BE1008104A5 - Control device for an appliance for the adjustment and / or controlling a temperature. - Google Patents

Abstract

Control device for an apparatus, intended for adjusting and / or controlling a temperature, comprising means (29, 31) for adjusting or modifying, by guiding the user, parameters of a heating program or respectively cooling and a public holiday program, an actuation of the means (29, 31) being visible on a display field (27), in particular the heating or respectively cooling program which can be represented on the field display (27) in the form of a line graph (41), the effective time and the current setpoint being able to be represented by a mark in the line graph (41), control means for the setting of a transparent optimization function that can be adapted to the range of settings that may be available.

Description

       

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   "Control device for an appliance, intended for adjusting and / or controlling a temperature"
The invention relates to a control device for an apparatus of the kind mentioned in the preamble of claim 1.



   Control devices of this kind are advantageously used in room temperature control devices.



   There is known a control device of the kind mentioned in the preamble of claim 1
 EMI1.1
 (Landis and Gyr, "Raumtemperaturregler REV10 ...", description CEl-2221 D, August 1990), and by which a device operating according to a daily program can be ordered.



   The object of the invention is to improve a control device for an apparatus intended for adjusting and / or controlling a temperature the set value of which can be adjusted to a comfort temperature over several days and / or groups of days, with periods of time of different lengths and adapted to the days and / or groups of days, so that with simple means good user guidance and superior control comfort are obtained.



   The invention consists of the features indicated in claim 1. Advantageous developments arise from the secondary claims.



   Examples of embodiments of the invention, given purely by way of illustrations thereof, are explained below in more detail by means of the figures.

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   FIG. 1 shows the basic structure of an apparatus comprising a control device and which can be used to regulate and / or control a temperature.



   Figure 2 is a view of the apparatus comprising elements of the control device.



   Figure 3a is a representation of a heating program. Figure 3b is a representation of a cooling program.



   Figure 4 shows another element of the control device.



   Figure 5 is a graph for an adjustable optimization function.



   FIG. 1 shows with the aid of a data flow diagram the basic structure of an apparatus, comprising a control device, which can be used for setting and / or controlling a temperature. In the kind of representation chosen and known in the literature (DJ Hatley, IA Pirbhai: Strategies for Real-Time System Specficiation, Dorset House, NY 1988) a circle means an activity, a rectangle means a boundary system (terminator) or a subset, and an arrow signifies a communication channel for the transfer of data and / or events, the point of the arrow pointing in the main direction of data flow. A data memory (pool) which is generally available for several activities is represented by two parallel lines of the same length.

   In addition, for example an arrangement made up of two activities linked by a communication channel is equivalent to a single activity which fulfills all the missions of the two activities.



   Activities are carried out in the form of an electronic circuit and / or in the form of a

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 process, a piece of program or a subroutine.



   In FIG. 1, the reference 1 indicates a display device and the reference 2 an input device which has first control means 3, second control means 4 and third control means 5. The first means of control 3 are elements of a first control level in which the type of operation in force, of the device, can be chosen by the user.

   The second control means 4 are elements of a second control step in which at least one parameter of the heating or cooling program can be adjusted by the user, while the third control means 5 are elements of a third control step in which single adjustments can generally be undertaken, such as for example the selection of the adjustment characteristic and the selection of an optimization function.



   Storage means 6 have at least a first data memory 7 for state parameters and a second data memory 8 for heating or cooling program parameters as well as for holiday program parameters, a third data memory 9 for the actual day and for time and a fourth data memory 10 for the instantaneous value Thl of the temperature, the first data memory 7 being connected by a first communication channel 11 to a first activity 12 and by a second communication channel 13 to a second activity 14, the second data memory 8 being connected by a third communication channel 15 to the first activity 12 and by a fourth communication channel 16 to the second activity 14,

   the third data memory 9 being connected

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 by a fifth communication channel 17 to the first activity 12 and by a sixth communication channel 18 to the second activity 14. The fourth data memory 10 is connected at least by a seventh communication channel 19 to the second activity 14 and, if necessary, again via an eighth communication channel 20 to the first activity 12.



   If necessary, the storage means 6 are produced by several known memory construction elements and of different kinds, such as for example a RAM (Ramdom access memory), an NVRAM (non-volatile RAM).



   A ninth communication channel 21 is arranged between the first activity 12 and the display unit 1. In addition, the second activity 14 is connected at least by a tenth communication channel 22 to an output device 23 and, in case if necessary, in addition by an eleventh communication channel 24 to the display unit 1. A twelfth communication channel 25 connects the input device 2 to the first activity 12.



   In FIG. 2, a housing of the apparatus is designated by 26 and a display field, of the display device 1 (FIG. 1), arranged on the housing 26 is designated by 27. In addition, on the housing 26 is arranged a first selection switch 28 with several positions, a second selection switch 29 with several positions, a first group of keys 30 and a second group of keys 31, the first group of keys 31 comprising a first key 32, a second key 33 as well as a third key 34 while the second group of keys 31 has a fourth key 35, a fifth key 36, a sixth key 37 and a seventh key 38.

   In the exemplary embodiment shown, the first selection switch 28 has seven positions or states

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 while the second selector switch 29 has fourteen different positions or states. Each state which can be selected from the two selection switches 28 and 29 is associated with an indication corresponding to the state and consisting of a first group of symbols 39 and respectively of a second group of symbols 40, the indication being advantageously a pictogram with force of information.



   The number of keys of the two groups of keys 30 and 31 and also the number of positions or states of the two selector switches 28 and 29 are to be understood as being an example and consequently can be adapted to the requirements of the apparatus.



   On the display field 27 can be advantageously represented alphanumeric signs, pictograms usual in the trade and at least one line graph 41 whose line is drawn for example by dots or continuously.



   FIG. 3 shows an advantageous exemplary embodiment of the line graph 41 which presents a timescale 42 and which presents, as a function of time, at least a first level 43 and a second level 44. The line graph 41 also presents a mark (cursor) 45 which is located on one of the levels 43 or 44, on the line (figure 3a) or also next to the line (figure 3b). The timescale 42 is directly applied to the housing 26 (FIGS. 3a and 3b) or is represented on the display field 27.



   In FIG. 4, a third selection switch which is advantageously arranged in the housing 26 (FIG. 2) and which has at least four states, which can be selected, for the setting of an advantageous optimization function is designated by 46 .

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   In an advantageous embodiment of the control device, the first control means 3 (FIG. 1) are produced by the first selection switch 28 (FIG. 2) in combination with the first group of keys 30 while the second control means 4 (FIG. 1) are produced by the combination of the second selection switch (FIG. 2) and the second group of keys 31.



   Operation of one of the first control means 3 (FIG. 1) or also of one of the second control means 4 always advantageously leads to a clearly visible modification of the display field 27 (FIG. 2), and this allows good user guidance.



   The actuation can be entered via the twelfth communication channel 25 (FIG. 1) from the first activity 12 which executes or causes in the storage means 6 and / or in the display device 1 a predetermined modification. .



   In the first control step, one can choose from several available operating modes, by means of the first control means 3, the effective operating mode, at least one automatic heating or cooling program respectively which comprises several daily processes, a permanent comfort temperature or a permanent economical temperature that can be chosen.



   The heating or respectively cooling program generally has setpoint, comfort or saving quantities, depending on the time and it is generally divided into several time periods which follow one another, which can be predetermined each time and which have either a set value, constant over time, of a temperature

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 Comfort level is then a setpoint, constant over time, of economical temperature. The heating or respectively cooling program can be predetermined for a period which comprises several days, preferably one week.



   The example of the control device, shown in FIG. 2, presents the following operating modes (operating states) which can be chosen by the first selection switch 28: an automatic heating or cooling program respectively for seven days with each time a maximum of three time periods with each time a comfort temperature setpoint, all time periods being generally predetermined for each day or for groups of days of different lengths and for different temperature setpoints of comfort, for example a maximum of three different comfort temperature setpoints per day or per group of days;

   a heating or cooling program respectively for a day with a period of time and with a comfort temperature setpoint; a heating or cooling program for one day respectively with two time periods and each with a comfort temperature setpoint; a heating or cooling program for one day with three time periods and each with a comfort temperature setpoint; continuously a comfort temperature setpoint; continuously an economical temperature setpoint; and a resting state with frost protection.



   Each time period including a comfort temperature setpoint begins with a switch-on time of the comfort temperature setpoint and ends with a

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 moment of shutdown time. The saving temperature setpoint is valid at times outside of the time periods including the comfort temperature setpoint. In general, the economy temperature setpoint can be predetermined for each period of time.

   The operating mode can be selected by positioning the first selection switch 28 on the corresponding sign of the first group of symbols 39, and thereby a parameter of the first data memory 7 and / or of the second data memory 8 is set. in accordance with the operating mode chosen and, outside of the idle state, the line graph 41 concerned is displayed on the display field 27.



   If one of the heating or cooling programs respectively is selected, the line graph 41 (FIG. 3a) shows the trend over time of the current setpoint, at least of the actual day, the first level 43 advantageously signifying that an economy temperature setpoint is activated while a comfort temperature setpoint is given beforehand in the case of the second level 44. The moments of the start-up time or respectively the moments of the shutdown, effective, can be read advantageously based on the timescale 42 from the line graph 41.

   The mark 45 which is advantageously a flashing light point is located near the effective hourly time on the level 43 or respectively 44 in force and by this the state in force of the apparatus is represented clearly for the user.



   In addition, on display field 27 can be represented the calendar day, or the actual day of the week, the actual temperature value T, the temperature setpoint, the

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 time of day in hours and fractions of hours.



  In addition, the state of the output device 23 (FIG. 1) and the state of a battery supply possibly present can be represented.



   Advantageously, the day of the week is represented in the form of a point, among seven points arranged in a row, which is distinguished from the six remaining points for example by dark or light modulation.



   The current setpoint can be increased by a certain value by the first key 32 and can be reduced by the second key 33, the setpoint being increased or decreased, for example, by 0.5 K per press key, the modification being preferably in effect until the next switching time of the heating or cooling program respectively.



   An actuation of the third key 34 changes, until the next switching time, the setpoint in force, depending on its starting state, either from the comfort temperature setpoint to the economical temperature setpoint or then from the economy temperature setpoint to the comfort temperature setpoint. The change advantageously causes a corresponding jump from the mark 45 (FIG. 3b) from the first level 43 to the second level 44 or respectively from the second level 44 to the first level 43.



   The second activity 14 (FIG. 1) essentially takes over the function of adjusting and controlling the apparatus according to the effective heating or cooling program respectively or else according to the effective operating mode. The behavior of activity 14 is controlled by the content of memory 6. Because the content of storage means 6 are modified by the first activity 12

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 which interprets the control means 3, 4 and 5, and that the fact that the content of the memory 6 controls the way of working or the behavior of the activity 14, the behavior of the device can be directly controlled by the device input 2.



   In the second control step, the effective day, the time, the parameter of the heating or cooling programs which can be selected can be set, as well as advantageously also a holiday program.



   So that the control device is clear, the second control means 4 (FIG. 1) which are attached to the second control rung can advantageously be actuated and visible only when they have to be actuated. To this end, the second control means 4 can advantageously be covered by a pivoting cover arranged on the housing 26 (FIG. 2).



   Essentially, a position or a state of the second selection switch 29 is added to an changeable quantity, for example the hour, an activation moment or a comfort temperature set value, a quantity added to the position or to the state being chosen for the modification by positioning or respectively by actuation of the selection switch 29, the modification being introduced, and this is indicated on the display field 27 for example by a flashing representation of the modifiable time or of the modifiable temperature setpoint.



   By actuation of a key of the group of keys 31, the quantity provided for can be modified in the storage means 6 and can also be updated on the display field 27.



   The value of the selected quantity can be increased by a certain amount with the sixth touch

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 che 37 and can be reduced by the seventh key 38.



   In the embodiment described, a separate day or a group of days in the period of the heating or cooling program respectively, for parameter modifications, can be chosen with the fourth key 35, the choice concerned being visible in the field display 27.



   In the described embodiment, the number of adjustable time periods, with a comfort temperature setpoint, i.e. either one time period or two or three time periods, is associated by the fifth key 36 on the chosen day or on the group of days chosen and by this, advantageously, also after each actuation of the key 36 the line graph 41 represented is updated on the display field 27.



   In a determined state of the second selection switch 29, the public holiday program can be set, which is determined by a start day and by a duration which starts from the start day and during which the saving temperature set point is as a driving quantity, regardless of the operating mode selected. The start day and the duration are stored in the storage means 6, advantageously in the second data memory 8.



   The starting day of the holiday program is set by the fourth key 35, the starting day being advantageously automatically set in advance on the day in force and being moved one day by pressing the key. The duration is advantageously extended by one day by pressing the key, on the sixth key 37, or else is shortened by one day by pressing the key, on the seventh key 38.

   When setting the program for

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 public holidays, the start day and the duration are updated in the storage means 6 via the first activity 12 and are advantageously shown flashing in the display field 27, the start day being advantageously indicated under the form of a day of the week and the duration in the form of a number in relation to a pictogram which has force of information, for example a suitcase.



   The working holiday program is advantageously indicated on display field 27 by the pictogram used, for example by the suitcase, with the remaining duration in the form of a number.



   The optimization function which can be activated by the third control means 5 is active for a heating program and can be adjusted in several stages, preferably in three stages, by means of the third control means 5. The third means of control 5 advantageously have the third selection switch 46 (Figure 4).



   To explain how the optimization function works, it is indicated in FIG. 5, by 47, a set plot of the set value, of the heating program, which changes, at the moment of switching on P, from the economy temperature setpoint Tu to the comfort temperature setpoint T. The actual value Tide the set or controlled temperature has a plot 48.



   At a forecast duration tu, before the start-up time P, there is the decision time E from which a delay time tv is automatically calculated which begins at the decision time E and ends at the switching time S When the optimization function is activated, already at the time of switching

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 tion S, there is switching from the saving temperature setpoint To to the comfort temperature setpoint T ,.



   While the heating program is operating, the action of the optimization function is advantageously shown on the display field 27 (FIG. 2) for the user; at the time of switching S, the mark 45 (Figure 3b) is automatically set to the second level 44 in the line graph 41 and thereby mark 45 is located next to the set line stroke of the heating program running, during the duration delimited by the switching time S and by the switching-on time P.



   The delay time tv is advantageously calculated according to the following formula, with the difference Tu - te (E) formed by the comfort temperature setpoint Tl and by the actual temperature Te (E) determined at the time of decision E, with a coefficient k and with a forecast duration, through activity 12 and / or activity 14: t, = to- (T.-T (E)) / k
Advantageously, the coefficient k can be adjusted in stages by the third control means 5 while the forecast time tu is constant or is adjusted in steps, as necessary, by the control means 5.



   In an advantageous variant of the optimization function, the control means 5 or the third selection switch 46 have at least four states or positions: a first state a in which the coefficient k is one degree Kelvin per hour and the forecast time tu is four hours, a second state b in which the coefficient k is two degrees Kelvin per hour and the forecast time to is two hours, a third state c in which the coefficient k is four degrees Kelvin per hour and

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 the forecast time to is one hour and a fourth state d in which the optimization function is not activated.



   Due to a predetermined setting range, the optimization function can be easily adjusted in the third control step.



  In addition, the optimization function is transparent in its way of acting and it is carried out so that it can be adjusted with simple technical means.



   By switching on the optimization function, the user can, to his advantage, adjust the moment actually desired, regardless of weather conditions, when adjusting the switch-on time, without having to take into account each time, at low external temperatures, additional heating time may be required.



   Above all, the fact that the control device has simple control means 3, 4, 5 in three control steps as well as a display field 27 whose displayed information changes when the first and second are actuated. control means 3 and 4 and on which can be represented by line graph 41 a heating or cooling program respectively, the user is guided so well by the control device that the control device is essentially self-explanatory. even.



   It should be understood that the invention is in no way limited to the embodiments described and that many modifications can be made to these without departing from the scope of the present invention.


    

Claims (5)

 CLAIMS 1. Control device for an apparatus intended for adjusting or respectively controlling a room temperature on the basis of at least one comfort setpoint quantity associated with a heating or respectively cooling program, or respectively on the basis of 'a saving setpoint quantity associated with the heating or cooling program respectively, comprising first control means (3), for selecting the operating mode, which comprise a display device (1), for the display of writing characters and symbols, on which at least one time, one temperature and one operating mode can be represented, characterized by:    second control means (4) for adjusting the target quantities and their start-up and deactivation times respectively for at least one heating or respectively cooling program which determines the shape of the target quantities over a period for several days, components (9,17, 12,21) by which the current time can be represented at least in the form of days, hours and units of hours on the display device (1 ), or on a display area (27), and auxiliary means (8,15, 12,21, 9, 17) by which can be represented in the form of a line graph (41), on the display device (1) or on the display area (27), the model for switching the heating or respectively cooling program at least for the current day,  at least the switching moment and the effective time which can be represented quantitatively correctly in the line graph (41), and the setpoint value in force for the effective moment which can be  <Desc / Clms Page number 16>  represented by a mark (45) in the line graph (41).  2. Control device according to claim 1, characterized by a selection switch (29) for adjusting parameters of the heating or cooling program respectively, which has, for a parameter adjustable by a user, a state which is associated to the parameter and in which the value of the parameter can be modified by pressing a key (35; 36; 37; 38).  3. Control device according to claim 2, characterized in that the selection switch (29) has a state in which a holiday program can be set which is determined by a start and by a duration and during which, independently of '' a heating or cooling program in operation respectively, the setpoint is an economical temperature setpoint, the beginning can be selected by pressing a key (35) and the duration by pressing at least one other key (37; 38).  4. Control device according to a preceding claim, characterized by: control means (5; 46) by which at least one coefficient (k) can be adjusted in steps to form an optimization function, and calculation means ( 12; 14) by which the optimization function can be calculated, using the coefficient (k), for a delay time (tv) after which the set point of the heating program is the set point of comfort temperature (T,), the delay time (t,) starting at a decision time (E) located a forecast time (to) before the start time (P) of the heating program.  <Desc / Clms Page number 17>    5. Control device according to claim 4, characterized in that the delay time (tv) is calculated according to the formula: t, = T0 - (T1-T1st (E)) / K, T1st (E) being the value of the room temperature valid at the time of decision (E).