WO2005008351A1 - Device, system and method for regulating an electric radiator - Google Patents

Abstract

The invention concerns a device (404) for regulating an electric radiator (406), said device regulating the heating using a variable set point (420), designed to improve human comfort in the radiator environment. According to the invention, said device is characterized in that it comprises means (408) for determining said set point (420) on the basis of ambient moisture by regulating solely the heating power of the radiator.

Description

 DEVICE, SYSTEM AND METHOD FOR CONTROLLING AN ELECTRIC RADIATOR.

The present invention relates to a device, a system and a method for regulating an electric heater. I) The prior art: The regulation of the temperature of a room is generally carried out by means of two distinct categories of appliances: - A first category relates to air conditioners, heavy and expensive devices due, in particular, to the presence of '' a compressor that can lower the temperature of a room. - A second category concerns radiators, simple and inexpensive devices, which can only heat a room using resistors. The invention relates only to this second category of apparatus, so that this invention makes it possible to improve the comfort of an individual in a simple manner and with a limited cost, as described below. It is known to equip an electric radiator with a thermostat intended to control its heating power in order to obtain a desired temperature in the room comprising this radiator. FIG. 1 shows a diagram 100 representing the operation of such a thermostat, a desired temperature having been set manually by the user of the radiator with which this thermostat is associated. It is then observed that the thermostat controls the operation of the radiator by modifying the durations or periods of heating (axis of abscissas 102) over time (axis 104 of ordinates, in minutes) so that these periods cause the desired temperature in the part considered. In other words, thanks to a temperature sensor, the thermostat alternates active periods (heating) with inactive periods (heating off) to regulate the room temperature. Furthermore, it is known to measure the humidity prevailing in a room by means of a hydrometer. For example, in a semiconductor factory, a hydrometer is used to determine the ambient humidity in order to ensure the reproducibility of the semiconductors produced. Finally, it should be noted that the feeling, or level, of comfort of an individual is a function of the ambient or surrounding humidity of that individual. In fact, it is known to use curves, called psychometric (FIG. 2), which relate relative (%) or absolute (in grams per cubic meter of air) humidity rates (axis of ordinates 202) to temperatures of this environment (abscissa axis 204) to indicate the surrounding humidity level generating the feeling of optimal comfort of an individual when the environment of the latter has a given temperature. II) The invention:

1) The object of the invention: The invention aims to improve the operating conditions of an electric heater, in particular of the radiator type, in order to improve the comfort of the user of such a heater. 2) The invention results from various empirical findings:

According to a first observation, it appeared that the respect of the humidity and temperature conditions fixed by the psychometric curves in a room frequented regularly, such as a place of work or residence, made it possible to appreciably improve comfort. people frequenting this room. Such a feeling of comfort generally results in a drop in the set temperature required by the user of the radiator, as detailed later, which makes it possible to reduce the cost of heating while improving comfort in the room. According to a second observation, it appeared that the temperature and / or humidity of a room frequented regularly varies greatly and rapidly depending on, in particular, the number of people present in this room of the surrounding meteorology and / or the nature of the activities taking place in the room. For example, the presence or absence of water vapor in a bathroom or in a kitchen, playing sports or modifying the presence of animals can double the humidity in a room, or even saturate the latter in moisture. In fact, an individual generates, by breathing, several liters of air saturated with humidity per minute. According to a last observation, it appeared that the surrounding atmospheres of many individuals are only regulated according to their temperature while, as shown above, the humidity of this atmosphere is an essential factor for their comfort.

3) The invention: The invention relates to a device for regulating an electric radiator, this device regulating the heating using a variable setpoint, this device being intended to improve human comfort in the environment of the radiator. , characterized in that it comprises means for determining this setpoint as a function of the ambient humidity by regulating only the heating power of the radiator. In other words, the invention relates to a temperature regulation device optimized for taking account of variations in ambient humidity. Thanks to a device according to the invention, it is possible to automatically control the temperature of a room by electric heating by slaving it to the measurement of the humidity of this room so as to maintain the environment in conditions of optimal temperature and humidity for the comfort of its occupants, for example by means of psychometric curves. Thus, in a device according to the invention, the parameter taken into account to control the temperature of a room is the level of comfort chosen by the user, this level of comfort being identified in the device by a pair of values in humidity and temperature. In addition, as previously indicated, there is then a gain in electrical consumption which reduces the cost of heating. In fact, a device in accordance with the invention makes it possible to maintain an individual in a comfortable atmosphere independently of its variations in temperature and humidity so that this individual will less frequently modify the heating instruction of his heating compared to a device heating according to the prior art. To this end, it should be emphasized that these modifications generally aim to increase the heating setpoint because, on average, an individual tends to prefer an overheated atmosphere compared to an underheated atmosphere. In addition, the reduction of setpoint variations intrinsically allows better management of the heating and increased comfort for the user who is not called upon to carry out these variations. It should be emphasized that, a priori surprisingly, a device in accordance with the invention can modify a temperature or a heating power initially controlled when the humidity conditions vary after this command. In this case, the operation of the heating is ensured so that the user is not inconvenienced by this modification but, on the contrary, so that this individual is placed in a more comfortable environment compared to the prior art. Finally, it is important to note that ambient parameters, other than temperature and humidity, can be taken into account to improve the level of comfort of an individual in his environment, such as the presence of radiation, movement and / or the quality of the ambient air. However, taking into account only the ambient temperature and humidity parameters, in accordance with the invention, it is possible to achieve a satisfactory level of comfort with simple means. In one embodiment of the invention, the device comprises means for determining the setpoint by determining a power and / or heating times. According to one embodiment, the device comprises means, such as an electronic card, for storing curves identifying pairs of temperature values and humidity rate values and means for determining the setpoint as a function of at least one of these curves. In one embodiment, the device comprises means so that a user can select, manually, a curve controlling the operation of the radiator and / or means so that this selection is made automatically. According to one embodiment, the device comprises means for the curve to be considered as a straight line such that the temperature is linearly a function of the humidity rate. In one embodiment, the device comprises means for modifying, with a predetermined frequency, the set temperature as a function of the humidity level measured in real time. The invention also relates to an electric radiator provided with a device for regulating the heating temperature as a function of the ambient temperature, this radiator being characterized in that the device conforms to one of the preceding embodiments. The invention also relates to an electric heating system which is characterized in that it comprises a device according to one of the preceding embodiments as well as a humidity sensor and a temperature sensor intended to inform the device of the temperature and of the surrounding humidity. In one embodiment, the communications between the sensors and the device are carried out by wire and / or by a radio system. The invention also relates to a method of regulating the temperature of a room heated by an electric radiator which is characterized in that a device according to one of the preceding embodiments is used, a heating according to the preceding embodiment and / or a heating system according to one of the preceding claims. Other characteristics and advantages of the invention will appear with the description given below of embodiments of the latter carried out by way of description and without limitation in. referring to the attached figures in which: FIG. 1, already described, represents the operation of the thermostat of a conventional electric radiator, - FIG. 2, already described, represents psychometric curves, - FIGS. 3a and 3b represent variations in temperature and heating power for a radiator according to the invention, - Figure 4 shows a control system for an electric radiator according to the invention, - Figures 5a and 5b represent measurements relating to the operation of 'a device according to one invention, and - Figure 6 shows the temperature and humidity variation curves in a heated room according to the invention. In Figure 3a is shown an example of variation of the heating power of a radiator according to the invention during a day (24-hour period, abscissa axis

300), this power being expressed as a percentage of the total heating power used (ordinate axis 302). We then observe that this power evolves in a continuous and measured manner, reflecting good management of the radiator heating power, around an average value of 45%. During this same period, the temperature of the environment concerned varied between 15.75 degrees Celsius and 16.10 degrees Celsius (Figure 3b) depending on the humidity of the room according to the invention. In other words, the operating instruction of the radiator, managed automatically by means such as software, does not impose a given temperature but varies according to the humidity level, in agreement with the importance that the rate humidity plays in the comfort of individuals as identified by the invention. A system 400 according to the invention is described below with the aid of FIG. 4, this system comprising in particular a humidity sensor 402 and a temperature probe 405 fitted to a radiator 406. Thus, when the humidity% H varies in room 414 provided with this system 400, this variation is detected by the humidity sensor 402 and then transmitted to a microcontroller 404 which controls the setpoint 420 of the radiator 406 with which it is associated in order to control the operation of the latter. such that optimal surrounding temperature and humidity conditions are obtained in room 414. For this purpose, the microcontroller 404 comprises means 408, such as software, for memorizing and using psychometric or isometric curves. comfort 410 in order to maintain the operation of the radiator according to one of these curves 410. For this, these means 408 take into account the measured values of temperature ° C and humidity H% in the room to determine the power P and the heating times t of heating according to an iso-comfort curve selected by the user by means of a setpoint 413 detailed later. Thus, occupant 412 retains a feeling of comfort with respect to its environment in room 414, in which the system is located, without having to modify the set temperature of the radiator despite changes in the humidity of the room due, for example, to activity in the room or to a change in local weather. For this, the microcontroller 404 is, for example, located on an electronic card 416, provided with the means 408 and associated with the humidity sensor 402 and with the temperature probe 406. This microcontroller 404 also controls the communications 409 with a sensor 'humidity 402' which is placed at a distance from the radiator 406. In fact, depending on the embodiment of the invention used, a humidity sensor 402 located in the radiator, which makes it possible to reduce the cost of the system, and / or a humidity sensor 402 ′, located at a distance from the radiator, is used. In other words, the invention covers a system combining one or more sensors, whether or not located in the radiator. The communications transmitted by a sensor 402 and / or 402 ′ include the information necessary for regulating the power P of the heating and the duration t of the heating periods, these communications being made via a wire or by means of electromagnetic waves such as than radio waves. As such, it should be noted that, in an embodiment not shown, a temperature sensor remote from the radiator 406 is used. Several psychometric curves 410 (curves relating humidity to temperature) are programmed in the microcontroller using software. Thus, the user can choose using a manual selector 413 on which psychometric curve he wishes to place himself. In addition, it should be noted that, in the identified comfort zone, the curves can be assimilated psychrometric to straight lines, which facilitates the programming of the device. The diagram 500 shown in FIG. 5a shows another advantage of the invention by indicating the humidity levels measured when a room is heated using a device according to the invention (values 502) and when this room is heated using a conventional device (values 504). In fact, it can then be seen that, by controlling the temperature, the humidity level is indirectly modified so that the latter can be maintained in a comfort zone comprising humidity levels situated between 40 and 60%. In other words, there is an influence between the temperature in a room and its humidity. In addition, it can also be seen that the distribution of the humidity levels measured in a room equipped with a heating according to the invention is narrower than in a room equipped with a heating according to the prior art. Such a difference reflects the better management of the surrounding conditions by heating in accordance with the invention which makes it possible to limit the variations in these surrounding conditions. Furthermore, FIG. 5b shows a set of points 550 representing pairs of temperature values (axis 552 of the abscissae) and humidity (axis 554 of the ordinates) measured when the operating set point of a radiator is checked. with a regulating device according to the invention, that is to say as a function of temperature and humidity. We then see that these measurements are located along a straight line. In fact, the iso-comfort curves can be assimilated to straight portions in the generally required ranges of use, thus facilitating their use. It appeared that these measurements are extremely reproducible on different days because, the environment being Controlled according to two parameters (temperature and humidity) contrary to the only control by means of the temperature according to the prior art, this environment is more easily reproducible. Consequently, the comfort of an individual is increased over a long period because he is placed in an environment to which he has become accustomed, this environment corresponding to an iso-comfort curve. In this embodiment, a device according to the invention comprises means for controlling and determining the operating set point of the radiator as a function of the humidity rate measured "in real time", that is to say with a frequency of l 'order of ten seconds, in order to modify the temperature setpoint as a function of the modifications in the humidity level detected, in particular, during the heating of the room. Such a correlation is shown using FIG. 6 which represents the variations in the humidity rate.

(curve 602), tending towards a value corresponding to the set temperature towards which the part tends (curve 604). The present invention is susceptible of numerous variants. Thus, the radiator control means can be controlled remotely by any type of communication system, for example via a telephone network, so that the user can control a heating before being present in the room comprising this heating . Furthermore, it should be noted that the invention applies to any type of electric heating, and in particular for convectors or for radiant heaters. Finally, it should be noted that the invention also relates to any heating device the control of which is carried out by means of a device according to the invention, in particular using psychometric curves.

Claims

1. Device (404) for regulating an electric radiator (06), this device regulating the heating using a variable setpoint (420), this device being intended to improve human comfort in the environment of the radiator , characterized in that it comprises means (408) for determining this setpoint

(420) as a function of the ambient humidity by regulating only the heating power of the radiator.

2. Device according to claim 1 characterized in that it comprises means (408) for determining the setpoint (420) by determining a power (P) and / or heating times (t).

3. Device according to claim 1 or 2 characterized in that it comprises means (408), for example stored in an electronic card (416), for memorizing curves (410) identifying pairs of temperature values and values humidity level and means for determining the setpoint (420) as a function of at least one of these curves.

4. Device according to claim 3 characterized in that it comprises means (408) so that a user can select, manually, a curve (410) controlling the operation of the radiator (406) and / or means for that this selection is made automatically.

5. Device according to one of the preceding claims, characterized in that it comprises means (404) so that the curve is considered to be a straight line such that the temperature is linearly a function of the humidity rate.

6. Device according to one of the preceding claims, characterized in that it comprises means to modify the setpoint (420) with a predetermined frequency as a function of the humidity level.

7. Electric heater fitted with a device for regulating the heating temperature as a function of the ambient temperature, characterized in that the device conforms to one of claims 1 to 6.

8. Electric heating system characterized in that it comprises a device according to one of the preceding claims as well as a humidity sensor (402; 402 ') and a temperature probe (405) intended to inform the device of the surrounding temperature and humidity.

9. System according to claim 7 characterized in that communications between a sensor (402; 402 '; 405) and the device are carried out by wire and / or by a radio system.

10. A method of regulating the temperature of a room heated by an electric heater characterized in that a device according to one of claims 1 to 6 is used, a heating according to claim 7 and / or a system in accordance to claims 8 or 9.