JPS6082738A - Method of adjusting room temperature by air conditioner - Google Patents

Abstract

PURPOSE:To make it possible to carry out adjustment of room temperature more accurately by detecting the temperature of a residential space from the acoustic velocity of high-frequency sound wave pulse passing through the residential space between an indoor machine and a remote transmitter-receiver and further comparing the detected temperature with a preset temperature thereby to carry out temperature control. CONSTITUTION:The distance between an indoor unit 2 and a remote transmitter- receiver 3 is preset by a distance setting portion 9, and at the same time, the temperature of a residential space is preset by a temperature setting portion 6, These data are supplied to an operating portion 5. A high-frequency sound wave pulse which has been transmitted from a unidirectional sound wave transmitter 10 of the indoor unit 2 and passed through the residential space, is received by the remote transmitter-receiver 3. Based on this received signal, a high-frequency sound pulse transmitted from a unidirectional sound wave pulse transmitter 13 of the remote transmitter-receiver 3, is received by a receiver 14 of the indoor unit 2. The time required from a time sound wave signal is transmitted from the indoor unit 2 to the remote transmitter-receiver 3 and up to a time the sound wave signal again returns to the indoor unit 2, is calculated by the operating portion 5. Thus calculated time is converted into temperature.

Description

[Detailed description of the invention] Industrial applications The present invention relates to a room temperature control method in an air conditioner-1- It is something to do.

Conventional configuration and its problems Traditionally, when adjusting room temperature with an air conditioner, a temperature sensing element such as a thermistor was used, and this sensing element was incorporated into the body of the air conditioner to sense the temperature near the body. to control the air conditioner or the sensing element,
It is installed on a wall, etc. in a place far away from the main unit, but probably close to where you actually live, and by sensing the room temperature, sends a message to the main unit to control the main unit. However, in such a conventional method, when the sensing element is built into the main body, the room temperature near the main body is sensed, which is different from the temperature at the place where the user lives, so that appropriate control cannot be achieved. Furthermore, even if the sensing element is installed on a wall in a place that is considered to be near the residence, the actual temperature of the guide layer living space and the temperature of the wall where the sensing element is installed are often different, which is also not appropriate. This has the disadvantage that it does not provide accurate control.

OBJECTS OF THE INVENTION The present invention solves the above-mentioned drawbacks of the conventional technology. -2- It detects the actual temperature of the living space by utilizing the fact that the speed of sound changes depending on the temperature, and adjusts the room temperature more accurately. The purpose of the present invention is to provide a method for controlling the room temperature of an air conditioner.

Structure of the Invention In order to achieve the above-mentioned object, the method of controlling the room temperature of an air conditioner according to the present invention includes transmitting high-frequency sound pulses from a unidirectional sound wave transmitter on the indoor unit side, and transmitting the sound wave pulses through the living space. is received by the receiver on the remote transceiver side, and based on this received signal, the unidirectional sonic wave transmitter on the remote transceiver side transmits high-frequency sonic pulses, and the sonic pulses are transmitted to the receiver on the indoor unit side. The distance between the indoor unit and the remote transmitter/receiver and the set temperature are input to a calculation unit on the indoor unit side, which measures the time from the transmission of the sound wave pulse by the indoor unit side to the reception. The configuration is such that the temperature of the living space is calculated from this time, and the temperature is controlled by comparing this temperature with a set temperature.

DESCRIPTION OF EMBODIMENTS-3- Hereinafter, one embodiment of the present invention will be described with reference to the drawings.

In Figures 1 and 2, J3 is shown, 1 (31 outdoor units, 2 [,
1 is an indoor unit installed in the room, 3 is near the living space,
There are shrines placed on walls, pillars, etc., which serve as Buddha receivers.

4 is a transmitter, 5 is an arithmetic unit that receives a signal from the transmitter 8!14 and performs calculations, and 6 is a temperature setting unit.1 This temperature setting unit 6
is an operation unit that allows you to arbitrarily set the room temperature.

Reference numeral 7 denotes a blower for indoor ventilation, which is controlled by a signal from the 'i'3 section 5 mentioned above. 8 is the arithmetic unit 5 and the outdoor unit 1
9 is a distance ml setting section between the indoor unit 2 and the remote transmitter/receiver 3, and this distance! ! When the transmitter/receiver 3 and the indoor unit 2 are installed in the remote control 1, the 1 setting section 9 performs operational settings and transmits the respective set values to the calculation section 5. 1
0 (J) A directional sound wave transmitter that is driven by the J transmitter 4 and transmits pulses of high frequency sound waves; 11 is a receiver that receives the frequency sound waves transmitted from the unidirectional sound wave transmitter 10; 12 is a receiver that receives the frequency sound waves transmitted from the unidirectional sound wave transmitter 10; a transmitter repeated by the receiver 11;
13 is a unidirectional sound wave transmitter driven by the -4= transmitter 12;
Reference numeral 14 denotes a receiver on the indoor unit side that receives frequency sound waves from the unidirectional sound wave transmitter 13.

In the above configuration, the temperature adjustment utilizes the fact that sound propagation is fast when the temperature is high, sound propagation is slow when the temperature is low, and the speed of sound changes depending on the temperature. That is, the distance between the indoor unit 2 and the remote transmitter/receiver 3 is set in advance by the distance setting unit 9, and the temperature setting of the living space is also set by the humidity setting unit 6, and these are input to the calculation unit 5. I'll keep it.

Therefore, from the transmitter 1fi4, the unidirectional sound wave transmitter 1
The pulse of high-frequency sound waves transmitted from this unidirectional sound wave transmitter 10 senses and measures the average temperature between the indoor unit 2 and the remote transceiver 3, and sends it as a signal to the receiver. 11, it is further repeated by the transmitter 12, and from the unidirectional sound wave transmitter 1i13, the indoor unit side reception a14
and is received by the receiver 11114. thus,
After a pulse of high-frequency sound waves is transmitted from the room 12,
Calculate the time it takes to be repeated by the remote transmitter/receiver 3 and return to the indoor unit 2 again in part 5, convert it to temperature, and compare it with the set value determined by h9 in the temperature setting unit 6. By, send fll + ej
17 and the operation of the outdoor unit 1.

As described in the detailed description of the invention, according to the present invention, high-frequency sound pulses transmitted from a unidirectional sound wave transmitter on the indoor unit side and passed through the living space are received at the remote transmitter/receiver side, Based on this received signal, the high-frequency sound pulse transmitted from the unidirectional sound wave transmitter on the transmitter/receiver side is sent to the remote 1 by the receiver on the indoor unit side, and then the sound wave is transmitted from the indoor unit side to the remote transmitter/receiver. The calculation unit measures the time it takes for the signal to be sent and the time it returns to the indoor unit, and converts this into temperature.Since this is a system, it senses the average temperature of the actual living space where air conditioning is being performed. Compared to conventional temperature control using a temperature sensing element built into the indoor unit body or a temperature sensing element installed near the living space, it is more suitable for the actual living space. temperature control.

[Brief explanation of drawings]

-6- Fig. 1 is an explanatory diagram of the equipment arrangement of an air conditioner used in the room temperature control method according to an embodiment of the present invention, and Fig. 2 is a block diagram of the electric circuit of the air conditioner. 2...Indoor unit, 3...Remote transmitter/receiver, 4,12
... Transmitter, 5... Calculation section, 6... Temperature setting section,
9... Distance setting unit, 10.13... Unidirectional sound wave transmitter, 11.14... Receiver agent Yoshihiro Morimoto 7- Figure 1 No. ? figure

Claims (1)

[Claims] 1. A high-frequency sonic pulse is transmitted from a unidirectional sonic transmitter on the indoor unit side, the sonic pulse that passes through the living space is received by a receiver on the remote transceiver side, and based on this received signal, the remote A high-frequency sonic pulse is emitted from a unidirectional sonic transmitter on the transceiver side, and this sonic pulse is received by the receiver on the indoor unit side, and the distance and set temperature between the indoor unit and the remote transceiver are determined. The input calculation unit on the indoor unit measures the time from the transmission of the sound wave pulse to the reception by the indoor unit, calculates the temperature of the living space from this time, and compares this temperature with the set temperature. A method for controlling the room temperature of an air conditioner.