JP6411489B2 - Method for adjusting the electric heating device when the window is open - Google Patents

Description

  The present invention relates to a method for adjusting (controlling) an electric heating device. More precisely, the present invention relates to management of temperature drop, for example when a door or window is open.

Document: EP0175125 describes a heating adjustment (control) method that initiates a controlled state while the release of heat is limited to the level used before the room temperature drop when the room temperature drops. Yes.
This level increases gradually until the set temperature is reached again, or increases the ambient temperature until the control state (phase) stops.

  The disadvantage of this method is that the control state (phase) does not start before the above (real) temperature drop occurs, so it cannot anticipate (predict) the temperature drop.

The present invention aims to solve this problem.
More particularly, the present invention relates to a method for controlling an electric heating device, which is a device comprising a probe used for measuring the ambient temperature of a room in which the device is placed, the (control) method comprising the following steps: Become:
More specifically, the present invention relates to a method for controlling an electric heating device, and the device including a probe is configured to measure the ambient temperature of a room in which the device is placed (accepted). Including the steps of:
Ambient temperature is measured in three consecutive times (instants);
Next, the rate of change in temperature during the first time period is compared with the rate of change in temperature during the subsequent second time period;
So, if the ambient temperature decreases over two time zones and the rate of decrease is higher (stronger) in the second time zone, the heat output of the device is before the first time (instant). Limited (controlled) to the level used.

  Thus, the release of heat is limited (controlled) from when it is recognized that the temperature has fallen faster, that is, from the beginning when the room is open to the outside air.

Another disadvantage of the method described in the document EP0175125 is that the heating device continues to release energy and the amount of energy delivered increases gradually, regardless of the time of ventilation in the room.
If the window is not closed, considerable energy is wasted.

The method in a preferred embodiment that solves the problems of the present invention further comprises the following steps:
Ambient temperature is measured at the fourth time (instant);
Next, the rate of change in temperature in the second time zone is compared with the rate of change in temperature in the third time zone, which is comprised between the third and fourth times (instantaneous);
Thus, if the ambient temperature decreases over these two time zones and the rate of decrease is higher (stronger) in the third time zone, the heat output of the device will be the first time (instant). Limited (controlled) to a minimum level lower than the previously used level.
The minimum level may be zero, i.e. the heater is turned off.

On the other hand, if the ambient temperature does not rise during the third time zone, or if the rate of decline during the third time zone is not higher than the rate of decline during the second time zone, this example According to this, it becomes possible to maintain the heat release at the level used before the first time (instant).
If the ambient temperature continues to drop after additional measurements, the heat release can be limited (controlled) to a minimum level.

  If the minimum level was set to zero, at the end of the time when the doors and windows were open, the opening time was short enough and the room walls accumulated enough heat to warm the air. Unless it does, the ambient temperature will not rise.

In a preferred embodiment that allows restarting of the heater, if the minimum level of heat release is zero and the ambient temperature is in the first time zone, the first time (instant) and the fourth time If it does not rise for a longer time than the (time) zone consisting of (instant), it is conceivable to increase the level of heat release.
The first time zone is preferentially selected to be much longer than the time zone composed of the first time (instant) and the fourth time (instant).

  If the ambient temperature still does not rise after the second time period, the level of heat release is returned to the minimum level. This step can be repeated until the ambient temperature increases.

  The invention simultaneously comprises an electric heating device comprising a probe for measuring the ambient temperature of the room in which the device is placed (accepted), the device for carrying out the method described above. Means are attached.

The invention will be better understood if the following description is read in detail with reference to the accompanying drawings.
The following are provided for guidance (explanation) and do not limit the invention.

It is a figure which shows the outline of the electric heating apparatus which concerns on the Example of this invention. The apparatus 10 includes a heating means 11 made of, for example, electric resistance heating. The apparatus 10 further includes a control device (device) 12 to which a probe 13 for measuring the ambient temperature Ta of the room 18 in which the apparatus 10 is installed is connected.

  The control device (device) 12 includes, in particular, a microprocessor 14, a software memory 15, and a data memory 16, which are connected by at least one bus (bus line) 17.

  The probe 13 measures the ambient temperature Ta in the room 18 at regular intervals, for example, about ½ minute or 1 minute during the period.

In order to maintain the ambient temperature at the set value T _c recorded in the data memory 16, the heating means 11 supplies a certain amount of heat C that changes over time depending on the heating conditions of the room.
The operation mode corresponds to default (initial setting) programming of the device 10.

  The software memory 15 is equipped with a program 19 that can control the operation of the apparatus 10 when the inside of the room 18 and the outside air are connected (contacted), for example, when the window 20 is opened.

Assume that the probe 13 measures the ambient temperature _{Ta 0 at a} first time (instant) t ₀ corresponding to the time when the window 20 is opened.
The probe then measures the ambient temperature (T _a1 , T _a2 ) again at a _second time (instant) t ₁ and a third time (instant) t ₂ .

According to program 19, the time period (t ₀ - t ₁₎ and - the temperature variation s between _{(t 1 t 2) (v} 1, v 2) is
v ₁ = (T _a1 -T _a0 ) / (t ₁ -t ₀ )
v ₂ = (T _a2 -T _a1 ) / (t ₂ -t ₁ )
Is calculated by the control device (device) 12.

If the absolute value is T _a2 <T _a1 <T _a0 and the value of v ₂ is higher than v ₁ , the decrease in the ambient temperature in the room 18 is the first time zone ( It is accelerated (promoted) during (t ₁ -t ₂ ) in the _second time zone as compared with t ₀ -t ₁ ).
In this case, it is considered that the room is connected (communication) with the outside air.

  In a heating apparatus that does not have such an adjustment function, when the ambient temperature decreases, the amount of heat released by the heating means is generally increased for the purpose of increasing the temperature to a set value.

On the contrary, in the program 19, the detection of the connection (communication) with the outside air triggers a limit (control) to the C ₀ value of the amount of heat released by the device 10, before the first time (instant) t ₀ Same amount of heat released.

That is, the program 19 prevents the induction (induction) of an increase in the electrical output of the device 10 due to the opening of the window 20.
Since this restriction (control) occurs when acceleration of the temperature drop is detected, this restriction (control) is started immediately after opening the window.

However, especially when the outside air temperature is very cold, the C ₀ value will correspond to a large amount of heat, and if the C ₀ value is maintained throughout the opening of the window 20, it will be quite Energy is wasted.

Accordingly, the program 19 is intended preferably, t ₂ time (instantaneous) Fourth time later than (instant) equipped with a probe for measuring the ambient temperature T _a3 of t _3.
The rate of temperature change v ₃ during time (t ₂ -t ₃ ) is
v ₃ = (T _a3 -T _a2 ) / (t ₃ -t ₂ )
Calculate using.

In absolute value, if v ₃ is higher than v _2, the temperature drop, the third time period - it means that continues to accelerate (accelerated) between (t ₂ t _3).
Therefore, if the window 20 is still open, it will be viewed by the control device (device) 12.

In this case, the heat release is further controlled (limited) to the minimum value C _min recorded in the data memory (to stop).
Preferably, C _min is lower than C ₀ , and C _min corresponds to zero or “freezing prevention (protection freeze / stop)” of the operation mode of the apparatus 10.

Alternatively, if T _a3 is less than or equal to T _a2 and the absolute value v ₃ is not higher than v ₂ , the window 20 may have been closed before the fourth time (instant) t _3. There is sex.
In this case, the heat release is maintained at the C ₀ level that was used before the first time (instant) t ₀ to avoid a significant (more significant) drop in ambient temperature in the room 18. .

The program 19 is planned to move to the C _min level after additional measurement of the ambient temperature and if the measured ambient temperature continues to drop.
More specifically, the ambient temperature T _a4 is the fifth time (instant) is measured at t _4.
If _Ta4 is lower than _Ta3 , the heat release is limited (controlled) to the _Cmin level.

After time (instantaneous) t _n (after elapse), if n> 4 (number of times is more than 4), the window 20 is considered closed.
The heat release of the device 10 is controlled (limited) to the C _min level.
When the probe 13 detects an increase in temperature in the room 18, the control device (device) 12 determines that the window 20 is closed and maintains the room temperature at the set value T _C by default (initial setting). Will return the program to do.
The heating means 11 then increases the heat release.

However, if C _min is very low or zero, the temperature of the room 18 is increased to heat the air inside the room only when it is possible to release the heat accumulated on the wall 21 of the room. Can be raised.

However, if the window 20 has been open for a long time, the wall 21 is cooled and the room temperature does not rise even after the window is closed.
It is not detected that the window is closed and the heat release of the device 10 is not restarted.

  In order to deal with this phenomenon, the program 19 schedules a stage (state) in which the heat release increases preferentially after a time period Δt1 that is significantly (sufficiently) longer (higher) than two time periods of ambient temperature measurement. (Planning.

For example, if the time zone is about 1 minute (interval), the temperature rise stage is t ₀ + Δt ₁ , and it operates at Δt ₁ = 1 hour.

The C level of heat release then increases. This is, for example, to return to the value C ₀ used before the drop in ambient temperature.

In the first embodiment, the heat release maintains the level C ₀ for the time Δt ₂ recorded in the data memory and is calculated according to the relevant parameters of the room 18 and the device 10 in particular.
When the window 20 is actually closed, this time zone Δt ₂ can increase the ambient temperature.

Next, the probe 13 measures the ambient temperature at the end of Δt ₂ .
If the ambient temperature is rising, for returning the T _a the set temperature T _c, resume the program by default (initial setting).

When the ambient temperature does not increase at the end of Δt ₂ , the control device (device) 12 considers that the room 18 is still connected (communication) with the outside air.
The heat release level C is again limited (controlled) to the C _min level.

In this case, as long as the ambient temperature does not rise, for example, the temperature rise stage can be periodically restarted (re-started) in a certain time period Δt ₁ .

In a second embodiment, the invention is aimed at minimizing the energy waste associated with the temperature rise phase.
In this embodiment, the control device (device) 12 detects the time Δt of the transition from the level C to the level C ₀ and detects a possible temperature rise by the probe 13.
In fact, when the room 18 is still connected (communication) with the outside air, the time Δt becomes longer than when the window 20 is closed.

Therefore, if the probe 13 does not detect a temperature rise even after the time period Δt ₂ of the time recorded in the data memory, the control device (device) 12 considers that the window 20 is still open.
The heat release level C is again limited (controlled) to the C _min level.
In the second embodiment, the time period Δt ₂ can be selected to be shorter than that in the first embodiment.

As described above, the temperature increase stage can be periodically restarted (re-started) in, for example, a fixed time period Δt ₁ as long as the ambient temperature does not increase.

Claims (4)

The present invention relates to a method for adjusting (controlling) an electric heating device (10),
The device comprising the probe (13) is configured to measure the ambient temperature of the room (18) in which the device is placed (received),
The method consists of the following steps:
The ambient temperature is to be measured continuously in the first (t ₀ ), second (t ₁ ), third (t ₂ ) time (instant);
The step of comparing the first time zone (t ₀ -t ₁ ) with the rate of temperature change (v ₁ , v ₂ ) in the second time zone (t ₁ -t ₂ );
-If the ambient temperature falls over two time zones, or if the rate of decline increases during the second time zone, the heat release (C) of the device is used before the first time t ₀ Limited to the level to be allowed (C ₀ );
The ambient temperature is then measured at a fourth time (t ₃ );
−Temperature change rate (v ₂ , v ₂ ) between the second time zone (t ₁ -t ₂ ) and the third time zone (t ₂ -t ₃ ) (between the third and fourth time (instant)) ₃ ) the steps to be compared;
-If the ambient temperature dropped over two time zones, or if the rate of decline increased during the third time zone, then heat release was used before the first time (instant) Limited (controlled) to a minimum level below the level;
A method for adjusting an electric heating device when a window is opened.
The invention of claim 1 further comprises the following steps:
If the ambient temperature does not rise during the third time zone, or if the rate of decline during the third time zone is not higher than the rate of decline during the second time zone, Maintaining the level (C ₀ ) used before the instant t ₀ ;
The ambient temperature (T _a4 ) is measured at the fifth moment (instant) (t ₄ );
If -T _a4 is lower than T _a3, the step of heat release is limited to (C _min) levels;
The method for adjusting an electric heating device when a window is opened according to claim 1.
In addition, it includes the following steps:
The minimum level of heat release (C _min ) is zero and the ambient temperature is comprised of a first time (instant) and a fourth time (instant) in the first time zone (Δt ₁ ) ( Increasing the level of heat release in the second time zone (Δt ₂ ) if not higher than the time zone;
If the ambient temperature does not increase during the second time period, the level of heat release is returned to a minimum level;
The method for adjusting an electric heating device when the window is opened according to claim 2. The apparatus is equipped with a probe (13) for measuring the ambient temperature of the room in which the apparatus is placed (accepted), and the apparatus is provided with means (12, 19) for carrying out the method described above. The adjustment method of the electric heating apparatus when the window of Claims 1 thru | or 3 using the apparatus characterized by the above-mentioned is open | released.