DE102010047913A1 - System of intelligent heating circuit distributor or control for distribution of heating power of heating system during heating rooms of e.g. building, has electrical and/or electronic bus system for communication and/or data distribution - Google Patents

Abstract

The system has an electronic processor unit, a data memory, an operating or programming device, connections (8) for room and/or heating line temperature measuring devices, control terminals for control devices, and an electrical and/or electronic bus system for communication and/or data distribution, where the system is connected with a control and/or processor unit of a heating system (1) via a bus. Control valves are connected with the system. The system is operable and/or programmable by a web browser. An independent claim is also included for a method for operating an intelligent heating circuit distributor for distribution of heating power of a heating system during heating rooms or areas of buildings and objects.

Description

Heating circuit manifolds usually include mechanical or electrical valves for regulating the flow rate of a heating medium such. B. hot water with which the temperature is regulated in one or more defined radiators and thus in the rooms.

It is known to use electric valves, which are controlled in response to a respective room thermostat of this in order to achieve the set at the room thermostat temperature. The valve is opened by the room thermometer until the set temperature is reached, then the valve is closed.

In older systems, the hot water, which runs in the system with a constantly running circulation pump, which transports the medium from the flow through the pipe system via the connected radiator back to the heating system. This very uneconomical method is improved in many cases with a time-dependent control of the circulation pump. In z. B. the DE 200 21 278 An auxiliary device is described, which should control the circulation pump as needed in order to save energy accordingly. By determining the self-adjusting temperature difference between flow and return a condition for the switching on or off of the circulation pump is generated.

When acquiring the parameters which are used for the control of the circulation pump, however, as a rule only inaccurate or averaged values are present. The known systems suffer from the disadvantage that the control of an expected demand for heating power runs behind and the system tries to correct itself by switching on and off.

The object of the invention is therefore to provide a system which does not have the disadvantages mentioned, the distribution of the heating power of the entire heating system optimally realized and improves the energy efficiency of the heating system.

This object is achieved with the features of the characterizing part of claim 1. Training and advantageous embodiments of the invention are included in the further claims.

According to the invention, a system of a heating circuit distributor or a controller for distributing the heating power of a heating system, in particular in the heating of rooms or areas of buildings or objects, wherein the system via an electronic processor unit, a data memory, an operating or programming device, as well as connections for room and / or Heizleitungs temperature measuring devices and control terminals for control devices and an electrical and / or electronic bus system for communication and / or data distribution has.

The system of the intelligent heating circuit distributor has an electronic processor unit and connection and / or connection elements to the heating system, pumps, such. As the at least one circulation pump to control devices such as shut-off valves and temperature measuring devices such. B. room temperature sensors and / or regulators. All information of the heating system can be stored in the intelligent heating circuit manifold and to be controlled functions set and / or programmed by means of software. The temperature sensors and / or controllers in each room report the current room temperature as well as the desired setpoint temperature to the heating circuit distributor. Due to the time and temperature gradients in the rooms is calculated by the heating circuit manifold, in particular its software or algorithm, which Gesamtheizleistung is necessary and which room currently requires more heating power. This makes it possible to intelligently redistribute heating power and z. B. close a control valve for a room something, since in this the target temperature is reached soon, and thus give the heating power to another room in a higher amount.

The intelligent heating circuit manifold recognizes by the continuous detection of the room temperature and the heating power supplied to this room depending on the temperature and time course in the respective room also if this room is possibly even heated by sunlight and can then reduce the heating power in this, or redirect them to another room. Likewise, the intelligent heating power distribution in the event of failure of the heating system is possible and the remaining heating power is distributed accordingly in rooms.

According to a particularly preferred embodiment, the intelligent heating circuit manifold is connected via a control connection, such. B. a bus system with the heating system in connection, via which the output heating power is regulated. Also, the at least one circulation pump in the heating circuit is connected to the heating circuit manifold, whereby the flow rate is adjustable. The, actual flow and return temperatures from and to the heating system are preferably also continuously reported to the heating circuit manifold and processed there for the calculation of the controls. Especially with larger systems, with z. For example, multiple heating systems, such as two or more gas burners, can complete a system early through intelligent control be switched off while the remaining heating power is distributed by the intelligent heating circuit manifold as needed. The detection and in particular calculation of the expected heating power in different time periods also allows the early connection or increase of the heating power.

The connection of the individual elements of the entire heating system is preferably carried out in a bus system with which all information about the respective state is always present and control signals are transmitted. Alternatively, elements may also be connected in conventional wiring and connected to the heating circuit manifold. Due to the direct connection of the control elements, such. As the radiator valves to the heating circuit manifold by means of simple wiring can be used in general simple, inexpensive valves that do not need to be equipped with an additional control or communication unit with the room thermometer. The actual detection of the setpoint and actual temperature and the control of the control elements takes place centrally from the heating circuit manifold for all connected elements. According to a further embodiment, the components are connected by means of radio data links or communicate by means of connections leading to the heating media z. B. with aufmodulierter signals with each other and in particular with the central heating circuit manifold.

The intelligent heating circuit manifold is preferably equipped with a computer interface, which z. b. can be implemented as a serial, bus or network connection. By means of a software or a web browser functions of the heating circuit distributor can be controlled directly or programmed on this and z. B. the setpoint temperatures for the individual rooms controlled and / or changed. All the timer functions and any rest periods can be freely programmed via a clock integrated in the processor unit, or changes from summer to winter time can be set automatically or manually. About this provided on Heizkreisverteiler interface can also realize other accesses, for example, from a distance z. B. via the Internet to access the heating control to start up the heating system about shortly before returning from vacation or to change the desired temperature in certain rooms or water circuits. Also connections to external services such as weather forecasts can be used to z. B. if predicted falls in temperature, the heating power available to adjust if necessary. In addition to the computer interface, the heating circuit distributor can be equipped either additionally or alternatively with an operating unit and a display via which functions can be controlled, controlled and programmed.

By a, preferred clock-controlled control of the control elements, a defined position of the control elements through the heating circuit manifold is directly possible and a control valve can, for. B. be opened directly half, which is an even better, needs more appropriate heating power distribution is possible. By the control preferably used, a defined approach of all control elements in a specific position is possible for diagnostic purposes, which can be easily controlled and defective control valves are quickly detected.

• – Kontinuierliche Erfassung der Vor- und Rücklauftemperatur an den Medien führenden Leitungen eines Heizsystems sowie den Raumtemperaturen und der Solltemperaturen, welche an angeschlossenen Temperaturfühlern und/oder Reglern oder direkt am Heizkreisverteiler vorgegeben werden können.
• – Kontinuierliche Erfassung der Stellung von Regelelementen
• – Berechnung der Temperaturverläufe in den Räumen und Berechnung des Wärmeeinsatzes und Wärmebedarfs für Räume
• – Steuerung der Regelelemente aufgrund der Berechnungsergebnisse und Abgleich und/oder Verteilung untereinander wobei Heizleistung intelligent umverteilt wird und somit z. B. Räume mit geringerer zeitlichen Erwärmung oder Räume mit hinterlegter höherer Priorität bevorzugt werden.
• – Steuerung des Heizsystems, wie z. B. Verminderung der Zirkulationsleistung, abschalten oder regeln eines oder mehrerer Heizsysteme.

The operation of the intelligent heating circuit distributor according to the invention is preferably as follows:

• - Continuous detection of the flow and return temperatures on the media-carrying lines of a heating system as well as the room temperatures and the set temperatures, which can be specified on connected temperature sensors and / or controllers or directly on the heating circuit distributor.
• - Continuous detection of the position of control elements
• - Calculation of the temperature curves in the rooms and calculation of the heat input and heat demand for rooms
• - Control of the control elements based on the calculation results and adjustment and / or distribution among each other where heating is intelligently redistributed and thus z. B. rooms with less time heating or rooms with deposited higher priority are preferred.
• - Control of the heating system, such. B. Reduction of circulation capacity, shut down or regulate one or more heating systems.

In the following the invention will be described by way of example with reference to drawings. Showing:

1 a schematic representation of a complete heating system, controlled by an intelligent heating circuit manifold.

As can be seen in the picture, the heating system has 1 about a lead 3 as well as a return 2 in which the heating medium is transported and at which corresponding outlets for the individual rooms to be heated are arranged, which via control elements 4 are connected. The rule elements 4 , preferably electrically driven control valves are at least with a control line to the heating circuit manifold 10 at the connections 8th connected. The pure connection via a control line requires the additional wiring of the actuator 4 with a power supply, but allows that connection to the heating circuit manifold 10 by means of a radio link or a signal on the heating cable 2 . 3 he follows. The heating circuit distributor 10 stands further by means of an interface 7 with the heating system 1 , preferably with a bus connection 6 in connection with which states of the heating system 1 to the heating circuit distributor 10 transferred and the other control signals are transmitted to the heating system.

The respective room temperature is detected by means of a room temperature sensor 5 , which with the provided connections 9 of the heating circuit distributor 10 are connected, which can also be done via wireless or wired.

Having described preferred embodiments of the invention with reference to the accompanying drawings, it is to be understood that the invention is not limited to these precise embodiments and applications, and that various changes and modifications may be made thereto by one of ordinary skill in the art without departing from the scope of the invention. as it is defined in the appended claims is deviated.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 20021278 [0003]

Claims (13)

System of a heating circuit distributor or controller for distributing the heating power of a heating system, in particular in the heating of rooms or areas of buildings or objects, characterized in that the system via an electronic processor unit, a data memory, an operating or programming device, as well as connections for room and / or Heizleitungs temperature measuring devices and control terminals for control devices and an electrical and / or electronic bus system for communication and / or data distribution has. System according to claim 1, characterized in that the system is integrated in a heating circuit manifold in which control valves are connected to the system. System according to claim 1, characterized in that the system is connected via the bus to the control and / or processor unit of at least one heating system. System according to claim 1, characterized in that the system is connected via the bus with the control and / or processor unit of control elements and / or temperature measuring devices in connection. System according to claim 1 and 4, characterized in that the connection of the system with the control elements and / or temperature measuring devices takes place via radio. System according to claim 1 and 4, characterized in that the connection of the system with the control elements via a signal in or on the heating medium leading line. System according to claim 1 and 6, characterized in that the connection of the system with the control elements via a, leading to the heating medium line, modulated signal takes place. System according to claim 1, characterized in that the system is equipped with software by means of which the collected data are stored in a data memory and control functions are generated by means of evaluation operations and / or an algorithm. System according to claim 1, characterized in that the system has test and / or diagnostic functions for the connected control elements. A system according to claim 1, characterized in that the system has means for displaying, adjusting and / or forwarding the operating state and / or malfunctions and / or diagnostic results. System according to claim 1, characterized in that the system has an interface to a computer by means of which functions adjustable and / or the system is programmable. System according to claim 1, characterized in that the system can be operated and / or programmed via a web browser. Method for operating an intelligent heating circuit distributor for distributing the heating power of a heating system, in particular in the heating of rooms or areas of buildings or objects, characterized by the following steps, - Continuous detection of the flow and return temperatures at the media-carrying lines of a heating system as well as the room temperatures and the set temperatures - Continuous detection of the position of control elements - Calculation of the temperature curves in the rooms and calculation of the heat input and heat demand for rooms - Control of the control elements based on the calculation results and comparison and / or distribution with each other - Control of the heating system

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