DE102008032880A1 - Building installation i.e. heating system, monitoring and/or controlling and/or regulating system, has multiple detection units connected with monitoring unit by data transmission devices and arranged on respective fire alarms - Google Patents

Abstract

The system has a monitoring unit, and multiple detection units e.g. temperature sensors and moisture sensors, which are connected with the monitoring unit by data transmission devices. The detection units are arranged on respective fire alarms. The data transmission device is a part of a building equipment bus system. A screen displays temperatures and/or temporal temperature gradients detected by the detection units. The detected temperatures and/or temporal temperature gradients are provided to a control and/or regulating unit. An independent claim is also included for a method for monitoring and/or controlling and/or regulating building installations.

Description

State of the art

The The invention is based on a system and a method for monitoring and / or control and / or regulation of building installations, which at least have a heating system.

Building installations include heating systems, air conditioning systems, ventilation systems and other facilities in a building that shape and influence the indoor climate. This can be done automatically depending on the specifications of a user of the building. The buildings may be private, commercial and public buildings. Systems and methods for monitoring, controlling and / or regulating building installations, in particular, have the goal of increasing the safety, comfort, flexibility and cost-effectiveness of the building installations and thus of the building, while at the same time saving energy. It's not just about energy consumption, but also about CO ₂ savings and the careful use of resources, which include water, natural gas, wood, other fuels and electricity. Of particular importance are systems and procedures related to national and international legislation. This includes, for example, the energy pass for buildings prescribed in Germany.

For monitoring, Control and / or regulation of known heating systems in buildings is usually via a temperature sensor the outside temperature at the building detected and the flow temperature of the heating system via a Heating curve parameterized. The flow temperature of the heating system is automatically increased, when the outside temperature decreases. The user of the heating system can also be in the scheme intervene by providing a night-time lowering of the flow temperature dependent on the time of day the heating system as a parameter as well as seasons and Times longer Absence for lowering the flow temperature uses. The lead on individual radiators in the rooms of the building usually takes place via heating thermostatic valves. These are located directly on the radiators and are equipped with an expansion element equipped, which expands according to the ambient temperature. A change in length leads to a change the flow cross section of the valve, so that in dependence from the prevailing at the thermostatic valve temperature of the flow on the radiator is set. A disadvantage here proves that the immediate on the radiator detected temperature can vary greatly from the temperature in the rest of the room. This is especially true for large ones clear and in rooms, those with many openings like doors and / or Windows are equipped.

Of the Invention is based on the object, a system and a method for monitoring and / or Control and / or regulation of building installations available places where the temperature in each room or in as many as possible clear of the building in a big one Distance to the radiators is recorded and monitored, without any structural changes on an existing building must be made and no additional ones for a new building Elements are necessary.

The invention and its advantages

These The object is achieved by a system having the features of claim 1 and a method having the features of claim 11 solved. It will in every room of the building, which is equipped with a fire detector, by a temperature sensor taken into account the temperature detected by the fire detector. For this purpose, the Temperature sensors of fire detectors via data transmission equipment with connected to a monitoring unit. The data transmission can be done with or without cable. In the data transmission equipment For example, these can be signal lines or a combination from transmitter and receiver for transmission the data by radio act. Temperature sensor, data transmission equipment and monitoring unit are part of the system. It can the data transmission equipment wholly or partly belong to a fire alarm system. Belong all Data transmission equipment to a fire alarm system, so lead they become a central unit of the fire alarm system at which the Temperatures over one Interface read and in the monitoring unit of the system according to the invention be entered. The data transmission equipment can Furthermore Be part of a domestic or fire alarm bus system, the with the monitoring unit connected to the data exchange.

The fire detectors are automatic fire detectors that detect fires or their formation sooner than is possible with human sensory organs. These include in particular so-called heat detectors or heat detectors, which trigger an alarm when the room temperature exceeds a certain maximum value or within a certain time, the room temperature rises above average quickly. Such heat or heat detectors are often with so-called smoke detectors or Combined fire gas detectors that respond to an increased concentration of carbon monoxide or carbon dioxide and other combustion gases. The temperature sensors of the fire detectors record the temperature continuously, so that the prevailing in the environment of the fire detector room temperature is available at any time. The temperature sensors can detect the temperature by heat conduction, convection or thermal radiation. These may be, for example, temperature sensors or thermal imaging cameras. Fire detectors are usually in every room of a building, especially a public or commercial building, available and are located at some distance from a radiator or other heating the room serving facilities mostly on the ceiling. The detected temperature is transmitted via data transmission devices from the fire detectors to a monitoring unit. Since each fire alarm is uniquely assigned to a room or area in the building, the temperature determined by its temperature sensor can be unambiguously assigned to the corresponding room. For this purpose, for example, an escape plan can be used, which is combined with the fire detectors. In the monitoring unit, the data pairs are evaluated from room temperature and associated room and used for monitoring, control and / or regulation of the heating system or other building installations such as an air conditioner. Certain characteristics of the rooms, such as the nature of their use, the insulation, the number of windows and / or doors and the orientation of the windows can be taken into account.

advantageously, The temperatures are determined at defined intervals by the temperature sensors measured. You can in a database of the monitoring unit get saved. There is a possibility to enter over certain observation periods Mean temperature to form. In the evaluation, periods, in which the space in question was used intensively be as other periods. When averaging, for example, over a day, a week or averaged over a month. Other periods are also possible and can be defined by the user.

at the evaluation of the temperatures of the individual rooms of a building for monitoring and / or Control and / or regulation of building installations may be specific Considered issues such as: how do temperatures spread? inside the building? Where are peaks, where are depths? Must be a warm room next to one cold room lie? Must be a cold building level under a warm lie? How volatile are the room temperatures? Volatilities can up Through spaces, opened Point windows or bad insulation. What are the temperature values on Sundays and public holidays compared to weekdays? How fast do they cool? Rooms, if the flow temperature of the heating system or a radiator in the Room is lowered? How long does it take for the rooms to open? warm up again? As A lot of energy is in this room through the heating system or other Building installations consumed? How to change energy demand or room temperature respectively volatility, when the outside temperature strong of the building or slowly rising or falling? How changes the energy needs of a room, if its isolation improved or new windows are installed? On which building parts Does the sunlight have a particularly strong effect? How high is the influence shielding measures like blinds, windowpanes or new windows?

There the system and method according to the invention on the anyway at the building existing fire detectors and their temperature sensor uses, are not structural changes at the building necessary. The system and method can be used anywhere where there are fire detectors with temperature sensors. At public and commercial buildings such fire detector prescribed anyway. Furthermore, they are private used buildings often equipped with fire detectors.

To an advantageous embodiment of the invention, the system is next the temperature sensors of the fire detector with other detection units equipped, over Data transmission equipment with the monitoring unit are connected. At the additional Detection units may be, for example, temperature sensors at the supply and at the return the heating system act. Alternatively or cumulatively, the system can with a device for the determination of energy consumption at the Heating system to be equipped as a detection unit. Also alternatively or cumulatively temperature sensor on the outside of the building be provided as a detection unit. This allows additional variables in the monitoring and / or control and / or regulation of the building installations.

According to a further advantageous embodiment of the invention, the system is equipped with multiple humidity sensors as a detection unit. These may be part of one or more fire detectors or housed separately from a fire alarm in a separate housing. With such humidity sensors, the humidity of the room air can be measured regularly and their influence on the room climate and energy consumption Design of the indoor environment can be determined. The temporal course of the humidity can be visualized by means of a screen. For a healthy room climate, humidity of the room air within specified limits is important.

To a further advantageous embodiment of the invention is System equipped with several motion detectors. These can be part one or more fire detectors or separate from a fire alarm in a separate housing be housed. From the determined by a motion detector Data can be taken in which periods one or more Stop people in the room in question. This provides information about the frequency of use the room in question. A comparison with the temperature of the room and the energy consumption provides information about the relation between the Frequency of use, the temperature and, where appropriate, the energy consumption.

To a further advantageous embodiment of the invention, the Data transmission equipment Be part of a building services or fire alarm technology bus system. This can be on a for the rest Home automation in the building used bus system to be accessed.

To a further advantageous embodiment of the invention is System equipped with a screen to the temperatures and / or temporal temperature gradients at the temperature sensors to display the fire detector. By visualizing the temperatures or temporal temperature gradients in individual rooms of a building can give the user a particularly vivid picture.

To a further advantageous embodiment of the invention is System equipped with a control and / or regulating device, depending on the heating system to control and / or regulate the detected temperatures. The from the surveillance the temperatures in the individual rooms gained knowledge in particular in relation to the temperature of the flow of the heating system, the temperature on the outside of the building and the energy consumption of the heating system, can provide valuable insights for heating the rooms be won. In this way it can be determined, for example, whether a night reduction is useful, and in which period this should be done. The energy consumption must be considered become. Structural improvement measures for energy saving can simulated or tried in small room units. Of the obtained from these room units in terms of energy consumption Benefit can be used to make an appropriate adjustment of the throughout the building. About that can out the out of the monitoring The findings are used to identify the persons who are relevant rooms use, enlighten. These may be, for example, homeowners or employees to act in a company. Through the transparency and the vivid Representation of the temperatures and temperature profiles and the associated energy consumption People are sensitized to the energy consumed and encouraged the responsible use of energy sources.

To an advantageous embodiment of the method according to the invention become certain building parameters such as room temperature and / or temperature of the flow or retrace the heating system and / or the temperature on the outside of the building and / or the energy consumption of the heating system used by one To determine the energy index. For every room of a building Such an energy index can be calculated. There are different possibilities, to define an energy indicator. One possibility is the Energy indicator from the annual energy consumption for the heating of a particular Space and the associated heated area or the associated to calculate heated room volume. A comparable size is the annual Energy consumption per square meter or cubic meter. In addition, the Water heating and the number of people involved Use space, considered become. The energy index facilitates the comparison of individual Rooms with each other in terms of energy consumption.

To a further advantageous embodiment of the method according to the invention become room attributes such as the room size, the indoor air content, the Use of space, the type of room, the sunshine, the size of a room or several windows of the room, the insulation and / or the type and size of the radiator in the monitoring unit entered. The room attributes are edge sizes that have their value at a building Don `t change and therefore independent from the room temperature and time. But you have one Influence on the room temperature prevailing in the room. You can therefore taken into account in the calculation or determination of the energy index become.

A sensor module according to the invention is characterized in that it is equipped with a plurality of sensor elements which determine different measured variables. These include the temperature, the humidity of the room air, the brightness, the pressure and the presence of people in the room. The associated sensor elements are located in a housing which be by means of a fastening device to the ceiling or the wall of a room be can be strengthened. The measured values are transmitted by radio to a central monitoring unit. In this way, a wireless data exchange is possible. The energy is received by the sensor elements and the transmitter for transmitting the measured values in a preferred manner from its own energy supply, such as a battery. Thus, the sensor module is completely independent of terminals and can be placed at any suitable position in a room of a building. The measurements transmitted by one or more sensor modules to a central monitoring unit may be used to monitor, control and / or regulate building installations.

All Features of the invention can be both individually as well as in any combination with each other invention essential be.

Claims (18)

System for monitoring and / or control and / or regulation of building installations, which at least have a heating system with a monitoring unit, With several detection units, which have data transmission devices with the monitoring unit are connected, with several fire detectors, each with at least one Temperature sensor as detection units. System according to claim 1, characterized in that it with temperature sensors at the flow and at the return of the heating system as Detection unit is equipped. System according to claim 1 or 2, characterized that it has a device for determining the energy consumption is equipped on the heating system as a detection unit. System according to claim 1, 2 or 3, characterized that there is a temperature sensor on the outside of the building as Detection unit is equipped. System according to one of the preceding claims, characterized characterized in that with multiple humidity sensors as a detection unit Is provided. System according to one of the preceding claims, characterized characterized in that it is equipped with multiple motion detectors as detection units is. System according to one of the preceding claims, characterized in that the data transmission equipment Part of a home automation bus system are. System according to one of the preceding claims, characterized characterized in that it is equipped with a screen for Display of the temperatures and / or the temporal temperature curves at the Temperature sensors of fire detectors. System according to one of the preceding claims, characterized in that it is equipped with a control and / or regulating device is equipped around the heating system depending on the detected Control and / or regulate temperatures. Sensor module for monitoring and / or control and / or regulation of building installations with a Casing, with a first sensor element for temperature determination, with a second sensor element for determining the humidity of the room air, with a third sensor element for determining the brightness, with a fourth sensor element for determining the air pressure, with a motion detector, with a fastening device for fastening the housing the ceiling or the wall of a room in a building, with one Transmitter for transmission the measured values of the sensor elements to a central monitoring unit, with its own power supply for the sensor elements and / or the transmitter. Procedure for monitoring and / or control and / or regulation of building installations, which at least have a heating system, characterized by the following process steps: To capture the room temperature of each room equipped with a fire detector in the building by means of a temperature sensor integrated in the fire detector, To transfer the room temperatures over Data transmission equipment to a monitoring unit. Method according to claim 11, characterized in that that in addition the temperature at the flow and at the return of the heating system by means of a Temperature sensor is detected. Method according to claim 11 or 12, that additionally the Energy consumption at the heating system is detected. Method according to one of Claims 11 to 13, characterized that in addition the temperature on the outside of the building is detected by a temperature sensor. Method according to one of claims 11 to 14, characterized in that from the building parameters such as room temperatures and / or temperature of the flow and return of Heizungsan location and / or the temperature on the outside of the building and / or the energy consumption of the heating system at least one energy index is determined. Method according to one of claims 11 to 15, characterized that room attributes such as the room size, the indoor air content, the Use of space, the type of room, the sunshine, the size of a room or several windows of the room, the insulations and / or the type and size of the radiator in the monitoring unit be entered. Method according to claim 16, characterized in that that the energy index from the building parameters and the room attributes is determined. Method according to one of claims 11 to 17, characterized that the heating system in dependence controlled and / or regulated by the detected temperatures.