DE102011116492A1 - Heat cost allocator attached to radiator installed in home, has hazard detector which is arranged in housing, and common radio communication unit that transmits data regarding heat consumption of radiator to hazard detector - Google Patents

Abstract

The heat cost allocator (12) attached to radiator (10) measures the heat consumption of radiator. The heat cost allocator is provided with hazard detector (14) such as gas fire or smoke detectors which is arranged in housing. A common radio communication unit transmits the data regarding heat consumption of radiator to hazard detector.

Description

The invention relates to an intended for mounting on a radiator heat cost allocators for the consumption-based calculation of heating costs.

The basic structure and operation of heating cost allocators, in particular electronic heat cost allocators with electronic sensors and calculator, are well known.

Furthermore, danger alarms are generally known, in particular fire alarms that automatically trigger an alarm in case of fire.

In the DE 10 2008 032 880 A1 In general, a system is described with a fire detector in the form of a heat detector, which is equipped in addition to the temperature sensors with other detection units, in particular with a device for determining the energy consumption of the heating system.

The object of the invention is to expand the functionality of a heat cost allocator and thus increase its usefulness.

This object is achieved by a heat cost allocator with the features of claim 1. Advantageous and expedient refinements of the heat cost allocator according to the invention are specified in the dependent claims.

The heat cost allocator according to the invention is intended for installation on a radiator for the consumption-based calculation of heating costs, and it includes an integrated hazard detector, in particular a fire alarm.

If a heat cost allocator and a hazard alarm are installed by the same service provider for home users, the combined device according to the invention results in a cost advantage since only one device has to be installed.

The invention makes use of in this context that, on the one hand, heat cost allocators are present in all inhabited and commercially used rooms, which are heated by radiators, since heat cost allocators are absolutely necessary for the consumption-dependent calculation of the heating costs. On the other hand, more and more living spaces are being equipped with smoke detectors. In some German states and in many other countries, a smoke detector is already required. It would therefore be a practical solution to combine a smoke alarm and a heat cost allocator into a single unit, as this could result in assembly and cost benefits. However, this solution is not practical for the following reason alone:
Smoke detectors respond to fire smoke in the event of a fire. More specifically, a typical optical smoke detector detects the smoke scattered light scattering (Tyndall effect). As smoke generally rises, a smoke alarm should be installed at the highest point in the room. As a rule, smoke detectors are installed in the middle of the room on the ceiling. An installation on a radiator is certainly not useful. On the other hand, a heat cost allocator must be in thermal contact with the associated radiator and is therefore always mounted directly on the radiator. Due to these incompatible spatial requirements, a combination of a heat cost allocator with a smoke detector has not been seriously considered.

The invention is based on the finding that in addition to the common smoke alarms still other types of hazard detectors, especially fire detectors exist and are commercially available or will be in the future, their operating principles are not dependent on the location of smoke accumulation. Such fire detector types are basically suitable for integration in a heat cost allocator.

"Fire detector" is to be understood in the context of the present invention as a generic term for devices for the automatic detection of a fire, regardless of the specific physical / chemical operating principle.

In particular, a fire gas or smoke detector that raises an alarm when the concentration of carbon monoxide, carbon dioxide or other combustion gases exceeds a certain value is not bound to a preferred mounting location. Since gases spread in a short time in a room, they inevitably get to the radiators and the heat cost allocators of this room. This property of gases allows an arrangement of a gas detector at the same location where a heat cost allocator is located.

An independent gas detector essentially consists of a gas sensor, a housing, a battery, a buzzer (buzzer) and an electronic circuit. An essential part of this circuit is a microprocessor with peripheral components, which represents a significant proportion of costs. In the heat cost allocator according to the invention with an integrated gas detector, a common electronic circuit can take over both the evaluation function of the heat cost allocator and the gas detector. In common used or used circuit, housing and possibly battery results in a significant cost advantage compared to the production of two different individual devices.

Other types of fire detectors, which are basically suitable for integration into a heat cost allocator according to the invention, include heat detectors and flame detectors. Heat detectors, also known as heat detectors, sound an alarm when the room temperature exceeds a certain maximum value (usually around 60 ° C) or within a certain time the ambient temperature rises above average (thermal differential evaluation). A flame detector uses the characteristic modulated emissions of a flame in the spectrum infrared to ultraviolet for fire detection.

In the preferred embodiment of the invention, the heat cost allocator has a one- or multi-part housing in which all required for the count components of the heat cost allocator, as well as the additional hazard alarm are housed.

A development of the invention provides for a common radio communication unit with which both heat consumption data of the heat cost allocator and data related to the hazard alarm are transmitted. In this way, an existing radio network for heat cost allocators can also be used for the transmission of data of the danger detector. The data of the danger detector can in particular contain operating data and / or measured data and be evaluated for various purposes (functional check, forwarding of an alarm as an emergency call, etc.).

Further features and advantages of the invention will become apparent from the following description and from the accompanying drawings, to which reference is made. In the drawing, the single figure shows schematically the arrangement of a heat cost allocator according to the invention.

In the figure is an example of a living room with a radiator 10 shown. On the radiator 10 is an electronic heat cost allocator 12 attached, which is used for the consumption-based calculation of heating costs in the associated property, which is supplied by a central heating system. The heating cost allocator 12 has a metallic back part for heat-conducting connection with the radiator 10 on.

In the heating cost allocator 12 is a symbolically represented danger detector 14 , in particular a fire alarm integrated. The danger detector 14 is a fire gas or flue gas detector with a gas sensor. When a certain concentration of fire or flue gases is exceeded, the gas detector reacts with an alarm, which is emitted acoustically via a buzzer.

The danger detector 14 but can also be a heat detector or a flame detector. A combination of several hazard detector types is basically possible.

The heating cost allocator 12 and the danger detector 14 share a housing and an electronic circuit that takes over the evaluation of both functional units.

The heating cost allocator 12 is connected to a radio network, which allows remote access to the consumption data. The wireless network may also be used as part of a smart metering functionality of a resident. The danger detector 14 can also be connected to the wireless network. In this case, use both the heat cost allocator 12 as well as the danger detector 14 the same in the common housing under-used radio and possibly receiving unit.

LIST OF REFERENCE NUMBERS

10

radiator

12

Heat cost allocators

14

alarm Devices

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 102008032880 A1 [0004]

Claims (6)

For mounting on a radiator ( 10 ) provided heat cost allocator ( 12 ) for the consumption-based calculation of heating costs, characterized by an integrated hazard detector ( 14 ), in particular a fire detector ( 14 ). Heat cost allocator ( 12 ) according to claim 1, characterized in that the danger detector ( 14 ) comprises a fire gas or flue gas detector. Heat cost allocator ( 12 ) according to claim 1 or 2, characterized in that the danger detector ( 14 ) comprises a heat detector. Heat cost allocator ( 12 ) according to one of the preceding claims, characterized in that the danger detector ( 14 ) comprises a flame detector. Heat cost allocator ( 12 ) according to one of the preceding claims, characterized by a one- or multi-part housing, in which all components of the heat cost allocator required for the counting are housed, whereby also the danger detector ( 14 ) is housed in the housing. Heat cost allocator ( 12 ) according to one of the preceding claims, characterized by a common radio communication unit with which both heat consumption data and on the danger detector ( 14 ) transmitted data.

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