RU2796030C2 - Heating system operation method - Google Patents

Abstract

FIELD: heating systems.

SUBSTANCE: heating system operation method is intended for a system containing at least one heating boiler and at least one circulation pump. The circulation pump determines the actual required amount of heat for a heated building by one or several operating parameters and transmits its value to the control unit (10) for controlling and/or regulating the heating boiler. The control unit (10) controls and/or regulates the temperature of the medium, taking into account this transmitted value of the required amount of heat. One or more operating parameters are related to a currently existing volume flow. The evaluation of the currently existing volume flow in terms of heat demand is carried out using the active control curve of the circulation pump. A variant of the method for operating the heating system and a circulation pump for the heating system are disclosed.

EFFECT: increase of the accuracy of determining the heat load of the heating system.

8 cl, 2 dwg

Description

The present invention relates to a method for operating a heating system comprising at least one heating boiler and at least one circulation pump.

According to the state of the art, the boiler control unit evaluates the current heat load of the entire heating system from the outside temperature. Taking into account the external temperature determined by means of measuring devices, the temperature of the medium is regulated according to the need by the control unit of the heating boiler. However, this approach is inaccurate and, under certain circumstances, not very energy efficient, since, for example, on a sunny day, this demand is less, despite the low outside temperature. However, such a situation would not be recognized by the existing boiler control unit and the regulated heating output would be set unnecessarily high.

Therefore, it is desirable to provide the control unit of the heating boiler with additional values that are indicative of the actual required amount of heat of said system.

EP 2863134 A1 discloses a method for adjusting the temperature control of a heating medium supplied by a heating system to a heated building.

This problem is solved by means of a method with features of the independent claim 1 of the claims. Preferred embodiments of this process are the subject of the dependent claims.

According to the invention, it is proposed that the circulation pump of the heating system determines the actual required amount of heat of the heated building from one or more operating parameters. The circulation pump then transfers this determined actual heat requirement to the control unit via the communication interface for control and/or regulation of the heating boiler. The control unit can then control or regulate the temperature of the medium inside the heating circuit, taking into account the reported heat demand.

Summarizing, we can say that the method proposed by the invention provides for the establishment of communication between the circulation pump and the heating boiler, so that information can be exchanged regarding the current heat load of the heating system.

According to the invention, in the case of one or more operating parameters, it is the currently available volume flow within the heating circuit. Since the actual heat requirement of the building to be heated is determined by the position of the valve of the individual radiators of the heating circuit, this circulation pump can draw a conclusion about the corresponding heat load within the system based on the current system resistance. This system resistance can be determined from the volumetric flow that is provided by the circulation pump.

Usually, information on volumetric supply alone is not sufficient to unambiguously determine the appropriate heat demand for a given system, since the decision of whether a certain volumetric supply is high or low depends in turn on the dimensions of the building. Against this background, according to the invention, the assessment of the currently existing volumetric flow in terms of the required amount of heat associated with it is carried out by means of an active control curve of the circulation pump. Normally, the speed of the circulation pump is set by the pump's internal control device on the basis of a control curve, which is determined and set at the time of pump installation by the heating installer individually for the size of the building to be heated.

It is particularly advantageous if the circulation pump is operated by means of a so-called proportional pressure curve, which opposes a suitable head pressure to said volume flow. This control curve defines the relationship between head and volume flow through the pump. With such a control curve, an estimate can be made of the volumetric flow in terms of the required required heat quantity on the basis of the registered volume flow. In particular, the position of the registered volume flow value on the control curve is considered in order to make it possible to quantify the registered volume flow. If it lies in the range of lower flow rates (e.g. left curve area), then a lower heat demand can be assumed, while if it lies in the range of higher flow rates (right curve area), a high heat demand must be assumed. It is, of course, essential for a reliable assessment based on the control curve that it has previously been correctly adjusted by the heating installer to suit the needs of the building.

It is possible that said circulation pump has a flow sensor for registering the volume flow and/or a pressure sensor for registering the pressure (pressure) provided by the pump. Often, however, for reasons of economy, such sensors are not integrated in practice. The pump can then evaluate its current duty point, i.e. volumetric flow and/or head based on the measured mechanical power of the pump and the set speed.

The actual required heat quantity for a building can, however, be determined not only on the basis of the volumetric supply. Additionally, it can be determined using the recorded medium temperature. This medium temperature can be detected, for example, directly by the corresponding sensors, however, alternatively, it can be detected indirectly in a suitable way on the basis of other operating parameters of the circulation pump, such as, for example, winding temperature and/or winding current of the pump's internal drive unit. Reference is made here to the German patent application DE 10 2017203925.6 of the same applicant. The contents of this application are incorporated in this disclosure in their entirety.

According to a preferred embodiment, said circulation pump can determine the actual heat demand from the recorded change in temperature of the medium over a certain period of time. For example, the required amount of heat can be determined from the change in temperature of the medium during the cooling phase of the heating boiler, i.e. during the phase when this heating boiler does not heat up, and as a result, the medium temperature drops until the next start of this heating boiler. It is particularly advantageous if this required heat quantity for the building is determined on the basis of the determined temperature drop during this period of time, i.e. depending on how quickly the temperature of the medium actually drops within the corresponding time window. A faster temperature drop is an indicator of a high heat demand inside the building, while a slower temperature drop indicates a lower heat demand.

The communication between the control unit and the circulation pump for transmitting the corresponding heat demand value can take place, for example, via analog or digital data transmission. The serial interface is preferred as the communication interface. For digital data exchange, for example, the Modbus protocol (ModBus-Protokoll) can be used.

Said control unit for controlling and regulating a heating boiler can be, for example, a central control unit of a heating system or, alternatively, an internal control unit of a heating boiler.

In this case, in the method according to the invention, it has always been assumed that the circulation pump determines the required amount of heat on the basis of one or more recorded operating parameters. However, it is also possible that this circulation pump only transmits these one or more operating parameters via an interface to the control unit for controlling the heating boiler, and the corresponding evaluation to determine the actual heat demand takes place only in this control unit. In addition to these recorded operating parameters, the possible control curve of the circulation pump must also be transmitted to the specified control unit if necessary. However, apart from the location of determining the value of the required amount of heat, this method is no different from the previous embodiments.

In addition to the method according to the invention, the invention also relates to a circulation pump for a heating system, which is also characterized by the presence of a pump control unit for determining the actual heat demand for the building to be heated in terms of one or more operating parameters. In addition, this circulation pump has at least one communication interface designed in such a way that the actual value of the required heat quantity can be transmitted via this interface to an external control unit, in particular to the central control unit of the heating system and/or to the internal heating boiler control unit.

Further, this circulating pump may have means for indirectly and/or directly registering the currently existing volumetric flow and/or the change in temperature of the medium over time. In addition, the pump control unit is programmed to determine the required heat quantity on the basis of the recorded volume flow and the active control curve, and if necessary on the basis of a drop in medium temperature. In order to avoid repetition regarding the precise approach and specific programming of the pump control unit, reference is made to the above considerations in connection with the method of the invention.

Other advantages and properties of the present invention will be discussed in more detail with reference to the exemplary embodiment shown in the drawings. The drawings show the following.

Fig. 1: schematic general plan of the heating system according to the invention with a circulation pump and also with a heating boiler, and

Fig. 2: Flow rate vs. head diagram with plotted system characteristic curve and control curve.

On FIG. 1 shows the control unit 10 of the heating boiler, which determines the corresponding required amount of heat for the system, taking into account the external temperature. First, the demand value is determined on the basis of the registered external temperature (block 11), and on the basis of this demand of the system, the corresponding temperature of the medium - hot water inside the heating system is determined in the control block 12. According to the method according to the invention, the system's internally determined demand is superimposed on an additional demand value received via the external interface 30. This external demand value is supplied by the heating system's circulation pump.

The control unit of the circulation pump is indicated by the reference position 20. It operates with conventional proportional pressure control with a given speed as the output value. To do this, on the basis of the determined volume flow, which serves as an indicator of the current system resistance and thus the current positions of the valves of the heaters, the corresponding required amount of heat inside the heating system is determined (block 21). Based on this required amount of heat, said proportional pressure control in block 22 sets the appropriate speed of the circulation pump in order to provide the most energy-saving mode.

This demand value determined internally by the pump on the basis of the volume flow is additionally provided to the control unit 10 of the heating boiler, namely via the communication interface 30. It can correct the heat demand determined internally in the boiler control unit by means of the demand value received from the circulation pump and thereby if necessary, it can lower the ambient temperature setpoint to reduce the boiler's energy consumption.

The heat demand of the circulation pump determined in block 21 can be determined, as already explained, on the basis of the available volume flow Q. However, this volume flow alone is not sufficient as information to determine the actual heat demand of the building, since the decision of whether the specific high or low volume flow also depends on the dimensions of the building. Therefore, the circulation pump additionally uses a set proportional pressure curve to determine the demand. Usually, this control curve, which is applied by the heating installer, is adjusted during the construction of the system so that it suits the expected demand of the respective building.

On FIG. 2 shows the building loss curve (system characteristic curve) when all expansion valves are fully open. This characteristic curve of the system is indicated in FIG. 2 with reference numeral 1. Next, this image shows a tuned proportional pressure curve 2 . It is adjusted by the heating installer in such a way that it is guaranteed to lie above curve 1 of the building loss.

With this information, the said pump can determine the actual heat demand of the building. If the current flow rate in this display lies on the left section of the control curve 2 (set point 15), then the current heat requirement is comparatively low. If, however, the volume flow lies instead on the right section of the control curve 2 (here operating point 16), then the demand is comparatively high.

Claims (10)

1. A method of operating a heating system containing at least one heating boiler and at least one circulation pump, in which the circulation pump determines the actual required amount of heat of the heated building by one or more operating parameters and transmits its value to the control unit for controlling and/or regulating a heating boiler, and in which this control unit controls and/or regulates the temperature of the medium, taking into account this transferred value of the required heat quantity, characterized in that one or more operating parameters are understood as the currently existing volume flow, and the assessment of the currently existing volume flow in terms of the required amount of heat is carried out by means of an active control curve of the circulation pump. 2. The method according to claim 1, characterized in that the control curve is understood as a set proportional pressure curve, and in order to estimate the volumetric supply in terms of the required required amount of heat, the position of the current value of the volumetric supply on the considered control curve is considered. 3. The method according to claim 1 or 2, characterized in that the actual required heat quantity of the building is determined from the registered ambient temperature, and the circulation pump determines the actual required heat quantity from the recorded change in the ambient temperature over time, in particular, based on the drop determined from it temperature. 4. The method according to claim 1 or 2, characterized in that communication between the control unit and the circulation pump is carried out by means of analog or digital data transmission, for example, via a serial interface. 5. Method according to claim 1 or 2, characterized in that the control unit is the central control unit of the heating system or the internal control unit of the heating boiler. 6. A method for operating a heating system containing at least one heating boiler and at least one circulation pump, in which the circulation pump registers the actual volume flow as one or more operating parameters and transmits it to the control unit for control and/or regulation of a heating boiler, wherein this pump control unit determines the actual heat demand of the building to be heated on the basis of the received one or more operating parameters and controls and/or regulates the temperature of the medium in view of this determined heat demand. 7. Circulation pump for a heating system with a pump control unit for determining the actual heat demand of the building to be heated according to one or more operating parameters and with at least one communication interface for transmitting the value of the current heat demand to an external control unit, in particular to the central control unit of the system and/or to the internal control unit of the heating boiler, whereby this circulation pump has means for indirectly or directly determining the currently available volumetric flow, characterized in that the pump control unit is programmed with the ability to determine the required amount of heat from the registered volume flow and from the active control curve. 8. The circulation pump according to claim 7, characterized in that this circulation pump has means for indirectly or directly determining the change in the medium temperature over time, and the pump control unit is programmed to determine the required amount of heat from the drop in medium temperature.

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