NL9101435A - Heating device and method for controlling it - Google Patents

Abstract

A method for controlling a combined heating device for space and water heating, comprising a burner, a principal heat exchanger, in which a heat-transfer medium can be heated by the burner, a water heat exchanger, in which water can be heated by the heat-transfer medium, at least one space heat exchanger, which is able to emit heat from the heat-transfer medium to a space, connecting lines between the heat exchangers, in which a two-way valve is accommodated, which in a first position guides heat- transfer medium from the principal heat exchanger through the water heat exchanger, and in a second position through the space heat exchanger. This method comprises the detection of the temperature of the water, the temperature of the space and the temperature of the heat- transfer medium which is fed into the water heat exchanger, switching on the burner when the detected water temperature and/or the detected space temperature is/are below a respective predetermined value, positioning the two-way valve in the first position when the water temperature is below a predetermined level, positioning the two-way valve in the second position when only the detected space temperature is below a predetermined level and, when both the water temperature and the space temperature are below the predetermined levels and the detected temperature of the heat-transfer medium which is fed into the water heat exchanger is above a predetermined level, cyclically positioning the two-way valve in the second position for a first predetermined time and in the first position for a second predetermined time.

Description

HEATING DEVICE AND METHOD FOR DRIVING THEREOF

The invention relates to a method for controlling a combined heating device for space and tap water heating. In order to achieve a sufficient efficiency, such devices are generally designed in such a way that the burner thereof has a capacity which is just sufficient for heating all connected rooms under certain unfavorable weather conditions.

The power required to heat tap water is at least a considerable part of the capacity of the burner of the boiler. The burner used in such a heating device is therefore not able to supply sufficient thermal energy for simultaneously heating the serviced spaces and heating tap water. For this reason, use is made of a two-way valve that sends heat transfer medium heated by the burner to the space heating circuit or to the tap water heat exchanger. If a room thermostat switches on, which means that heat must be supplied to the room in question, the boiler burner is switched on, the two-way valve ensuring that the heat transport medium is indeed conducted to the space heating circuit. However, if hot tap water is desired at the same time, a conflict arises. The burner does not have enough power to meet both heat demands.

For obvious reasons, in such a known device, the tap water heat exchanger has priority in such a known device and the two-way valve is switched to the position in which the heat transport medium is guided to the tap water heat exchanger. If hot tap water is only required for a short time, such an effect has no noticeable influence on space heating.

However, when hot tap water is desired for a longer period of time, for example for filling a bath or if a number of persons use the shower one after the other, it is noticeable that the space heating circuit has been deactivated. This is all the more noticeable, as the weather conditions are less favorable and a greater proportion of the burner capacity is used.

The object of the invention is now to provide a method for controlling a heating device of the present type, which obviates this drawback.

This object is achieved with the method as claimed in claim 1. When the temperature of the heat transport medium supplied in the tap water heat exchanger is above the determined value, this means that the heating device is well at operating temperature. The amount of heat supplied to the tap water heat exchanger per unit of time is therefore higher than if the heating device were not yet at operating temperature. This is utilized by temporarily switching to space heating, even when hot tap water is requested. This ensures that space heating continues to operate even with long-term demand for domestic hot water, although this may not be at the full requested capacity.

A further development of the method according to the invention is characterized in claim 2. The lower position of the burner is mainly used when relatively little heat is required, for instance in favorable weather conditions. By using the high position of the burner for generating heat which is supplied to the tap water heat exchanger, with a simultaneous demand for heat for space heating and for tap water heating, the method according to the invention maintains a considerable capacity of the heating device for heating the serviced spaces.

The measure of claim 3 achieves a more precise adaptation to the requested heating capacity.

The invention also relates to and provides a heating device for space and tap water heating. This device is characterized in claim 4. The device is provided with a control device which makes the device function according to the above-described method according to the invention.

Advantageous embodiments of the heating device are characterized in claims 5 and 6.

The invention will be further elucidated in the following description with reference to the attached figure.

The figure schematically shows a preferred embodiment of the heating device according to the invention, with the parts having a function in the method according to the invention.

The heating device generally indicated by 1 comprises a heating boiler 2 in which a burner 3 is arranged. This burner 3 is connected to a gas supply pipe 4 via a gas tap 5.

Air can also be forced to be supplied to the boiler via the air supply pipe 6, by means of the fan 7. The gas tap 5 and the fan 7 are switched on and off by the control device 8, which is indicated schematically.

The boiler 2 also contains a heat exchanger 10, which is part of a cycle 11 of a heat transport medium. The heat transport medium in the circuit 11 can be circulated and maintained with the aid of a circulation pump 12. Switching the pump 12 on and off can also be controlled by the control device 8.

The heating device 1 is intended for heating a room schematically indicated by 13. A number of convectors 14 are arranged in this space, through which the heat transport medium can flow in order to transfer heat to the space 13. The space 13 is symbolically intended and represents, for example, all heated spaces of a house.

In addition to the heat released in heating boiler 2 being used for heating space 13, it is also used for heating tap water. This takes place in a tap water heating device 15, which will further be referred to as boiler 15. This boiler 15 comprises a reservoir 18 in which a heat exchanger 17 is arranged. Heat transfer medium heated in the heat exchanger 10 of the boiler 2 can flow through the heat exchanger 17 in a manner to be described in more detail yet. The heat transport medium flowing through the heat exchanger 17 gives off heat to tap water present in the reservoir, which is supplied from the water pipe 16. The heated tap water is discharged with the hot water pipe 19, which can be connected to the hot water pipe network of a house.

A two-way valve 25 is included in the pipe network of the heating device, which in a first position, which is schematically indicated in the figure, leads the heated heat transport medium to the boiler 15. In a second position, turned 90 ° clockwise relative to the figure, the heated heat transfer medium is supplied to the heating circuit of the room 13. The valve 25 is operated by the control device 8.

The control device 8 controls the various components of the heating device, such as the gas tap 5, the fan 7 and the two-way valve 25 according to input signals from sensors, including a number of thermostats shown in the figure. These are a room thermostat 26 which detects the temperature in the room 13 and gives a signal related to the set value of the temperature set by the users of the room 13 on the thermostat 26, a boiler thermostat 27, which measures the temperature of the domestic hot water. a thermostat 28 which detects the temperature of the heat transport medium supplied in the boiler 15 and a maximum thermostat 29 which forces the burner 3 to switch off when the outgoing temperature of the transport medium exceeds a certain limit value. In addition to these thermostats, the device may include further sensors, such as a flame sensor that detects whether the burner is operating and the like. The control device 8 can also control other components than the components indicated in the figure and the above-mentioned components, such as an ignition device for the burner 3 above. However, the elements not shown are not relevant for the present invention and therefore not shown.

The control device 8 is designed such that when only the thermostat 26 enters, the burner and two-way valve are controlled such that the heat transport medium is heated and led to the heating circuit of the room 13. When only the boiler thermostat 27 comes in, when the temperature of the hot water falls below a limit value, the control device 8 ensures that the burner is switched on in such a way that the heat transport medium is heated and sent by the correct position of the two-way valve 25 to the boiler 15 . This concerns the general operation. The specific operation will generally be more detailed. For example, the circulation pump 12 can first be switched on and the gas valve 5 opened only after the fan 7 has been running for some time. When it has been detected with a non-indicated airflow switch that a sufficient air flow has been initiated, the control device 8 can activate an ignition device for a certain period of time. If after a certain time the burner has not yet ignited, which can be detected with the aforementioned flame sensor, the cycle is repeated or the device is switched off.

However, these specific actions are known per se and do not form part of the present invention, so they are not further described in more detail. For the understanding of the invention it is sufficient to say that the control device 8 ensures that heated heat transport medium is sent to the room 13 when a heat demand from the thermostat 26 only and heating medium to the boiler 15 only with a heat demand from the thermostat 27. .

A special situation arises when both the thermostat 26 and the thermostat 27 enter and thus heat supply is requested in the room 13 as well as in the boiler 15. In that situation, the control device 8 according to the invention will first supply the boiler 15 with heat transport medium by placing the two-way valve 25 in the first position shown. When after a first predetermined time, which may be, for example, half a minute, the thermostat 28 detecting the temperature of the supplied heat transfer medium is opened, which means that the supplied heat transfer medium is warmer than a certain minimum temperature, the control device 8 switches the two-way valve 25 for a second certain time in the second position. This second determined time may, for example, be one minute. Thus, during this second predetermined time, the heat transport medium is supplied to the heating circuit for the room 13. When both thermostats 26 and 27 are still switched on after this second predetermined time, the cycle repeats. That is, again, the two-way valve 25 remains in the first position, for example for half a minute, in which heat transport medium is supplied to the boiler 15. When the thermostat 28 is opened at the end of that half minute, the valve 25 is again switched to the second position for one minute. When the thermostat 28 is not opened after the first predetermined time, the two-way valve 25 is not switched. In that case, the temperature of the hot water could drop undesirably. During the time that the two-way valve 25 is in the second position, while a heat demand indicated by the thermostat 27 nevertheless exists, the heat transport medium present in the heat exchanger 17 gives off its heat to the water in the reservoir 18. Thus, heat continues to be supplied to the tap water.

The manner described here achieves that a long-term decrease in hot water does not lead to cooling of the heated space 13, as is the case with conventional devices. Except under extreme weather conditions, the capacity of the burner 3 will be sufficient to keep both the required tap water and the heated space at the desired temperature.

It is noted that the figure only shows a schematic representation of a heating device according to the invention. The boiler is drawn separately from boiler 2. However, it is of course also possible to incorporate the boiler into the boiler 2, while the control device 8 can also be accommodated at a suitable location in the boiler housing. All such embodiments are considered to be included within the invention.

Claims (6)

A method for controlling a combined space and tap water heating device comprising a burner, a main heat exchanger in which a heat transfer medium can be heated by the burner, a tap water heat exchanger in which tap water can be heated by the heat transfer medium, at least one space heat exchanger that generates heat from can deliver the heat transfer medium to a room, connecting pipes between the heat exchangers incorporating a two-way valve, which in a first position transfers heat medium from the main heat exchanger through the tap water heat exchanger and in a second position through the room heat exchanger, the method comprising detecting the temperature temperature of the DHW, the room temperature and the temperature of the heat transfer medium supplied in the DHW heat exchanger, the burner being switched on when the detected DHW temperature and / or the detected room temperature is below is or lie a respective determined value, placing the two-way valve in the first position when the tap water temperature is below a certain value, placing the two-way valve in the second position when only the detected room temperature is below a certain value and, if both the tap water temperature if the room temperature is below the determined values and the detected temperature of the heat transport medium supplied in the tap water heat exchanger is above a determined value, cyclically placing the two-way valve in the second position for a first determined period of time and for a second determined period in the first position of the two-way valve. The method of claim 1, wherein the burner has a high position and at least one lower position and is set to the high position when the detected temperature of the heat transport medium fed into the tap water exchanger is below the respective determined value and during the first determined time and the second set time is set to the low position. The method of claim 2, wherein the burner has a high position, a middle position and a low position and is set to the high position when the detected temperature of the heat transport medium supplied to the tap water heat exchanger is below the respective determined value, during the first determined time is set to the low position and set to the middle position in the second specified time. 4. Combined space and tap water heating device comprising a burner, a main heat exchanger in which a heat transfer medium can be heated by the burner, a tap water heat exchanger in which tap water can be heated by the heat transfer medium, at least one space heat exchanger capable of delivering heat from the heat transfer medium to a room, connecting pipe between the heat exchangers incorporating a two-way valve which, in a first position, transfers heat medium from the main heat exchanger through the tap water exchanger and in a second position through the room heat exchanger, a tap water thermostat, a room thermostat, a heat transfer medium fed into the tap water exchanger and a control device operatively connected to the two-way valve and the thermostats for controlling the heating device according to the method of claim 1. A heating device according to claim 4, wherein the burner has a high position and at least one lower position which can be adjusted by the control device and wherein the control device controls the heating device according to the method of claim 2. A heating device according to claim 5, wherein the burner has a high position, a middle position and a low position which can be adjusted by the control device and wherein the control device controls the heating device according to the method of claim 3.