JP2522960B2 - Air conditioner temperature control system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention detects a first temperature sensor that detects a temperature above an conditioned room and an ambient temperature of a wireless remote controller that is arbitrarily placed. The present invention relates to a temperature control system for an air conditioner having a second temperature sensor.

(B) Conventional Technology As a conventional technology for such an air conditioner, Japanese Patent Laid-Open No.
There was a thing as described in the gazette of No. 11042.

What is described in this publication is a first temperature sensor that detects the temperature above the air conditioner body or the room to be conditioned, and a second temperature sensor that detects the ambient temperature of a wireless remote controller that is arbitrarily placed. The temperature control is performed based on the detection value of the first temperature sensor or the detection value of the second temperature sensor, and the control is mainly performed based on the detection value of the second temperature sensor. When the air conditioner main body cannot receive the signal from the controller, the control is switched so that the operation is controlled based on the detection value of the first temperature sensor.

(C) Problems to be Solved by the Invention In the above-described conventional technique, the detected value of the temperature detected by the second temperature sensor has to be constantly transmitted from the remote controller at predetermined intervals. Therefore, the power consumption of the remote controller increases due to the transmission every predetermined period, which is unsuitable for continuous use for a long period of time.

In order to reduce this power consumption, if the predetermined period for transmitting the signal is lengthened, the followability to the temperature fluctuation of the room to be conditioned is slowed and the temperature fluctuation width of the room to be conditioned becomes large, causing the user to feel uncomfortable. However, if the electronic circuit is simplified by increasing the step size when converting the temperature detected by the second temperature sensor into a detected value, the detected value of the temperature will be roughly the same. There is a problem that the followability to the temperature fluctuation of the room becomes slow.

In view of such a problem, the present invention provides a temperature control method for an air conditioner that can improve the temperature followability of the room to be conditioned without increasing the power consumption of the remote controller.

(D) Means for Solving Problems The present invention includes a first temperature sensor that detects the temperature of the upper side of the room to be conditioned and a second temperature sensor that detects the ambient temperature of an arbitrarily placed wireless remote controller. Have
A temperature control method in which the control unit switches to control the operation of the air conditioner based on the detection value of the second temperature sensor or the detection value of the first temperature sensor transmitted from the remote controller in a predetermined cycle. In the above, the remote controller converts the temperature detected by the second temperature sensor into a detection value with a constant step size and transmits the detected value, and the control unit sets the temperature detected by the first temperature sensor to a step size narrower than the step width of the remote controller. Operation of the air conditioner by comparing the detected value of the first temperature sensor and the set temperature value after being converted based on the detected value signal transmitted from the remote controller at every predetermined cycle Is to control.

(E) Operation In the temperature control method of the air conditioner of the present invention thus configured, the detected value of the first temperature sensor having a smaller step size than the detected value of the second temperature detected value of the remote controller is Since the correction is performed by the detection value of the second temperature sensor every predetermined period, the temperature detected by the second temperature sensor can be substantially converted into the detection value with a step width narrower than the step width on the remote controller side. .

(F) Example An example of the present invention will be described below with reference to the drawings. First
The figure shows the electronic circuit diagram of the remote controller. (1)
Is a second temperature sensor that senses the ambient temperature, and is connected to the power supply in series with the resistor (2). (3) is A / D
It is an (analog / digital) converter, and inputs the potential change at the connection point between the second temperature sensor (1) and the resistor (2). (4) is an operation key unit for starting operation, setting room temperature or humidity, and setting timer time.
Reference numeral (5) is a transmission circuit, which converts a signal based on the operation of the operation key unit (4) and a parallel signal based on the detected value output from the A / D converter (3) into a serial signal and outputs the serial signal. After a predetermined driving operation by the key portion (4), a serial signal based on the detected value is output in a predetermined cycle (about every 3 minutes). Reference numeral (6) is a transmitter for transmitting an optical signal based on the signal from the transmitter circuit (5), and the infrared emitting elements (7), (8) switching transistors (9), (1)
0).

The resolution of the A / D converter (3) (step size when converting the analog temperature value detected by the second temperature sensor (1) into a digital detection value) is set to 1 ° C. Therefore, the detected value in steps of 1 ° C. is transmitted from the remote controller.

FIG. 2 is an electronic circuit diagram of a main part of a control unit provided in the air conditioner body. In the figure, (11) is a receiving unit for receiving an optical signal from the remote controller, and is composed of an infrared light receiving element (12), a resistor (13), and a capacitor (14). (15) is an amplifier for amplifying the optical signal received by the receiving section (11), (16) is a converter for converting serial data from the amplifier (15) into parallel data, and (17) is a first temperature sensor. The temperature of the air to be conditioned is provided near the air inlet of the air conditioner body. Alternatively, the first temperature sensor may be separated from the main body of the air conditioner by using a lead wire and installed at an arbitrary position. (18) is a resistor connected in series with the first temperature sensor (17), (19) is A / D
The (analog / digital) converter, (20) is a microprocessor, and based on the thermocycle, the driver section (2
2) through compressor (23), indoor fan motor (2
4) Drives electric elements such as the outdoor fan motor (25). Reference numeral (26) is an operation switch provided in the main body of the air conditioner, which is provided with an AC power supply energizing switch, a cooling / heating switching switch, a filter sign reset switch, and the like.

The resolution of the A / D converter (19) is set to 0.5 ° C., and a resolution higher than that of the A / D converter (3) provided in the remote controller is used.

FIG. 3 is an operation explanatory view showing the main operation of the microprocessor (20) shown in FIG. First, in step S ₁ , the temperature detected by the first temperature sensor (17) is converted into a digital detection value.
Convert to T _H , input, and memorize. Then it is determined whether the detection value T _R of a normal value from the remote controller is received in step S _2. The detection value T _R is intended to be stored independently of the operation of the microprocessor (20) to the transducer (16). The abnormality of the detected value T _R is the first
When the detected value of the temperature sensor (17) and the detected value of the second temperature sensor (1) are extremely different from each other, for example, when the remote controller is exposed to direct sunlight. When the normal detection value T _R is received, the difference ΔT between the detection value T _H of the first temperature sensor (17) and the detection value T _{R of} the second temperature sensor (1) is obtained in step S ₃ . Next, in step S ₄ , the detected value T to be controlled is calculated. Next, in step S ₅ , this detected value T
A thermocycle operation is performed based on the set value T ₅ and the set value T ₅ to control the operations of the compressor (23), the fan motors (24), (25), and the like.

Therefore, when the normal detection value T _R is transmitted from the remote controller, and the control receives this detection value, the first
The correction value ΔT added to the detection value T _H of the temperature sensor (17) is changed. When the detection value T _R is not received for a long time it is to use a previous correction value ΔT as is.

In the temperature control method of the air conditioner configured as described above, the detected value TR transmitted from the remote controller every 3 minutes and the detected value TH detected by the first temperature sensor provided in the air conditioner body are Find the difference and obtain a new ΔT (= TH-TR)
The value of is set. Therefore, this ΔT is updated every time a signal is received from the remote controller (every 3 minutes while the signal can be normally received). At this time, the resolution of the detection value TR transmitted from the remote controller is in steps of 1.0 ° C, and the detection value TH detected by the first temperature sensor is in steps of 0.5 ° C, so the value of ΔT (= TH-TR) is also 0.5. ℃ increments.

Next, the microprocessor determines the ambient temperature T of the remote controller from the detection values TH and ΔT of the first temperature sensor.
Detected value as T = TH-ΔT (= TH- (TH-TR) = TR)
The temperature is controlled equivalently by using TH as a reference and comparing this temperature T with the set temperature T _S. At this time, the detected value TH is in steps of 0.5 ° C. and ΔT is in steps of 0.5 ° C., so the temperature T is also in steps of 0.5 ° C.

Therefore, it is possible to convert the temperature of 1.0 ℃ increments detected by the remote controller into the temperature of 0.5 ℃ increments and use it for temperature control. Increase the increment width of the remote controller to 1.0 ℃. Also, the temperature can be controlled substantially with the step width of 0.5 ° C., and the followability to the temperature fluctuation can be improved to the same extent as in the case of the step width of 0.5 ° C.

Further, even if the period of the signal transmitted from the remote controller is lengthened in order to reduce the amount of power consumption, the operation is controlled based on the detection value of the first temperature sensor, so that the temperature followability does not deteriorate.

(G) Effect of the Invention The present invention has a first temperature sensor that detects the temperature of the upper side of the room to be conditioned, and a second temperature sensor that detects the ambient temperature of the wireless remote controller that is arbitrarily placed,
The second transmitted from the remote controller every predetermined period
In the temperature control method in which the control unit switches the operation of the air conditioner based on the detection value of the temperature sensor or the detection value of the first temperature sensor, the remote controller controls the temperature detected by the second temperature sensor. The control unit converts the detected value with a constant step width and transmits the detected value, and the control unit converts the temperature detected by the first temperature sensor into a detected value with a step width narrower than the step width of the remote controller, and the control value is transmitted at predetermined intervals. Since the operation of the air conditioner is controlled by comparing the detected value of the first temperature sensor corrected based on the detected value signal from the remote controller with the set temperature value, the detected value of the first temperature sensor is set to a predetermined value. Is input to the control section as the detected value of the second temperature sensor, and the temperature of the room to be conditioned can be controlled based on this detected value. Therefore, the detection value for control can be obtained with the high resolution for the first temperature sensor without increasing the resolution of the detection value transmitted from the remote controller, and the remote controller can be a simple circuit and consume less power. Even so, temperature control with good followability can be performed.

[Brief description of drawings]

1 is an electronic circuit diagram of a main part of a remote controller showing an embodiment of the present invention, FIG. 2 is an electronic circuit diagram of a main part of a control unit provided in an air conditioner main body, and FIG. 3 is FIG. FIG. 7 is an operation explanatory view showing the main operation of the microprocessor. (1) ... Second temperature sensor, (17) ... First temperature sensor, (20) ... Microprocessor.

Claims (1)

(57) [Claims] 1. A first temperature sensor for detecting a temperature above a room to be conditioned and a second temperature sensor for detecting an ambient temperature of a wireless remote controller, which is arbitrarily placed, and a predetermined period from the remote controller. In the temperature control method in which the control unit switches to control the operation of the air conditioner based on the detection value of the second temperature sensor or the detection value of the first temperature sensor transmitted every time, the remote controller is the second controller. The temperature detected by the temperature sensor is converted into a detection value with a constant step size and transmitted, and the control unit converts the temperature detected by the first temperature sensor into a detection value with a step size narrower than the step size of the remote controller. , Comparing the detected value of the first temperature sensor after correction based on the detected value signal transmitted from the remote controller at predetermined intervals with the set temperature value, Temperature control system of the air conditioner and controls the operation of the conditioner.