EP3173711A1 - Heating monitoring system - Google Patents

Abstract

The invention relates to a heating monitoring system having an output unit (12) and a heating device (14) which has a monitoring unit (16) which is provided to determine at least one efficiency parameter of at least one heat generator unit (18) and at least one correlating with the efficiency parameter Output parameter to the output unit (12) to transfer.

Description

State of the art

The invention relates to a heating monitoring system according to the preamble of patent claim 1 and a method according to the preamble of patent claim 9.

There are already known heating monitoring systems, which are intended to determine a current and / or average fuel consumption of a heat generator unit.

Disclosure of the invention

A heating monitoring system is proposed with an output unit and with a heater device, which has a monitoring unit which is provided to determine at least one efficiency parameter of at least one heat generator unit and to transmit at least one output parameter correlating with the efficiency parameter to the output unit.

An "output unit" is to be understood in particular as meaning a unit which is intended to impart an optical and / or acoustic output in at least one operating state and preferably to emit a signal that is visible and / or audible to a human. In particular, the output unit has at least one optical output device and / or at least one acoustic output device. An "optical display means" is intended in particular to be a luminous means, preferably an LED, and / or a preferably backlit display unit, in particular a matrix display unit, preferably an LCD display, an OLED display, a TFT display and / or electronic paper, especially e-paper and e-ink. An "acoustic output means" is to be understood in particular as a unit which is intended to convert electrical energy into sound energy. In particular, it has an electronics which is intended to generate a frequency between 0 Hz and 20 kHz, in particular between 50 Hz and 8 kHz, preferably between 200 Hz and 5 kHz, and this to a tone generator of the acoustic display means, in particular a string and / or a membrane, preferably on a speaker to transmit. In this context, a "heater device" should be understood as meaning, in particular, at least one part, in particular a subassembly, of a heating device, in particular a heating system. In particular, the heater device may include the heat generator unit. In this context, a "monitoring unit" is to be understood as meaning, in particular, an electronic unit which is provided to detect and / or evaluate at least one operating parameter of a heat generator unit. In this context, a "heat generator unit" is to be understood as meaning, in particular, a unit which is intended to generate and / or utilize thermal energy, in particular using at least one energy carrier. In particular, the heat generator unit is designed as a boiler, for example as a gas boiler and / or an oil boiler and / or a pellet boiler.

In this context, an "efficiency parameter" is understood to mean a parameter which contains at least information from which an efficiency of a heat generator unit can be directly determined and / or calculated. In order to determine the efficiency parameter, the monitoring unit is provided, in particular, to detect in particular continuously or at fixed time intervals an input power and an output power of the heat generator unit. In particular, the monitoring unit can have at least one flow meter, which is provided to detect a quantity of fuel supplied to the heat generator unit. In particular, the monitoring unit can have at least one heat meter, which is provided to detect an output power of the heat generator unit. In particular, the monitoring unit has a computing unit which is provided to calculate an efficiency of the heat generator unit continuously or at fixed times on the basis of the input power and the output power of the heat generator unit. A "computing unit" is intended in particular to mean a controller with a Processor, a memory unit, and / or stored in the memory unit operating, control and / or calculation program. An "output parameter correlating with the efficiency parameter" should be understood to mean, in particular, a parameter which has a direct relationship with the efficiency parameter and which comprises at least one information about an efficiency of the heat generator unit that can be output to a user via the output unit.

Such a configuration may provide a generic heater monitoring system with improved operating characteristics. In particular, an efficiency parameter of a heat generator unit can advantageously be determined continuously or at fixed time intervals, and an output parameter correlating with the efficiency parameter can be transmitted to an output unit. As a result, an operator or an operator of the heat generator unit can advantageously be provided with information about an efficiency of the heat generator unit.

It is also proposed that the output unit is at least partially part of the heater device. In particular, the dispensing unit can have at least one dispensing means which is at least partially integrated directly into the heater device and / or in particular directly on the heater device, preferably directly on the heat generator unit. As a result, information about an efficiency of a heat generator unit can advantageously be provided directly on the heater device, preferably directly on the heat generator unit. In this way, an advantageously simple start-up, adjustment and / or maintenance of the heater device can be achieved.

Furthermore, it is proposed that the output unit is at least partially designed as an external unit separate from the heater device. In particular, the output unit can have at least one stepped output means, which is arranged spatially separated from the heater device, preferably spatially separated from the heat generator unit. As a result, information about an efficiency of a heat generator unit can advantageously be provided spatially separated from the heater device, preferably spatially separated from the heat generator unit. This can be an advantageously simple maintenance and / or monitoring, in particular an advantageously simple remote maintenance and / or remote monitoring, the heater device can be achieved.

In addition, it is proposed that the heating monitoring system has at least one data interface which is provided to at least partially send the output parameter wirelessly to the output unit. In this context, a "data interface" is to be understood as meaning, in particular, an interface which is intended to transmit and / or receive data, in particular at least partially wirelessly and / or at least partially by wire. A data transmission between the data interface and the output unit can take place in particular via the Internet, via a mobile radio network and / or a wireless and / or wired network connection. In this way, an advantageously simple, secure and / or reliable transmission of the output parameter to the output unit can be achieved.

It is also proposed that the output unit is at least partially designed as a mobile output unit. A "mobile output unit" is to be understood in particular as a portable electronic device such as, for example, a smartphone, a tablet PC, a mobile phone and / or a PDA. Alternatively or additionally, the output unit may be at least partially designed as a laptop and / or a desktop PC. As a result, an advantageously location-independent and / or flexible output of the output parameter can be carried out.

Furthermore, it is proposed that the heating monitoring unit has a server which is coupled to the monitoring unit in at least one operating state. In this context, a "server" is to be understood as meaning, in particular, at least one computer which is integrated in at least one network and which is provided to provide workstations connected to the network with services, for example data management services. Preferably, the monitoring unit is provided to transmit at least the output parameter to the server. A data transmission between the monitoring unit and the server can take place in particular via the Internet, via a mobile radio network and / or a wireless and / or wired network connection. This can be an advantageously secure and / or permanent storage and / or an advantageous fast Evaluation and / or preparation of the output parameter done.

It is also proposed that the output unit is intended to retrieve and / or process data from the server. In particular, the output unit is intended to retrieve stored data regarding the output parameter from the server and / or to transfer it to an output content. In this context, an "output content" should be understood as meaning, in particular, a content that is displayed in at least one operating state of the output unit, in particular visible to the viewer by the output unit. In particular, the display content is a text and / or a picture and / or a graphic and / or another, in particular optically representable information. As a result, technical requirements for the output unit, in particular requirements with regard to an available memory and / or with regard to a computing power, can advantageously be kept low.

In addition, a method with a heating monitoring system is proposed, wherein at least one efficiency parameter of at least one heat generator unit is determined, and at least one output parameter correlating with the efficiency parameter is transmitted to an output unit. As a result, an efficiency parameter of a heat generator unit can advantageously be determined continuously or at fixed time intervals, and an output variable correlating with the efficiency parameter can be transmitted to an output unit. In particular, an operator or an operator of the heat generator unit can advantageously be provided with information about an efficiency of the heat generator unit.

The heating monitoring system according to the invention and / or the method according to the invention should / should not be limited to the application and embodiment described above. In particular, the heating monitoring system according to the invention and / or the method according to the invention for performing a function described here can have a number deviating from a number of individual elements, components and units mentioned herein.

drawing

Further advantages emerge from the following description of the drawing. In the drawing, an embodiment of the invention is shown. The drawing, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

Fig. 1

eine schematische Darstellung eines Heizungsüberwachungssystems mit einer Ausgabeeinheit und mit einer Heizgerätevorrichtung, welche eine Überwachungseinheit aufweist, welche dazu vorgesehen ist, zumindest eine Wirkungsgradkenngröße zumindest einer Wärmeerzeugereinheit zu ermitteln und zumindest eine mit der Wirkungsgradkenngröße korrelierende Ausgabekenngröße an die Ausgabeeinheit zu übertragen.

It shows:

Fig. 1

a schematic representation of a heating monitoring system with an output unit and with a heater device, which has a monitoring unit which is provided to determine at least one efficiency characteristic of at least one heat generator unit and to transmit at least one correlated with the efficiency characteristic output parameter to the output unit.

Description of the embodiment

FIG. 1 1 shows a schematic illustration of a heating monitoring system 10. The heating monitoring system 10 has an output unit 12 and a heater device 14, which comprises a monitoring unit 16 which is provided to determine at least one efficiency parameter of a heat generator unit 18 and at least one output parameter correlating with the efficiency parameter Output unit 12 to transfer. The monitoring unit 16 has a heat meter 24 known to those skilled in the art and a flow meter 26. The flow meter 26 is arranged in a fuel supply line 28 of the heat generator unit 18. The flow meter 26 is provided to detect a quantity of fuel supplied to the heat generator unit 18. The heat meter 24 is provided to detect the heat energy output from the heat generator unit 18. The monitoring unit 16 is provided to determine an energy supplied to the heat generator unit 18 on the basis of the fuel quantity detected by the flow meter 26. In particular, the monitoring unit 16 is provided to determine an efficiency parameter of the heat generator unit 18 on the basis of the measured values recorded by means of the flow meter 26 and the heat meter 24. Preferably, the monitoring unit 16 is intended to directly calculate the efficiency of the heat generator unit 18.

The dispensing unit 12 is partially part of the heater device 14. In particular, an output means 30, in particular an optical output means, of the dispensing unit 12 is integrated directly into the heater device 14. Further, the output unit 12 is at least partially formed as an external unit 34 separate from the heater apparatus 14. The external unit 34 is formed as a mobile output unit 32. The mobile output unit 32 has an output means 36, in particular an optical output means. The mobile output unit 32 is embodied here by way of example as a smartphone.

Furthermore, the heating monitoring system 10 has a server 22, which is coupled to the monitoring unit 16. The monitoring unit 16 is provided to transmit at least the output parameter to the server 22. In addition, in addition to the output parameter, further parameters, such as parameters with regard to an operating period of the heat generator unit 18, can be transmitted to the server 22. The output unit 12 is provided for retrieving and / or processing data, in particular stored data with regard to the output parameter, from the server 22.

The heater device 14 has a data interface 20, which is provided to at least partially send the output parameter to the output unit 12 wirelessly. In particular, the data interface 20 is provided to wirelessly send the output parameter to the external unit 34. The transmission of the output parameter from the data interface 20 to the external unit 34 takes place in particular via the server 22. Alternatively or additionally, the output parameter can also be sent directly from the data interface 20 to the external unit 34.

Through the heating monitoring system 10, information about an efficiency of the heat generator unit 18 can be made available to a user and / or operator of the heat generator unit 18 at any time. In particular, the user and / or operator can be informed in real time about the current efficiency of the heat generator unit 18. Further, the user and / or operator, in particular using stored data in terms of the output parameter, for example, information regarding a time profile of the efficiency the heat generator unit 18 and or in terms of an average efficiency of the heat generator unit 18 are provided. This allows the operator and / or operator to analyze an efficiency of the heat generator unit 18 and to optimize an operation of the heat generator unit 18, for example via an adjustment of operating parameters.

Claims (10)

A heating monitoring system having an output unit (12) and a heater device (14) which has a monitoring unit (16) which is provided to determine at least one efficiency parameter of at least one heat generator unit (18) and at least one output parameter correlating with the efficiency parameter to the output unit (12). Heating monitoring system according to claim 1, characterized in that the output unit (12) is at least partially part of the heater device (14). Heating monitoring system according to claim 1 or 2, characterized in that the output unit (12) is at least partially formed as a separate from the heater device (14), external unit (34). Heating monitoring system according to one of the preceding claims, characterized in that the heater device (14) has at least one data interface (20) which is provided to send the output parameter at least partially wirelessly to the output unit (12). Heating monitoring system according to one of the preceding claims, characterized in that the output unit (12) is at least partially designed as a mobile output unit (32). Heating monitoring system according to one of the preceding claims, characterized by a server (22) which is coupled in at least one operating state with the monitoring unit (16). Heating monitoring system according to claim 6, characterized in that the monitoring unit (16) is provided to transmit at least the output parameter to the server (22). Heating monitoring system according to claim 6 or 7, characterized in that the output unit (12) is provided to retrieve data from the server (22) and / or to process. Method with a heating monitoring system 10, in particular according to one of the preceding claims, wherein at least one efficiency parameter of at least one heat generator unit (18) is determined and at least one output parameter correlating with the efficiency parameter is transmitted to an output unit (12). A heater apparatus of a heating monitoring system (10) according to any one of claims 1 to 8.

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