JP2005003329A - Power control method and apparatus of temperature controller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a power control method that can be applied to various temperature controllers and can reduce the amount of power consumption effectively. <P>SOLUTION: The power control method determines whether the temperature controller, such as an air conditioner, is off, and outputs a signal for preventing the temperature controller from being turned on to the temperature controller as a temperature signal during time corresponding to a preset amount of time in advance even if the output signal of a temperature sensor reaches a value for turning on the temperature controller after the determined result is off. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method and apparatus for controlling a temperature control device such as an air conditioner or a refrigerator.
[0002]
In the present invention, an apparatus having a function of adjusting the ambient temperature, such as an air conditioner (air conditioner), a refrigerator, a refrigerator, an electric kotatsu, or an electric stove, is referred to as a “temperature adjusting device”.
[0003]
In addition, when the output signal of the temperature detector for detecting the temperature around the air conditioner reaches the first value, turning off the air conditioner is called “thermo-off”, and the output signal of the temperature detector When the temperature controller is turned on when the value reaches the second value is referred to as “thermo-on”.
[0004]
[Prior art]
In general, an air conditioner such as an air conditioner or a temperature controller such as a commercial refrigerator is thermo-off when the output signal of the temperature detector reaches a first value, and the output signal is a second value. Therefore, it is controlled so that the thermo-ON is achieved by reaching the above, thereby reducing the power consumption.
[0005]
Patent Document 1 discloses a power control device that further reduces the power consumption of this type of temperature controller.
[0006]
[Patent Document 1]
Japanese Patent Laid-Open No. 2000-179912
This conventional power control device forcibly disconnects the switch arranged in the power supply circuit of the temperature controller such as a compressor based on the fact that the temperature controller is changed from the thermo-off to the thermo-on, so that the temperature controller itself is removed. Forced to be inactive (off).
[0008]
[Problems to be solved]
However, in the above prior art, the switch arranged in the power circuit of the temperature controller such as a compressor is forcibly disconnected and the temperature controller is forcibly turned off. You must prepare a device that meets your requirements. Many temperature controllers cannot be controlled.
[0009]
It is an object of the present invention to be applicable to various temperature controllers and to effectively reduce power consumption.
[0010]
[Solution, action, effect]
The power control method and apparatus according to the present invention is applied to a technique for controlling a thermostat that selectively switches to thermo-off and thermo-on by a temperature signal.
[0011]
In such a power control method, an output signal of a temperature detector provided in the temperature controller is blocked from being supplied to the temperature controller as the temperature signal, and the temperature controller is turned off. Thereafter, based on an output signal of the temperature detector, a blocking signal for blocking the temperature controller from being turned on is output to the temperature controller as the temperature signal.
[0012]
The power control device is based on an input port connected to an output terminal of a temperature detector provided in the temperature controller, and an output signal of the temperature detector after the thermostat is turned off. And a controller that outputs, as the temperature signal, a blocking signal that prevents the temperature controller from being thermo-on to the temperature controller.
[0013]
The power control method and apparatus according to the present invention is a technique for controlling a temperature regulator that is thermo-off when a temperature signal reaches a first value and thermo-on when the temperature signal reaches a second value. Applies to
[0014]
In such a power control method, it is determined whether or not the temperature controller is turned off, and an output signal of a temperature detector provided in the temperature controller after the result of the determination is the thermo-off. When the temperature reaches the second value, a stop signal for preventing the temperature controller from being thermo-ON is output to the temperature controller as the temperature signal for a time corresponding to a preset time. including.
[0015]
The power control device includes an input port for receiving an output signal of a temperature detector provided in the temperature controller, a setting unit for setting a time for delaying the temperature controller from being turned on, and the temperature controller. It is determined whether or not the thermo-sensor is turned off, and after the thermo-off, even if the output signal of the temperature detector reaches the second value, the time corresponding to the time set in the setter Includes a controller that outputs, as the temperature signal, a prevention signal that prevents the temperature regulator from being thermo-ON to the temperature regulator.
[0016]
The control circuit provided in the temperature controller itself does not turn on a temperature controller such as a compressor for a predetermined time because a signal to turn on the thermo is not input even if the temperature controller is thermo-on. Thereby, the power consumption in a temperature controller is reduced.
[0017]
In addition, since the switches of the temperature controller and thus the temperature controller are not directly controlled by the power control device itself, many circuits of the power control device can be digitized, thereby reducing the power consumption of the power control device itself. can do.
[0018]
Furthermore, since the on / off of the switch of the temperature regulator is not controlled, it can be applied to a temperature regulator using different types of switches and temperature controllers.
[0019]
Whether or not the thermostat has been turned off can be determined by monitoring the operating state of the temperature controller.
[0020]
The temperature control device includes a second input port that receives an operation state signal indicating an operation state of the temperature control device, and the controller determines whether the temperature controller is thermo-off based on the operation state signal. You may make it determine.
[0021]
In the power control method, when the determination result is not the thermo-off, the temperature adjustment is performed using a signal having a value different from the value of the temperature signal as the temperature signal every time a preset time elapses. And outputting the inhibition signal as the temperature signal to the temperature controller for a time corresponding to a preset time due to a temperature change by the temperature controller. it can.
[0022]
Instead of this, the power control method further includes a time set in advance when the result of the determination is not the thermo-off,
A signal having a value different from the value of the temperature signal is output to the temperature controller as the temperature signal, and there is a temperature change by the temperature controller, and during the time according to a preset time, The method may include outputting a blocking signal as the temperature signal to the temperature controller.
[0023]
The controller further uses the blocking signal having a value different from the value of the output signal as the temperature signal each time a preset time elapses when the result of the determination is not the thermo-off. The temperature signal is output to the temperature controller, and because the temperature has changed by the temperature controller, the inhibition signal is output to the temperature controller as the temperature signal for a time corresponding to a preset time. Also good.
[0024]
Instead of this, the controller further outputs a signal having a value different from the value of the temperature signal due to the elapse of a preset time when the result of the determination is not the thermo-off. Output to the temperature controller as an output signal of the detector, and the temperature control using the inhibition signal as the temperature signal for a time corresponding to a preset time due to a temperature change by the temperature controller. You may make it output to a machine.
[0025]
The power control device can further include an external input / output device connected to an external device.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
1 to 3, the power control device 10 is used for power control of the air conditioner 12. The air conditioner 12 includes an existing temperature detector 14 disposed in the vicinity of the intake port to detect the temperature of the intake air (suction port temperature), an existing temperature detector input port 16 to which information on the temperature detector is input, It has.
[0027]
The air conditioner 12 is also provided with a temperature detector 18 in the vicinity of the air outlet for detecting the air outlet temperature of the air conditioner for monitoring the operating state. Instead of the temperature detector 18, the sound of the air conditioner 12 may be detected, and based on the output signal, it may be determined whether the air conditioner 12 is on or off. Based on the output signal of the air conditioner 14, it may be determined whether the air conditioner 12 is on or off.
[0028]
The air conditioner 12 is controlled by an internal control circuit such as a compressor so that the thermostat is turned off when the outlet temperature reaches the first temperature and the thermostat is turned on when the outlet temperature reaches the second temperature. Controls on / off of the device.
[0029]
A thermistor can be used as the temperature detectors 14 and 18, but other temperature detectors may be used. Output signals of the temperature detectors 14 and 18 are supplied to input ports 20 and 22 of the temperature control device 10, respectively.
[0030]
The temperature control device 10 includes an external input / output device (interface = I / O) 26 and a wireless wireless communication port 28 using electromagnetic waves such as infrared rays. It can be connected to the device 30 and can communicate with the external device 30 wirelessly through the wireless communication port 28. The wireless communication port 28 is electrically connected to the external input / output device 26.
[0031]
As shown in FIG. 3, the temperature control device 10 includes a power supply device 32 that supplies DC power to the device, a central processing unit (CPU) 34 that performs various arithmetic processes, and a storage device 36 that stores various data. And a counter (counter) 38 for counting the operation time, and an extension time (first control time) for extending the thermo-off state of the air conditioner 12 when the air conditioner 12 is controlled to be in the thermo-on / off state. A setting device 40 for setting, a setting device 42 for setting a control time (second control time) in which the air conditioner 12 is forced to be in a thermo-off state when the air conditioner 12 is continuously operated, and setting devices 40 and 42; A display 44 for displaying various information set in the central processing unit 34, a display 46 for displaying the operating state of the air conditioner 12, and an output port 48 for controlling the air conditioner 12 are included.
[0032]
The power supply device 32 generates direct-current power using commercial power and supplies the direct-current power to various circuits in the power control device 10. As such a power supply device 32, a commercially available device using an integrated circuit or an electronic component can be used, and a storage battery or a dry battery can also be used.
[0033]
The central processing unit 34 controls the external input / output device 26, the wireless communication port 28, the storage device 36, the setting devices 40 and 42, the display devices 44 and 46, and the like in addition to various arithmetic processes. The storage device 36 stores first and second temperatures in advance. The first and second temperatures are used for on / off control of the air conditioner 12 after the air conditioner 12 is thermo-off by the control circuit.
[0034]
The central processing unit 34 supplies the output signal of the temperature detector 14 to the air conditioner 12 based on the input signals to the input ports 20 and 22, and operates the counter 38 while the air conditioner 12 is on. The continuous operation time of the air conditioner 12 is counted.
[0035]
However, when the thermostat is turned off after the air conditioner 12 is turned on, the central processing unit 34 starts counting because the outlet temperature of the air conditioner 12 has reached the second temperature, and the count value is set to the setting device 40. When the extension time set in (2) has been reached, a signal that causes the air conditioner 12 to become thermo-on is supplied from the output port 48 to the air conditioner 12 as an output signal of the temperature detector 14. Thereby, the air conditioner 12 is thermo-ON.
[0036]
The central processing unit 34 further displays the first and second values set in advance and the extended time set in the setting devices 40 and 42 so as to be visible on the display 44, and the air conditioner 12 enters the thermo control state. The operating state such as whether there is a continuous operation state or the like is displayed on the display unit 46 so as to be visible.
[0037]
Corresponding times are set in the setting devices 40 and 42 via the external input / output device 26 or the wireless communication port and the central processing unit 34. The first extension time set in the setting device 40 may be the same as the second extension time set in the setting device 42, may be longer than the second extension time, or may be shorter. Good.
[0038]
The central processing unit 34 may have functions of a counter 38, setting devices 40 and 42, and the like.
[0039]
The temperature control device 10 disconnects the temperature detector 14 and the output port 50 that are connected as shown in FIG. 2A, and then connects the input port 20 to the signal output side of the temperature detector 14 for output. The port 48 is used by being connected to the signal input side of the output port 50.
[0040]
The temperature control device 10 can be attached to the air conditioner 12 by retrofitting as an accessory device of the air conditioner 12.
[0041]
Next, the operation of the temperature control apparatus 10 will be described with reference to FIG.
[0042]
The central processing unit 34 uses the input signal to the input ports 20 and 22 to output the output signal of the temperature detector 14 (the air temperature at the suction port) so that the air conditioner 12 can be turned on. (Step 101).
[0043]
Next, the central processing unit 34 determines whether the air conditioner 12 is on based on the output signal of the temperature detector 18 (step 102).
[0044]
If the result of determination in step 102 is that the air conditioner 12 is off, the central processing unit 34 returns to step 101. Therefore, as long as the power is turned on, the central processing unit 36 outputs the temperature detector 14 based on the input signals to the input ports 20 and 22 regardless of whether the air conditioner 12 is on. The signal is continuously supplied to the air conditioner 12. As a result, the air conditioner 12 is always ready for operation.
[0045]
However, if the result of determination in step 102 is that it is in the on state (during operation), the central processing unit 34 operates the counter 38 and starts measuring the time during which the air conditioner 12 is continuously operating in the on state. (Step 103).
[0046]
Next, the central processing unit 34 determines whether or not the air conditioner 12 is thermo-off based on the output signals of the temperature detectors 14 and 18 (step 104). In this determination, when the air conditioner 12 is off, the values of the output signals of the temperature detectors 14 and 18 change. For example, whether or not there is a signal change, signal change amount, signal value itself, signal value deviation, etc. Can be determined based on whether or not has reached a predetermined value.
[0047]
If the result of determination in step 104 is that the thermostat is off, the central processing unit 34 fixes the value of the signal supplied from the output port 48 to the air conditioner 12 (step 105). Thereby, the air conditioner 12 is maintained in a thermo-off state.
[0048]
Next, the central processing unit 34 determines whether or not the ambient temperature (room temperature) of the suction port has reached a preset second temperature based on the output signal of the temperature detector 14 (step 106).
[0049]
If the suction port temperature reaches the second value as a result of the determination in step 106, the central processing unit 34 starts counting the extended time (first control time) (step 107), and the count value is set to the setting device 40. Is reached, the output signal of the temperature detector 14 is supplied from the output port 48 to the air conditioner 12 (step 108). Thereby, the air conditioner 12 is thermo-ON by the internal control circuit.
[0050]
As a result of the above, when the air conditioner 12 is thermo-off, the central processing unit 34 has the air conditioner until the extended time set in the setting device 40 elapses after the room temperature reaches the second temperature (set value). A signal that does not turn on 12 is output to the air conditioner 12 as an output signal of the temperature detector 14. Meanwhile, the air conditioner 12 is kept thermo-off by the internal circuit.
[0051]
On the other hand, as a result of the determination in step 104, if the air conditioner 12 is not thermo-off, the central processing unit 34 determines whether the count value (continuous operation time) of the counter 38 has reached the time set in the counter 38. It is determined whether or not (step 109).
[0052]
If the time set in the counter 38 has not been reached as a result of the determination in step 109, the central processing unit 34 returns to step 104.
[0053]
When the set time is reached as a result of the determination in step 109, the central processing unit 34 converts the signal value supplied to the air conditioner 12 via the output port 48 into a temperature and only a value corresponding to several degrees is used for cooling. If so, it is lowered (higher for the device), and if it is for heating, it is raised (lower for the device) (step 110). This is to forcibly turn off the air conditioner 12 when the continuous operation time exceeds the set time.
[0054]
Next, the central processing unit 34 determines whether or not there has been a change in the temperature near the outlet, based on the output signal of the temperature detector 18 (step 111).
[0055]
If the result of determination in step 111 is that there is no temperature change, the central processing unit 34 returns to step 110. Thereby, the value of the signal supplied to the air conditioner 12 through the output port 48 is changed again by several degrees.
[0056]
If the result of determination in step 111 is that there is a temperature change, the central processing unit 34 stops counting the output signal value in step 110 (step 112) and then starts counting the control time (second control time). (Step 114).
[0057]
When the count value reaches the control time (second control time) set in the setting device 42, the central processing unit 34 proceeds to step 108 and sends the output signal of the temperature detector 14 from the output port 48 to the air conditioner. 12 is supplied. Thereby, the air conditioner 12 is thermo-ON by the internal control circuit.
[0058]
As a result, when the air conditioner 12 is continuously operated, the central processing unit 34 forcibly changes the output signal to the air conditioner 12, forcibly turns off the air conditioner 12, and the room temperature is the second. A signal that does not turn on the air conditioner 12 is output to the air conditioner 12 as an output signal of the temperature detector 14 until the extended time set in the setter 40 elapses after the temperature (set value) is reached.
[0059]
As described above, according to the temperature control device 10, the control circuit provided in the air conditioner 12 itself does not input a signal to turn on the thermostat even when the air conditioner 12 is turned on. Do not turn on drive devices such as compressors. Thereby, the power consumption in the air conditioner 12 is reduced.
[0060]
Also, since the switch of the air conditioner 12 and thus the temperature controller are not directly controlled by the power control device itself, many circuits of the power control device can be digitized, thereby reducing the power consumption of the power control device itself. can do.
[0061]
Further, since the on / off of the switch of the air conditioner 12 is not controlled, the present invention can be applied to an air conditioner using different types of switches and temperature controllers.
[0062]
The present invention can be applied not only to an air conditioner but also to other temperature control devices such as a refrigerator, a refrigerator, an electric kotatsu, and an electric stove. Further, the present invention can be applied not only to a temperature control device using electric energy but also to a temperature control device using other energy such as oil or gas.
[0063]
The present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.
[Brief description of the drawings]
FIG. 1 is a diagram showing a connection relationship between a temperature control device and an air conditioner according to the present invention.
FIG. 2 is a diagram showing a connection state between a temperature control device according to the school plan and a temperature detector of an air conditioner.
FIG. 3 is a block diagram of an electric circuit showing an embodiment of a temperature control device according to the present invention.
4 is a diagram showing a pro chart for explaining the operation of the temperature control apparatus shown in FIG. 3; FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Temperature control apparatus 12 Air conditioner 14, 18 Temperature detector 16 Air conditioner side input port 20, 22 Input port 48 Output port

Claims (11)

A method of controlling a temperature controller that selectively switches to thermo-off and thermo-on by a temperature signal,
An output signal of a temperature detector provided in the temperature controller is cut off from being supplied to the temperature controller as the temperature signal;
After the temperature controller is turned off, the control signal is output to the temperature controller as the temperature signal based on the output signal of the temperature detector. A method for controlling the power of the temperature controller. A method of controlling a temperature regulator that is thermo-off when a temperature signal reaches a first value and thermo-on when the temperature signal reaches a second value,
Determine whether the temperature controller is turned off the thermo,
After the result of the determination is the thermo-off, even if the output signal of the temperature detector provided in the temperature controller reaches the second value, during the time according to a preset time, A power control method for a temperature regulator, comprising: outputting to the temperature regulator as a temperature signal a blocking signal that prevents the temperature regulator from becoming thermo-on. The power control method according to claim 2, wherein the determination as to whether or not the thermostat is turned off is performed by monitoring an operating state of the temperature controller. Further, when the result of the determination is not the thermo-off, every time a preset time has passed,
A signal having a value different from the value of the temperature signal is output to the temperature controller as the temperature signal;
The method according to claim 2, further comprising: outputting the inhibition signal as the temperature signal to the temperature controller for a time corresponding to a preset time due to a temperature change by the temperature controller. The power control method described. Furthermore, when the result of the determination is not the thermo-off, by passing a preset time,
A signal having a value different from the value of the temperature signal is output to the temperature controller as the temperature signal;
The method according to claim 2, further comprising: outputting the inhibition signal as the temperature signal to the temperature controller for a time corresponding to a preset time due to a temperature change by the temperature controller. The power control method described. A device for controlling a thermostat selectively switching to thermo-off and thermo-on by a temperature signal,
An input port connected to an output terminal of a temperature detector provided in the temperature controller;
After the temperature controller is turned off, a control signal is output to the temperature controller as a temperature signal for preventing the temperature controller from being turned on based on the output signal of the temperature detector. And a power control device for a temperature controller. A device for controlling a temperature regulator that is thermo-off when a temperature signal reaches a first value and thermo-ON when the temperature signal reaches a second value,
An input port for receiving an output signal of a temperature detector provided in the temperature controller;
A setter for setting a time for delaying the temperature controller from becoming the thermo-on;
It is determined whether or not the temperature controller has been turned off, and even if the output signal of the temperature detector reaches a second value after the thermo is turned off, it depends on the time set in the setter. And a controller that outputs to the temperature regulator as a temperature signal a blocking signal that prevents the temperature regulator from becoming thermo-on for a certain period of time. And a second input port for receiving an operation state signal representing an operation state of the temperature control device,
The power controller according to claim 7, wherein the controller determines whether or not the temperature controller is thermo-off based on the operation state signal. The controller further uses the inhibition signal having a value different from the value of the output signal as the temperature signal each time a preset time elapses when the determination result is not the thermo-off. The output to the temperature controller, and due to a temperature change by the temperature controller, the blocking signal is output to the temperature controller as the temperature signal for a time corresponding to a preset time. The power control apparatus according to 7 or 8. The controller further outputs a signal having a value different from the value of the temperature signal by passing a preset time when the result of the determination is not the thermo-off. As an output to the temperature controller, because there was a temperature change by the temperature controller, for the time according to a preset time, the blocking signal is output to the temperature controller as the temperature signal, The power control apparatus according to claim 7 or 8. The power control device according to any one of claims 6 to 10, further comprising an external input / output device connected to an external device.

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