FR3030695A1 - METHOD FOR REGULATING A HEATER AND / OR AIR CONDITIONING APPARATUS BASED ON RELATIVE HUMIDITY AND ASSOCIATED HEATING AND / OR AIR CONDITIONING APPARATUS - Google Patents

Abstract

The invention relates to a method for regulating a heating and / or air-conditioning apparatus (1) as a function of relative humidity, the heating and / or air-conditioning apparatus (1) comprising heating means and or air conditioning (2), a regulation module (3) connected to a temperature sensor means (4) and to a humidity sensor means (6), characterized in that it consists in adding a corrective factor to a temperature instruction entered by the user as a function of the relative humidity measured by the humidity sensor means (6), then sending the temperature instruction corrected by the corrective factor to the control module ( 3). The invention also relates to an apparatus (1) and a heating and / or air conditioning unit implementing said method.

Description

The present invention relates to the field of the regulation of heating and / or air-conditioning apparatuses, and to a method for regulating a heating and / or air conditioning apparatus according to the relative humidity. and relates in particular to a method of regulating a heating and / or air conditioning apparatus as a function of the relative humidity and to a device and an associated heating and / or air conditioning assembly. Existing heating and / or air-conditioning apparatuses can maintain with more or less performance a constant temperature in one or more rooms of a building at a level set by the user. The more the temperature is stable (in particular by the amplitude and drift criteria, governed by the standards of the specifications of the Central Laboratory of Electrical Industries (LCIE) 103-13), the greater the comfort of the user is important. However, numerous scientific studies carried out on the subject demonstrate that the comfort of the user is not only related to the ambient temperature, but also to the relative humidity in the room, the concept of user comfort being described in particular. in EN ISO 7730. There is therefore a need to regulate the heating and / or air conditioning unit also according to the measured relative humidity in order to improve the comfort of the user.

The present invention aims at solving the drawbacks of the prior art by proposing a method of regulating a heating and / or air conditioning apparatus as a function of the relative humidity, a step of the method of adding a corrective factor to the temperature instruction as a function of the relative humidity measured by a moisture sensor means disposed on or connected to the heater 5 and / or air conditioning, the corrective factor being positive when the measured relative humidity is less than 50% and negative when the measured relative humidity is greater than 50%, thereby improving the user's comfort by changing the temperature instruction as a function of the measured relative humidity . The present invention also provides a heating and / or air conditioning apparatus comprising a temperature setpoint correction module implementing said correction method according to the present invention, and a heating and / or air conditioning assembly comprising at least two heating and / or air conditioning apparatus according to the present invention. The subject of the present invention is therefore a method of regulating a heating and / or air conditioning apparatus as a function of the relative humidity, the heating and / or air conditioning apparatus comprising heating means and / or air conditioning, a control module connected to a temperature sensor means and a humidity sensor means, the control module comparing the ambient temperature measured by the temperature sensor means to a temperature instruction entered by a user. then sending a temperature setpoint to the heating and / or air conditioning means of the heating and / or air conditioning apparatus according to the comparison result, characterized in that it furthermore consists in adding to the instruction of temperature a corrective factor depending on the relative humidity measured by the moisture sensor means, then to send the corrected temperature instruction to the control module, the Corrective Factor Corrective action such that: 50% corrective measure - measured x (0.2 ° C) if 0% Hrreasured 50%, and 10% corrective 50% "measured x (0.2 ° C) if 50% <Hrreasured 100% , 10% where measured is the relative humidity measured by the moisture sensor means as a percentage of relative humidity. It should be noted that the heating and / or air conditioning means may be a heating body, a heat pump and / or a cold battery. It should be noted that the control module is a controller comprising one of a processor, a microprocessor, a microcontroller, a digital signal processor (DSP), or a Programmable Gate Array (FPGA) programmable logic component or application-specific component (ASIC), and memory, preferably a PID (proportional-integral-derivative) type regulator. Thus, the temperature instruction entered by the user is corrected by a corrective factor in order to take into account the ambient relative humidity measured, which makes it possible to anticipate user discomfort and increase responsiveness. regulation. The temperature instruction entered by the user is lowered when the measured relative humidity is greater than or equal to 60% and is increased when the measured relative humidity is less than or equal to 40%, thus ensuring the thermal comfort of 30%. the user.

This makes it possible to adapt the operating mode of the heating and / or air conditioning unit to the closest to the user's needs, and to maintain the same level of comfort and to save energy in case of high ambient humidity by lowering the temperature setpoint. The user can thus obtain the same level of comfort whatever the external conditions of humidity and / or the internal disturbances of humidity.

For example, in the event of a strong thunderstorm or after a shower, the measurement of the ambient relative humidity will make it possible to identify these types of disturbances and the implementation of the method will make it possible to modify in real time the temperature setpoint accordingly.

The present invention also relates to a heating and / or air conditioning apparatus comprising a heating and / or air conditioning means, a regulation module connected to a temperature sensor means, the regulation module comparing the ambient temperature measured by the temperature sensor means to a temperature instruction entered by a user and then sending a temperature setpoint to the heating and / or air conditioning means of the heating and / or air conditioning apparatus according to the comparison result, characterized by the it further comprises a humidity sensor means connected to a temperature instruction correction module, the temperature instruction correction module being configured to implement the method according to the present invention.

Thus, the humidity sensor means makes it possible to measure ambient relative humidity in real time, and the temperature instruction correction module makes it possible to correct in real time the temperature instruction entered by the user according to the temperature. relative humidity measured by the moisture sensor means by adding a corrective factor on the temperature instruction, thus improving the thermal comfort of the user.

According to a particular characteristic of the invention, the temperature instruction correction module is implemented digitally by a calculation unit comprising memory or connected to memory.

Thus, the corrective factor added to the temperature instruction can be either computed in real time by the numerical calculation unit, or selected by the numerical calculation unit in a look-up table of correction factors stored in the memory.

It should be noted that the regulation module and the temperature instruction correction module could be a single module comprising a computing unit and the memory, without departing from the scope of the present invention.

The temperature sensor means may advantageously be integrated with the heating and / or air conditioning apparatus. The moisture sensor means may advantageously be integrated with the heating and / or air conditioning apparatus. The present invention also relates to a heating and / or air conditioning assembly comprising at least two heating and / or air conditioning apparatus according to the present invention, characterized in that each heating and / or air conditioning apparatus comprises a a regulation module, a temperature sensor means, a humidity sensor means and a temperature instruction correction module, each heating and / or air conditioning unit being locally controlled. Thus, the regulation of the heating and / or air conditioning apparatus as a function of the measured relative humidity is carried out locally at the level of each of the heating and / or air conditioning units, each unit having its own regulation system. For example, in the case where the heating and / or air conditioning units are each arranged in a room separate from a housing, the regulation of a heating and / or air conditioning unit is carried out according to the relative humidity. measured in the room where is located said heater and / or air conditioning. Thus, a heating and / or air conditioning apparatus disposed in a damp room such as a bathroom will have a different regulation of a heating and / or air conditioning device disposed in a non-humid room such as a room. According to a variant of the invention, the heating and / or air conditioning assembly comprises a single control module, a single temperature sensor means, a single humidity sensor means and a control instruction correction module. single temperature for the at least two heating and / or air-conditioning units, the at least two heating and / or air conditioning units being centrally controlled by the single control module. Thus, the regulation of the heating and / or air conditioning apparatus as a function of the measured relative humidity is carried out centrally by a centralized system on which the single control module, the single temperature probe means, the average of single humidity sensor and the single temperature instruction correction module, the regulation being unique for all the heating and / or air conditioning units arranged in the various rooms of the housing. The overall cost of the heating and / or air conditioning unit of the dwelling is thus reduced. To better illustrate the object of the present invention will be described below, by way of illustration and not limited to, a preferred embodiment, with reference to the accompanying drawing.

In this drawing: - Figure 1 is a block diagram of a heating and / or air conditioning apparatus according to the present invention.

Referring to Figure 1, it can be seen that there is shown a heater and / or air conditioner 1 according to the present invention. The heating and / or air-conditioning apparatus 1 20 comprises a heating and / or air-conditioning means 2, a regulation module 3 and a temperature sensor means 4. The heating and / or air-conditioning means 2 may be a heater and / or a heat pump 25 in the case of a heater, or a heat pump and / or a cold battery in the case of an air conditioner. The control module 3 is a controller comprising one of a processor, a microprocessor, a microcontroller, a digital signal processor (DSP), or a Programmable Gate Array (FPGA) programmable logic component or a specific application component. (ASIC), and memory, preferably a PID (proportional-integral-derivative) type regulator. The control module 3 is configured to compare the ambient temperature measured by the temperature sensor means 4 with a temperature instruction entered by a user and to send to the heating and / or cooling means 2 of the heater and / or air conditioning 1 a temperature setpoint according to the comparison result. The heater and / or air conditioner 1 further comprises a temperature instruction correction module 5 and a humidity sensor means 6. The heater and / or air conditioner also includes a user interface 7 allowing a user to enter a desired temperature instruction on the heating and / or air conditioning apparatus 1. The temperature instruction correction module 5 is adapted to carry out the method according to the present invention comprising the steps of adding a corrective factor to the temperature instruction, input via the user interface 7, as a function of the relative humidity measured by the humidity sensor means 6, and 25 - sending the corrected temperature instruction to the control module 3, the corrective factor F '' 'tif being such that: corrective 50% - measured x (0.2 ° C) if 0% Hrresured 50%, and 10% Fcorrective 50% "measured x (0.2 ° C) if 5 0% <100% Hg, 10% where Hm is the relative humidity measured by the humidity sensor means 6 as a percentage of relative humidity.

The notation r 1 designates the whole part by excess, the notation [_I designates the whole part by default. Thus, the temperature instruction entered by the user is corrected by means of a corrective factor in order to take into account the ambient relative humidity measured, which makes it possible to anticipate a user's discomfort and to increase the reactivity of the regulation.

The temperature instruction correction module 5 is implemented digitally by a calculation unit comprising memory. The correction factor applied to the temperature instruction may be either computed in real time by the numerical calculation unit, or selected by the numerical calculation unit in a correction factor table stored in the memory. It should be noted that the regulation module 3 and the temperature instruction correction module 5 could be a single module comprising a computing unit and the memory, without departing from the scope of the present invention. Table 1 below illustrates corrective factors added to a temperature instruction of 20 ° C by way of example as a function of the relative humidity measured according to the control method of the present invention.

Humidity Setpoint Factor Corrective Relative Temperature Setpoint Applied Corrected Applied Temperature 20.0 ° C 0% +1.0 ° C 21.0 ° C 10% +0.8 ° C 20.8 ° C 20% +0.6 ° C 20.6 ° C 30% +0.4 ° C 20.4 ° C 40% +0.2 ° C 20.2 ° C 50% 0.0 ° C 20.0 ° C 60% -0, 2 ° C 19.8 ° C 70% -0.4 ° C 19.6 ° C 80% -0.6 ° C 19.4 ° C 90% -0.8 ° C 19.2 ° C 100% - 1.0 ° C 19.0 ° C Table 1 It should be noted that the temperature instruction of 20 ° C was chosen as an example, and that any temperature instruction other than 20 ° C would have It may have been chosen without departing from the scope of the present invention, the corrective factor being independent of the temperature instruction.

The temperature instruction input by the user is lowered when the measured relative humidity is greater than or equal to 60% and is increased when the measured relative humidity is less than or equal to 40%, thus ensuring the thermal comfort of the user. More precisely, the corrective factor is zero when the measured relative humidity is 50%, is represented in steps of +0.2 ° C for humidity variations of -10% compared to 50% when the relative humidity measured is less than 50%, and is represented in steps of -0.2 ° C for humidity variations of + 10% with respect to 50% when the measured relative humidity is greater than 50%. Thus, energy savings are achieved and the same level of comfort is maintained in the event of high ambient humidity by lowering the temperature setpoint, and user comfort is improved in case of low ambient humidity. increasing the temperature setpoint. The invention also relates to a heating and / or air conditioning assembly comprising at least two heating and / or air conditioning units 1 according to the present invention. According to a first variant of the invention, each heating and / or air-conditioning apparatus 1 comprises a regulation module 3, a temperature sensor means 4, a humidity sensor means 6 and a correction module. temperature instruction 5, each heating and / or air conditioning unit 1 being locally regulated.

According to a second variant of the invention, the heating and / or air conditioning assembly comprises a single regulation module 3, a single temperature sensor means 4, a single humidity sensor means 6 and a module a single temperature setpoint instruction for the at least two heating and / or air-conditioning units 1, the at least two heating and / or air-conditioning units 1 being centrally regulated by the single control module 3. 25

Claims (7)

CLAIMS1 - Method of regulating a heating and / or air conditioning apparatus (1) as a function of the relative humidity, the heating and / or air conditioning apparatus (1) comprising a heating and / or air conditioning means (2), a control module (3) connected to a temperature sensor means (4) and to a humidity sensor means (6), the control module (3) comparing the ambient temperature measured by the means of a temperature probe (4) to a temperature instruction entered by a user and then sending a temperature setpoint to the heating and / or air conditioning means (2) of the heating and / or air-conditioning apparatus (1) according to the comparison result, characterized in that it further comprises adding to the temperature instruction a corrective factor depending on the relative humidity measured by the moisture sensor means (6), and then sending the instruction temperature corrected to the regulation module (3), the corrective factor F '' 'tif being such that: corrective 50% - measured x (0.2 ° C) if 0% Hrresured 50%, and 10% F corre, 50% - measured x (0 , 2 ° C) if 50% <100% Mm, 10% where M is the relative humidity measured by the moisture sensor means (6) as a percentage of relative humidity. 2 - Heating and / or air conditioning apparatus (1) comprising a heating and / or air conditioning means (2), a regulation module (3) connected to a temperature sensor means (4), the regulation module (3) comparing the ambient temperature measured by the temperature probe means (4) with a temperature instruction entered by a user and then sending a temperature setpoint to the heating and / or cooling means (2) of the heating and / or air conditioning (1) according to the comparison result, characterized in that it further comprises a humidity sensor means (6) connected to a temperature instruction correction module (5), the temperature instruction correction module (5) being configured to implement the method of claim 1. 3 - Heating and / or air conditioning apparatus (1) according to claim 2, characterized in that the temperature instruction correction module (5) is implemented digitally by a calculation unit comprising the memory or connected to memory. 4 - Heating and / or air conditioning apparatus (1) according to claim 2 or claim 3, characterized in that the temperature sensor means (4) is integrated in the heating and / or air conditioning apparatus ( 1). 5 - Heating and / or air conditioning apparatus (1) according to one of claims 2 to 4, characterized in that the humidity sensor means (6) is integrated in the heating apparatus and / or air conditioning (1). 6 - Heating and / or air conditioning unit 25 comprising at least two heating and / or air conditioning units (1) according to claim 2 or claim 3, characterized in that each heating and / or air conditioning unit ( 1) comprises a control module (3), a temperature sensor means (4), a humidity sensor means (6) and a temperature instruction correction module (5), each heating apparatus and / or air conditioning (1) being regulated locally. 7 - Heating and / or air conditioning unit comprising at least two heating and / or air conditioning units (1) according to claim 2 or claim 3, characterized in that it comprises a regulation module (3) a unique temperature sensor means (4), a single humidity sensor means (6) and a temperature instruction correction module (5) unique for the at least two heaters and / or air conditioning (1), the at least two heating and / or air conditioning units (1) being centrally controlled by the single control module (3).