at the first by-pass.

Description

Control device for a water heater.

The invention relates to a control device for a, in particular electric water heater with a one arranged in the water flow path Venturi nozzle actuatable differential pressure switch, which is a multi-stage switching device for the step-by-step connection or disconnection of individual ones that become effective in the heating tank Power levels switches, with a temperature sensor arranged in the heating container outlet which influences the switching of the power levels, and a mixer tap is provided by means of which the water flow path is bridged depending on the selected water temperature is.

In German Offenlegungsschrift 2 355 988 there is one such performance-controlled instantaneous water heater described.

The actuator connected to the temperature sensor acts in this case directly to the multi-stage switching device on and switches decrease this by one or more levels when the temperature in the heating container outlet exceeds a certain value. This creates one or more power levels switched off, so that overall the water heating takes place with reduced power.

In the case of output-controlled instantaneous water heaters, there are significant disturbance variables the possible fluctuation of the cold water temperature from 50C to 150C, fluctuations the water pressure up to a maximum of 10 bar as well as possible fluctuations in the mains voltage from + 6% to - 10. These fluctuations do not occur in the entire fluctuation range in a certain water or electricity network, but are on the area of Federal Republic related.

Another factor to consider is that the actual radiator output, with which the heating container of the flow heater is heated, due to the tolerances the radiator can deviate from the nominal output by 10%. Despite these disturbances the tap water should have a temperature constancy of - 1 K. The temperature selection range should be between 35 ° C and 55 ° C. In addition, it should also be chosen with a Temperature of 400C a relatively small draw-off rate of, for example, 4.5 1 / min can be taken from the water heater.

The object of the invention is to create a control device with the fluctuations in the selected temperature compared to the tap water temperature, in particular even with different flow rates and / or deviating from the nominal values Network conditions can be kept small without the use of full heating power is limited.

According to the invention, in a control device of the type mentioned above the Venturi nozzle is bridged by a bypass line in which a valve is arranged is-t, the valve is controlled by the temperature sensor via an actuator and opens when the temperature in the heating tank outlet is a certain above the the mixer tap exceeds the maximum temperature that can be selected. if the valve, preferably opens at about 600C>, a partial flow of the water flows through the bypass line into the heating tank. To this partial flow is the through the venturi nozzle reduces the amount of water flowing, so that over the differential pressure switch and the switching device, the number of switched on radiators and thus the Heating power is reduced. If the temperature in the heating container outlet then drops, the valve closes. This increases the flow of water through the Venturi nozzle. This leads to the reactivation of the radiators. The temperature fluctuations occur during operation of the hot water in the heating tank between approx. 600C and 750C.

An inventive embodiment of said control device is it can be seen that an adjustable throttle valve is provided in the water flow path is that limits the maximum amount of water that can run through the heating tank. The throttle valve is set at the installation site of the flow heater so that the maximum possible draw-off quantity, i.e.

fully open nozzle the full heating power of the device, i.e. all power levels, just remain switched on permanently. This achieves that the full heating power is always in operation regardless of the selected temperature is switched on when the user has fully opened the nozzle. Because of the throttle valve is at the beginning of the tapping, as long as the water heater is still is cold, the amount drawn off is less than after a certain operating time, because then a Cold water is added via the mixer tap. This is due to the Throttle valve, the amount of water flowing through the Venturi nozzle is at most insignificant reduced, so that none of the power stages shut down, such a shutdown only takes place when the water in the heating tank outlet is so hot that the The valve in the bypass line controlled by the temperature sensor opens.

Another inventive embodiment of the control device described consists in that a differential pressure valve is connected in the water flow path is where with small Flow rates a minimum pressure drop occurs. As a result, the occurrence is independent of the respective flow rate a pressure drop in the water flow path bridged by the mixer tap guaranteed. This pressure drop is necessary to achieve the desired control accuracy the mixer valve of the mixer taps.

Overall, particular advantages of the control device can be seen in the fact that that at the installation site of the device the adjustment or adaptation to the local Values of the network pressure, the cold water temperature and the voltage of the electrical Network is possible by setting the throttle valve. With this attitude The control device then offers the required high level of control accuracy for the tap water temperature.

The high level of control accuracy is both small and large Dispensed quantities given.

Advantageous embodiments of the invention emerge from the following Drawing description. The figure shows a control device schematically.

A flow heater has a heating container 1. This one will heated by a total of 9 radiators. 3 radiators of the same output form the basic output, those involved in the operation of the Water heater is at least switched on is. The basic output is 1/4 of the nominal output of the instantaneous water heater.

The remaining 6 radiators also have the same output and can be switched on one after the other. The three that represent the basic performance Radiators are soldered to the outside of the heating container 1. The six remaining radiators are arranged inside the container. You are therefore in the water.

The heating container 1 is connected to a water inlet 2 and a water outlet 3 connected. A throttle valve 4 is connected in series in inlet 2, a differential pressure valve 5 and a venturi nozzle 6.

The Venturi nozzle 6 is bridged by a bypass line 7, in a valve 8 with a valve cone 9 is switched on.

The valve cone 9 is connected to an actuator 10. The actuator 10 is influenced by a temperature sensor 11 arranged in the outlet 3. As soon as the water temperature in the outlet reaches a certain temperature, for example 600, an expansion medium contained in the sensor 11 expands in such a way that that the valve cone 9 is opened via the actuator 10. At lower temperatures the closed position of the valve cone 9 is under the action of a return spring 12 taken.

The outlet 3 opens into the warm side of a mixer tap 13.

The venturi nozzle is on the inlet side on the cold side of the mixer tap 13 connected. The mixed water outlet 14 and on is located on the warm side the cold side of the cold water inlet 15. The water flow path that can be bridged by the mixer tap thus leads through the Venturi nozzle 6 - with the valve cone 9 open, parallel to this through the bypass line 7 - through the differential pressure valve 5, the throttle valve 4, the heating tank 1 and the outlet 3.

The mixer tap 13 works with a valve body 16 of a Expansion element 17 is thermostatically controlled.

The expansion element 17 can be preset for temperature selection.

The temperature can be selected in a range from 350C to 550C. The hot side - the mixer tap 13 is followed by a nozzle 18.

To the Venturi nozzle is a high-pressure line 19 and a Line 20 on the low pressure side is connected to a differential pressure switch 21. With this becomes the difference between the pressures in front of and in the Venturi nozzle in a known manner 6 evaluated to generate a mechanical switching movement. The differential pressure switch 21 has a switch plunger 22 which is fastened to its membrane 23. Of the Shift tappet 22 actuates a 7-stage switching mechanism 24. There is one linear Dependence between the amount of water flowing through the venturi nozzle and the stroke movement of the plunger is desired and here neither the one required to operate the rear derailleur Minimum force undershot1 or one that exceeds the load-bearing capacity of the individual parts Force may be exceeded, the differential pressure switch is designed in such a way that that the membrane 23 is supported on a flange with increasing stroke, so that their effective cross-section is reduced.

The switching mechanism is, for example, with a water heater a nominal output of 21 kW adjusted so that the first stage with a nominal response quantity of 1.3 1 / min switches on. The second to seventh power levels switch one after the other with throughput quantities of 1.5; 1.9; 2.5; 3.2; 3.8; 4.4 rpm. With a water heater with a lower rated power, these values are correspondingly lower for one Instantaneous water heaters with higher rated output are correspondingly higher. The nominal response quantities are determined taking into account the requirement that after exceeding a certain minimum flow rate, the hot water temperature in outlet 3 is higher must be than the maximum that can be set by the user on the thermostatic mixing valve Temperature of 550C. The minimum flow rate from which the water temperature in the container outlet must be higher than that selectable maximum temperature results from the fact that at a selected temperature of 400 the draw-off rate up to 4.5 1 / min should be downgraded.

The setting of the flow rate at which the seventh power level switches on, takes place by means of a nozzle bypass 25 on the Venturi nozzle 6. The above Adjustment work is carried out at the factory.

The differential pressure valve 5 has a spring under the pressure 26 standing valve body 27 with a bore 28.

The cross section of the bore 28 is much smaller than the cross section of the water flow path in the rest. Seals at a flow rate below 2 l / min the valve body 27 and only the bore 28 can flow water. As a consequence, that in front of the differential pressure valve 27 there is a higher pressure than behind it. This pressure difference is at least 0.5 bar. By this artificially generated Pressure drop is achieved that the mixer 13 with the required control accuracy is working. With larger flow rates, the valve body 27 opens and obstructs the free water only passes a little.

The throttle valve 4 has an adjusting screw 29 with which the passage cross section is adjustable. At the installation site becomes the the water flow path the amount of water flowing through by adjusting the screw 29 depending on the local area Limited conditions. The screw is adjusted so that when fully open The nozzle 18 is switched on at full power at each selectable temperature.

This ensures that when the user the nozzle is full first opens all power levels are switched on, what a quick one Heating is favorable.

The overall effect of the control device during operation is as follows: Assuming that the user has fully opened the nozzle, switch all radiator levels on. The flow rate is limited by the throttle valve. The water heated in the heating tank 1 flows through the mixer tap to the outlet. If the water temperature is higher than the one selected on the mixer tap, it opens the valve body 16 and cold water is added in an appropriate amount. The addition of cold water reduces the throughput thanks to the throttle valve the amount of water flowing through the heating container. The amount drawn off is based on the proportion of added cold water enlarged.

As soon as the temperature in the outlet exceeds 3,600C, the opens Valve cone 9. The flow of water through the venturi nozzle 6 is due to this decreased. The number of switched on is thus via the differential pressure switch 21 Radiator decreased. As a result, the temperature in outlet 3 drops as soon as it does If it falls below 600C, the valve cone 9 is closed again. It'll be back now all radiators switched on. The shape of the valve cone 9 are the temperature fluctuations of the tank water and the switching frequency of the individual Performance levels essentially determined. The specific stroke of the actuator 10 is about 0.1 mm / K.

If the user sets the flow rate at the nozzle 18, for example back to 4.5 1 / min, then with a water heater with 18 kW or 21 kW all seven power levels at the start of tapping, i.e. switched on when the device is cold.

In the case of a water heater with a nominal output of 24 kW, only the first six stages switched on. At this flow rate, the water becomes in the heating container 1 initially heated to a higher temperature than at a higher temperature Flow rate. Accordingly, the valve 8 opens more, so that the power is switched back further. The differential pressure valve 5 is at the flow rate mentioned still open.

The larger temperature fluctuations with smaller flow rates of the heating tank water are via the thermostatically controlled valve body 16 of the mixer tap 13 balanced.

With even lower throughput quantities, there are only fewer from the outset Heating levels switched on. The one necessary for the safe functioning of the mixer tap Differential pressure between the warm and cold side is at very small flow rates generated in that the differential pressure valve 5 closes and the bore 28 a sufficient pressure drop is generated.

So that the installer can easily see when setting the throttle valve can determine when all power levels are switched on, is at the switchgear 24, resp. the part actuated by the plunger 22 has a pointer attached, which is factory-fitted with a pointer attached mark is aligned when all power levels are switched on.

L e r s e i t e

Claims (11)

Claims control device for a, in particular electrical, Instantaneous water heater with a Venturi nozzle arranged in the water flow path operable differential pressure switch, which is a multi-stage switching device for Step-by-step connection and disconnection of individual power levels that take effect in the heating tank switches, with a temperature sensor being arranged in the heating container outlet, which influences the switching of the power levels, and a mixer tap is provided, by means of which the water flow path is bridged depending on the selected water temperature is, characterized in that the Venturi nozzle (6) from a bypass duct (7) is bridged, in which a valve (8) is arranged, and that the valve (8) is controlled by the temperature sensor (11) via an actuator (10) and opens, if the temperature in the heating tank outlet (3) is above that of the Mixer tap (13) exceeds the selectable maximum temperature. 2. Control device according to claim 1, characterized in that the temperature at which the valve (8) opens at 600C and that at the mixer tap (13) selectable maximum temperature is 550C. 3. Control device according to claim 1 or 2, characterized in that that the temperature sensor (11) is filled with an expansion medium, which on the Actuator (10) acts. 4. Control device according to one of the preceding claims, characterized characterized in that the Venturi nozzle (6) is in the heating container inlet (?.). 5. Control device according to one of the preceding claims, characterized characterized in that a 7-stage switching device (24) is provided. 6. Control device for a flow heater, especially after one of the preceding claims, characterized in that in the water flow path (6, 5, 4, 2, 1, 3) an adjustable throttle valve (4, 29) is provided that the the maximum amount of water running through the heating tank (1) is limited. 7. Control device according to claim 6, characterized in that the Throttle valve (4) arranged in the heating tank inlet (2) behind the Venturi nozzle (6) is. 8. Control device for a water heater, in particular according to one or more of the preceding claims, characterized in that in the water flow path (6, 5, 4, 2, 1, 3) is connected to a differential pressure valve (5) is at which a minimum pressure drop occurs with small flow rates. 9. Control device according to claim 8, characterized in that the differential pressure valve (5) is arranged in front of or behind the Venturi nozzle (6). 10. Control device according to claim 8 or 9, characterized in that that the valve body (27) of the differential pressure valve (5) is a disc with a bore (28) is inserted. 11. Control device according to one of the preceding claims, characterized characterized in that the switching device (24) is switched on and off in the course of the connection or disconnection the power levels has moving hands.