NL1006716C2 - Central control of domestic or office heating - Google Patents

Abstract

A central controller is connected to the TV set (14), personal computer or discrete monitor via the aerial socket. It communicates with temperature measurement and control units in each room via a socket (16) of the domestic electrical power system. It periodically interrogates each unit and regulates the central heating boiler (2) and radiators (3-7) to maintain the required temperature regime.

Description

Title: Control system for a central heating system and central heating system equipped with such a control system

The invention relates to a control system for a central heating installation (central heating installation), particularly suitable for homes and offices, comprising a heat source and a number of radiators connected via pipes to the heat source, which are distributed over a number of rooms to be heated and which are equipped with thermostat controls. The invention also relates to a central heating system provided with such a control system.

Control systems for central heating systems in homes and the like are known in many embodiments. The simplest control systems include a single central control thermostat, which is usually located in the living room and which is equipped with a thermometer, which indicates the prevailing temperature, and a control knob, with which the desired temperature can be set. An advantage of these known systems is that the operation is very simple and does not require any special skill. A drawback is, of course, that the control options are very limited and in fact only relate to the room in which the thermostat is located. Similar advantages and drawbacks apply if, in addition to the central thermostat, thermostatic valves are fitted to a number of radiators.

Programmable devices are also known which make it possible to program a desired temperature trend per day and / or week, whether or not depending on the outside temperature. A drawback of such programmable devices is that they can usually only accurately control the temperature in one room, or only act on the temperature of the boiler water, so that the 1 7 Π n 7 1 h 2 temperature control in the various (other) departures in other ways must take place. Also, the known programmable devices for persons with little experience in this field are difficult to install and / or operate, so that the possibilities offered by such a device are only used to a limited extent.

The object of the invention is to overcome the drawbacks outlined and to provide a control system for central heating installations which, on the one hand, works efficiently and efficiently, and which, on the other hand, is easy to operate for all rooms from a central point, is inexpensive and has the average DIY can be installed by yourself.

According to the invention, a control system 15 of the type described is for this purpose characterized by measuring and control units (MRU) mounted in at least a number of rooms, each of which are arranged to measure the current temperature in the associated room and by a control center (RC), connected to the measurement and control units and arranged to communicate at regular intervals with the measurement and control units in order to receive and store measurement signals from the measurement and control units and send control signals to the measurement and control units to control the thermostat control of a radiator in the room, the control center being arranged to provide at least one information image on a television set coupled to the control center and further comprising means for programming the control center, while the at least one information image is displayed. which means a remote control device of the usual for television sets e type.

It is noted that it is known per se from European patent application 0 640 799 to couple an operating device for a central heating device to a television set in order to simplify the adjustment of the installation. However, this known control device is a control device for control devices arranged locally in the various rooms and in the boiler and not a central control device that regularly receives and stores temperature information from all rooms of the building and, on the basis thereof, independently controls the signals in the units. can send the different rooms. Nor does European patent application 0 640 799 describe the possibility of programming a control center with the aid of a remote control device which is usual for television sets.

In the following, the invention will be further described with reference to the attached drawing of an exemplary embodiment.

Figure 1 schematically shows a residential house provided with a central heating control system according to the invention; Figure 2 shows an example of an overview image that can be generated by the system according to the invention; Figure 3 shows an example of a more detailed image that can be generated by the system according to the invention.

Figure 1 schematically shows a residential house 1, provided with a central heating boiler 2 and radiators as indicated at 25, 3,4,5,6 and 7, which in the example shown are placed in a living room 8, a kitchen 9, a bedroom 10 , a bathroom 11 and an office 12.

For the control of the central heating system, a control center RC is provided, which in the example shown is placed in the living room and which cooperates with a device 14 provided with a screen, which is preferably formed by a television set which is normally already present. In principle, however, use could also be made of a separate monitor or a screen of a PC (personal computer) or the like.

The control center RC is supplied from the mains, as is indicated 1006716 4 symbolically by a cord 15, which leads to a socket 16. The control center is furthermore connected to the aerial input or the video input of the television set. The frequency of the control center output signal can be adjustable to avoid problems with existing broadcasters. By connecting to the television set, the information present in the control center can be displayed on the television screen. The control center is preferably designed in a known manner such that it can be operated with the same remote control device as the television set. Optionally, a modified or separate remote control device can be used.

15 The control center is also connected via electrical cables to measuring and control units MRU located in the various rooms. The measuring and control units are connected to special ATV automatic control thermostat valves of the radiators located in the various chambers 20 to be further described. Insofar as the measuring and control units require electrical supply voltage, this can be obtained from the regular electricity grid. Furthermore, a special measuring and control circuit MRU-CV is provided, which is linked to the central heating boiler.

25 The control system functions as follows. When the television set (using remote control) is switched on and set to the preset channel assigned to the control center or to the video channel, a control panel for the control center is displayed on the screen. The signals required for this are from the control center. Figure 2 shows an example of such a control panel 20. The control panel has a number of fields, which correspond to rooms or 35 rooms in the building, each of which has a number and preferably, for the sake of ease of operation, also a 1006716 5 name. In figure 2, by way of example, a number of random numbers and names are indicated and each room or space is indicated by a rectangle. The desired and actual measured temperature 5 are indicated in the rectangles. In addition, general information is shown in the image, such as the date, the day of the week, the time and the outside temperature in this example. It can also be indicated whether the over-ride mode is switched on. The image of the control panel therefore provides the user with an overview of the actual and the desired situation in each of the rooms or spaces in which a control of the heating condition can take place.

If the user now wishes to change the temperature in one of the rooms, an information image relating to the room in question can be called up by entering the number of the room with the numeric keys on the remote control. In order to increase the ease of operation, this indication is indicated in text in the control panel 20, as shown at 21.

An example of such an information image 30 is shown in figure 3. At the top of the image, alphanumeric information about the room (name, number) and about the date and time and the prevailing temperature is given. Furthermore, in a graph in which the time of day and the vertical axis indicate the temperature on a horizontal axis, the image shows the desired and actual temperature trend. For example, a first line, indicated at 31, shows the desired temperature trend during the day and a second line 32 shows the actual temperature trend during the already elapsed part of the day. The lines preferably have different colors, for example yellow and white, which clearly differ from each other and contrast well with the chosen background. If an outside temperature sensor is present, the development of the outside temperature can also be displayed, if desired, for example with a green line, as shown with a circle line 33 in 1006716 6 figure 3. For example, using the '+' and keys to switch from one channel to the next, the user can move a cursor to the right and left across the timeline. With the sound '+' 5 and '-' buttons, for example, the desired temperature can be changed, ie the target line is shifted up or down on the screen to the right of the cursor in steps of, for example, 0.5 ° C. By pressing another room number (using the numeric keys), the 10 user ends up on a different screen. When exiting a screen, you will be asked whether the new setting should only be valid today or permanently, and will indicate which key should be pressed.

Another possibility would be to change the desired temperature setting of the selected room directly in the image 15 of figure 2 using '+' and buttons on the remote control device.

It is also possible to view the course of the boiler (water) temperature during the relevant day, whether or not in a separate information image.

A predetermined key, for example key number 9, can be used for this purpose.

The measuring and control units MRU are each equipped with a temperature sensor and, as already indicated, connected to the control center. The control center is programmed to scan each MRU at predetermined intervals. Each MRU can be provided with an address code for this. The same applies to the MRU-CV and possibly to the control center itself. The control center can therefore always compare the actual temperature in a room with the set target temperature. If the temperature in a room is lower than the target temperature, the associated thermostat valve will be opened (further) via the MRU at the control of the control center. If this does not have the desired effect, for example because the thermostatic valve is already fully open, the control center 1006716 7 can for instance be set to send a control signal to the MRU-CR, which can then switch on the burner if the boiler water temperature has not yet reached the the boiler has reached the set maximum value or, if the 5 set value has been reached, it can increase the set value of the water temperature.

The temperature sensor of the MRU can be an internal sensor, but it is alternatively possible to use an externally connectable temperature sensor. To this end, the MRU can be provided with a connector for a temperature sensor, which is designed such that when an external sensor is connected, an internal sensor, if any, is automatically disconnected. The power supply of the MRUs is preferably obtained from the mains. Each MRU can have its own address, which can be set by the user, for example with the aid of switch switches or rotary switches or the like, and is regularly scanned, for example once a minute, by the control center.

Each MRU is also connected to an associated 20 adjustable thermostatic valve. In order to be able to electrically control the thermostatic valves, use can be made of specially designed controllable valves or the like, but advantageous use can be made, for example, of existing existing thermostatic valves, modified as follows, indicated by ATV in the drawing.

A power resistor is placed under or around the temperature of the thermostat. On the fixed part of the valve knob, a connector is mounted downwards or behind that is connected to the resistance. The temperature sensor of the thermostat is heated by sending a direct or alternating current through the resistor. This will cause the valve to close. When the resistance cools, the valve opens. The amount of current and thus the intended heating effect can be determined by means of pulse width modulation. The ATV is connected to the MRU using a heat-resistant two-wire cable.

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Communication between the control center and the MRUs can take place via separate electrical lines, but it is also possible to use the existing mains lines, to which both the control center 5 and the MRUs are connected. This technique is known per se and is used, for example, with some types of baby monitors. A further description will therefore be omitted here.

As indicated above, the control center regularly receives information from the MRUs in the rooms about the current temperature in the rooms.

The control center also preferably receives information from the MRU-CV about the condition of the burner and about the temperature of the water at the boiler. This can for instance be the return water temperature. The MRU CV

requires an external temperature sensor attached to a water pipe. On the basis of this data, the control center forms control signals for the thermostatic valves in the rooms and for the burner and / or the boiler thermostat. These signals are sent regularly, for example once a minute, to the MRUs in the rooms and the MRU-CV.

It is possible to measure the return water temperature per room, so that the control center 25 can immediately determine whether a certain target temperature in a room can be reached by operating the thermostatic valve or whether the burner and / or boiler thermostat must also be operated.

Preferably, the MRUs are also each provided with an over-ride switch, so that a person who is in a certain room can temporarily set a different desired temperature for that room than the value set in the current program. To this end, the MRUs can be provided with a '+' and '-' button with which the desired temperature increase or decrease can be set. For example, each press of the button can change the 1006716 9 temperature setting by 0.5 ° C. If desired, a change can be indicated on the MRU in numbers or by means of LEDs. The control center also detects an entered change, so that it is displayed on the image of figure 2 and figure 3. The change can be automatically undone by the control center after midnight, as an MRU change is considered a temporary over-ride setting.

It is noted that after the foregoing various modifications are obvious to the skilled person. For example, the images of Figures 2 and 3 can be arranged differently. Additional information can be added if necessary. Also, in a simple embodiment, the image of Figure 3 could optionally be omitted. Furthermore, the system according to the invention can be used essentially unchanged for an electric heating system. Only the MRU-CV then has to be omitted, while instead of thermostatic valves an electrical regulator, for example a thyristor circuit, must be used. These and other modifications are considered to be within the scope of the invention.

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Claims (12)

Control system for a central heating installation, particularly suitable for residential houses and offices, comprising a heat source and a number of radiators connected thereto, which are distributed over a number of rooms to be heated and which are provided with thermostat controllers, characterized in at least a number of room mounted measuring and control units (MRU), each of which is arranged to measure the current temperature in the associated room and by a 10 control unit (RC), which is connected to the measuring and control units and which is arranged to be used at regular intervals communicate with the measurement and control units in order to receive and store measurement signals from the measurement and control units and send control signals to the measurement and control units to control the thermostat control of a radiator in the room, with the control center arranged to provide at least one information image on a television set coupled to the control center and further provided and means for programming the control center while displaying the at least one information image, the means comprising a remote control device of the type commonly used for televisions. 2. Control system for a central heating installation according to claim 1, characterized in that the at least one information image provides information about the desired and the current temperature in the rooms in which a measuring and control unit is located. Control system for a central heating installation according to claim 1 or 2, characterized in that one of the information images provides information about the temperature trend set per day in a room and about the actual temperature trend over the already elapsed part of the day. Control system for a central heating system according to any one of the preceding 5 claims, characterized in that the heat source is a boiler and the thermostat controllers are thermostatic valves, wherein a measuring and control unit (MRU-CV) is also connected to the boiler. ), which is also connected to the control unit. Control system for a central heating installation according to claim 4, characterized in that at least one of the information images provides information about the operating condition of the central heating boiler and the water temperature at the central heating boiler. Control system for a central heating installation according to claim 4 or 5, characterized in that the thermostatic valves are provided with a power resistor which can be energized to a greater or lesser extent by an associated measuring and control unit during operation. and thereby open or close the thermostatic valve further. Control system for a central heating installation according to any one of the preceding claims, characterized in that at least some of the measuring and control units mounted in the rooms are provided with an over-ride switch to temporarily change the temperature setting for the room in question. zigen. Control system for a central heating system according to any one of claims 4 to 7, characterized in that the control center is arranged to communicate at regular intervals with the measuring and control unit connected to the central heating boiler. Control system for a central heating system according to claim 7 or 8, characterized in that communication between the control center and the measuring and control units takes place via the mains mains cables. 10. Central heating installation provided with a control system according to one of the preceding claims. Control unit for use in a control system according to any one of claims 1 to 9 or in a heating installation according to claim 13. 12. Measuring and control unit for use in a control system according to any one of claims 1 to 9 or in a heating system according to claim 10. 100B7lp