FR2976650A1 - Stove e.g. wood stove, for direct heating of room, has presence sensor detecting presence of individuals, regulating unit regulating operation of stove according to detection, and temperature sensor detecting temperature outside of stove - Google Patents

Abstract

The stove (10) has a presence sensor (16) e.g. light sensor, for detecting presence of individuals, and a regulating unit for regulating operation of the stove according to the detection of individuals. An outside temperature sensor (18) detects temperature outside the stove, and an electronic control unit regulates the operation of the stove according to difference between set point temperature of the stove and the temperature. The control unit is adapted to modify the set point temperature according to the detection of individuals by the presence sensor.

Description

698 ATLC 1

STOVE

The present invention relates to a stove that is to say a heater comprising a combustion chamber, for direct heating by thermal radiation and / or convection. It is known stoves wood or pellets programmed self-powered. These stoves are automatically powered to preprogrammed time slots of the day to ensure sufficient heating during these times. However, since the need for heating does not comply with these time periods, these stoves present either unnecessary consumption (in the case where no heating is actually necessary) or, on the contrary, does not ensure the need (in case this need corresponds to a preprogrammed time slot where no heating is ordered). The object of the present invention is to provide a stove does not have the aforementioned drawbacks. To this end, the present invention provides a stove comprising a sensor for the presence of individuals and means for regulating the operation of the stove according to the detection of individuals by the presence sensor. According to preferred embodiments, the invention comprises one or more of the following features: the means for regulating the operation of the stove comprise a device adapted to regulate the rate of operation of the stove; - The stove further comprises a temperature sensor outside the stove and an electronic control unit adapted to regulate the operation of the stove according to the difference between a set temperature and the temperature measured by the sensor. temperature ; the electronic unit is adapted to modify the stove's target temperature as a function of the detection of individuals by the presence sensor; the means for regulating the operation of the stove comprise a device for supplying fuel to the combustion chamber of the stove adapted to modify the quantity of fuel supplied to the combustion chamber per unit of time as a function of the detection of individuals by the presence sensor; the means for regulating the operation of the stove comprise a device for controlling the flow rate of the oxidant supplying the combustion chamber of the stove; R: 132600A32698 ATLC32698--110606 dde tq filed.doc 1/7 13/06/2011 11:15 30 35 698 ATLC 2

the means for regulating the operation of the stove comprise a device for adjusting the flue gas discharge rate from the combustion chamber of the stove; - the stove is of wood, pellet, pellet, coal or fuel type; - the stove includes a fuel tank; - The stove comprises an electronic control unit adapted to control the operation of the stove according to a temporal programming law, modulated according to the detection of individuals by the self-learning presence sensor; and the presence sensor comprises at least one of a brightness sensor, an infrared motion sensor, a detection device by means of a camera and a combination of such sensors. Other characteristics and advantages of the invention will appear on reading the following description of a preferred embodiment of the invention, given by way of example and with reference to the appended drawing. Figure 1 shows a diagram of a stove. FIG. 2 represents a first example of a control system that can be implemented in the stove of FIG. 1. FIG. 3 represents a second example of a control system that can be implemented in the stove of FIG. 1, a stove 10 comprises a fireplace 12 and a fuel tank 14. The fuel can be of any known type, including wood, pellets, granules, coal or fuel. The stove 10 is adapted to operate autonomously. To do this, the fireplace 12 is fed by a fuel tank automatically. The stove may also include any means to start the combustion, or to stop automatically. The stove 10 is also provided with a presence sensor 16, and optionally an external temperature sensor 18.

The presence sensor 16 may in particular comprise a brightness sensor, an infrared motion sensor, a detection device by means of a camera or a combination of such sensors. The outdoor temperature sensor 18 makes it possible to measure a temperature outside the stove 10, in particular the temperature of the room in which the stove is installed. The stove 10 is also provided with means for regulating the operation of the stove according to the detection of individuals by the presence sensor 16.

R: 132600A32698 ATLC32698--110606 dde tq filed.doc 2/7 13/06/2011 11:15 698 ATLC 3

These means comprise in this case an electronic control unit 20, 22 (see FIGS. 2 and 3) which controls, as a function of the presence detection of an individual using the presence sensor 16, a device 23 adapted to to adjust the stove's operating rate.

The device 23 adapted to adjust the rate of operation of the stove can take different forms depending on the stove or parameters of the stove on which it acts. It can thus notably be: - a device for adjusting the flow of the oxidant supplying the combustion chamber of the stove. Conventionally, the oxidizer is air; a device for adjusting the flue gas discharge flow from the combustion chamber 12 of the stove to the outside of the stove; a fuel supply device for the combustion chamber of the stove, adapted to modulate the quantity of fuel supplied to the combustion chamber per unit of time; a combination of at least two of these devices. The stove further comprises a man-machine interface 24 allowing a user to set a set temperature or a set operating rate. This human-machine interface is in operative connection with the electronic control unit 20, 22.

In addition, the electronic control unit 20, 22 is preferably adapted to control the operation of the stove 10 according to a temporal programming law, this temporal law being modulated according to the detection of individuals by the presence sensor 10, according to a self-learning method. In the following, two examples of stove control system are described in greater detail depending on the detection of the presence of an individual by the presence sensor that can be implemented in the stove. 10 According to the example of FIG. 2, the electronic control unit 20 receives an order of operation of the man-machine interface 24 - for example a running rate - and presence detection information of the presence sensor 16. According to the presence detection information, the electronic control unit 20 controls the device 23 adapted to adjust the rate of operation of the stove. For example, the electronic control unit can control a reduction of the operating rate of the stove 10 in the case where no individual is detected by the presence sensor. This reduction of the rate of operation may for example be a reduction of the operating rate to 30% of its nominal rate controlled by the man-machine interface or the programming law. Preferably, the reduction of the rate of operation can be determined by the user himself, via the man-machine interface.

R: 132600A32698 ATLC32698--110606 dde tq filed.doc 3/7 13/06/2011 11:15 698 ATLC 4

According to the example of FIG. 3, the electronic unit 22 modifies the setpoint temperature as a function of the presence information that it receives from the presence sensor 16. The electronic unit may for example emit a lower setpoint temperature. 3.5 ° C with respect to the temperature controlled by the man-machine interface or the programming law, when no individual is detected by the presence sensor. The control system of FIG. 3 then comprises a comparator 26 which compares the set temperature emitted by the electronic control unit with the temperature measured by the temperature sensor 18. The device 23 adapted to adjust the operating rate of the stove is then controlled according to the sign of the difference of these two temperatures, so that the temperature measured by the temperature sensor 18 is substantially equal to the set temperature. The stove 10 thus has the advantage of being able to be used completely automatically since its operation is regulated according to the presence detection of an individual. The stove 10 also allows energy savings since the operating rate of the stove is reduced in the absence of user. In addition, the stove according to the invention can be started as soon as an individual is detected. This has the advantage of adapting the operation of the stove compared to a stove programmed according to a strict and immutable programming law.

According to the preferred embodiment of the invention, the stove 10 operates according to a programming law which is adapted according to the detection of the presence of an individual. This has the advantage of being able to predict the arrival of an individual according to the programming law and, consequently, to operate the stove at a higher operating rate before the arrival of the individual so that the temperature of the room on arrival corresponds to a temperature of comfort. Of course, the present invention is not limited to the examples and to the embodiment described and shown, but it is capable of numerous variants accessible to those skilled in the art. R: 132600A32698 ATLC32698--110606 dde tq filed.doc 4/7 13/06/2011 11:15

Claims (11)

REVENDICATIONS1. Stove (10) comprising a sensor (16) for the presence of individuals and means for regulating the operation of the stove (10) as a function of the detection of individuals by the presence sensor (16). 2. Stove according to claim 1, wherein the means for regulating the operation of the stove comprise a device adapted to adjust the rate of operation of the stove. 3. Stove according to claim 1 or 2, further comprising a sensor (18) a temperature outside the stove and an electronic control unit adapted to regulate the operation of the stove according to the difference between a temperature set point and the temperature measured by the temperature sensor (18). 4. Stove according to claim 3, wherein the electronic unit is adapted to change the stove target temperature based on the detection of individuals by the presence sensor. 5. Stove according to one of claims 1 to 4, wherein the means for controlling the operation of the stove comprises a fuel supply device of the combustion chamber of the stove adapted to change the amount of fuel supplied to the chamber of combustion per unit of time depending on the detection of individuals by the presence sensor. 6. Stove according to one of claims 1 to 5, wherein the means for controlling the operation of the stove comprises an oxidizer flow control device supplying the combustion chamber of the stove. 7. Stove according to any one of claims 1 to 6, wherein the means for regulating the operation of the stove comprises a flue gas flow rate control device from the combustion chamber of the stove. 35 8. Stove according to any one of the preceding claims, wood type, pellets, pellet, coal or fuel. R: 132600A32698 ATLC32698--110606 dde tq filed.doc 5/7 13/06/2011 11: 1530698 ATLC 6 9. Stove according to any one of the preceding claims, comprising a fuel tank. 10. Stove according to any one of the preceding claims, comprising an electronic control unit adapted to control the operation of the stove according to a temporal programming law, modulated according to the detection of individuals by the presence sensor by self-learning . 11. Stove according to any one of the preceding claims, wherein the presence sensor (18) comprises at least one of a brightness sensor, an infrared motion sensor, a detection device by means of a camera and a combination of such sensors. R: 132600A32698 ATLC32698--110606 dde tq filed.doc 6/7 13/06/2011 11:15