JPS6291738A - air conditioner - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an air conditioner that provides a comfortable environment tailored to the user's wishes.

[Conventional technology]

FIG. 6 shows, for example, a conventional heat pump type air conditioner shown in Japanese Unexamined Patent Publication No. 56-137029! 'I] Iso's braking block diagram. And (51) is the operation switch.

(52) is a semiconductor temperature-sensitive resistance element such as a thermistor that senses the room temperature of the air-conditioned room (not shown), and (55) converts the voltage value of the resistance element (52) that changes depending on the room temperature into a digital signal. A/D (analog/digital) f wedge device,
(54) is a set temperature setting device; (55) is a microcomputer consisting of an LSI that detects the turning on of the operation switch (51) and operates based on a predetermined program (not shown); (56) n microcomputer (55
) is a compressor that is controlled to start and stop. A room temperature storage device (57) that reads the output value of the A/D converter (53) of the microcomputer (55) at a predetermined period and stores it as room temperature data, and a setting device that reads the output value of the A/D converter (53) of the microcomputer (55) and stores it as room temperature data. The set temperature data [(581) and the storage device (
Comparison device (59) that compares the set temperature 1st of 58) with the room temperature data TR of the storage device l1t (57) and issues a 1 (operation) or i-1:O (stop) signal to the compressor (56). Consisting of

Next, I will explain one work. When the operation switch (51) is turned on, the microcomputer (55) starts operating, and the comparison device (59) compares the room temperature data TR with the set temperature Ts desired by the customer. For example, in the case of TR (7 days), the comparator (59) supplies an operation signal to the compressor (56). Therefore, the air conditioner starts the heat pump heating operation by the compressor (56). As a result, the room temperature rises. and approaches the set temperature Ts1,
If the room temperature data TR exceeds the set temperature for 1 day, the comparison device [(
59') issues a stop command to the compressor (56), and the air conditioner suspends heating operation.

After that, when the room temperature drops and TR<T8, the compressor (5
6), an operation command is issued [, and in order to return the command, the air conditioner f1t intermittently performs heat pump heating to maintain the room temperature approximately near the set temperature T8.

[Problem that the invention seeks to solve]

As described above, conventional air conditioners control the room temperature by specifying a set temperature, so the user cannot directly input the thermal sensation f of "hot".

When the user feels "hot" or "hot", there is a problem in that the thermal sensation must be replaced with a set temperature and input accordingly.

This invention was made to solve the above-mentioned problems, and aims to provide an air conditioner that can provide a comfortable environment by directly inputting the thermal sensation felt by the user.

[Failure to solve the problem]

The air conditioner according to the present invention includes a plurality of switch sections that enhance the thermal sensation, and current set temperature setting means that determines the set temperature for the current operation according to the switch sections and the input of the room temperature; It has a restart temperature setting means for determining the set temperature at restart.

[Effect]

In the air conditioner according to the present invention, when a switch input occurs in response to the user's thermal sensation, not only the set temperature for the current operation is changed based on the room temperature, but also the input information is used for restarting the operation. It will also be used to determine the temperature setting.

[Fruitful example]

FIG. 1 is an air purifier circuit diagram showing an embodiment of the air purifier according to the present invention. In the figures, the same reference numerals as in FIG. 6 are the same as or correspond to those in FIG. 6. (
1+ is a plurality of switch sections representing thermal sensations, and as shown in FIG. 2, it is more different than the "hot" switch, the "comfortable" switch, and the "cold" switch. (2
) is a microcomputer that has a current set temperature determining means and a restart & constant temperature determining means, and has an input circuit +31
．． CPU (4), memo 1N51. It has an output circuit (6). The input circuit (3) includes a temperature-sensitive resistance element (5) as a temperature detector that detects the input of the switch section (1) and the room temperature.
The output of 2) is.

It is input via an A/D converter (56). The output from the output circuit (6) controls starting and stopping of the compressor (56).

Next, the operation of the above 8-piece embodiment will be explained with reference to FIGS. 3 and 4. Figure 3 shows memo 1 on the microcomputer (2).
FIG. 5 is a flowchart including a program for determining the current set temperature TQ stored in month 5) and a program for determining the set temperature T1 for the restart route.

The g/no position of heating operation will be explained.

First, when the operation is turned on at step t3il, step (
11M, which is stored as the set temperature at restart.

Start operation at the set temperature. In step 0), the room temperature detected by the temperature sensitive resistance element (52) is input.

In step (B), the set temperature and room temperature are compared, and the operation mode is changed.
According to step Q7, an on/off command for the compressor (56) is issued via the output circuit (61) as shown in step (g) (1).Step Q7!-hX5 is the flow as the current set temperature determining means When there is a switch input in step Q7, it is determined which switch is on in steps (to) to C11.If it is determined that the "comfort" switch is on in step (to), the current Change the current set temperature during operation to be the same as the room temperature.If it is determined in step (end) that the ``when it is hot'' switch is on, the current set temperature is changed to a constant value 1, for example, based on the room temperature at that time in step Qll. If it is determined that the "when closed" switch is on, the current set temperature is increased by a fixed value 2 degrees, for example, 2 degrees, based on the room temperature at that time.

Next, the restart set temperature determining means for determining the set temperature at the time of restart in step C3 will be described.

Each time the switch is input, the current set temperature is changed and at the same time, the set temperature for restarting is determined based on the arithmetic expression in step C3. The newly set restart temperature is the restart temperature that was fully memorized before the change, and 1f+
It is calculated as the arithmetic mean of 11 with the current set temperature. The newly set restart temperature is stored in the memo IJ-+51, followed by step (441,
(When the operation is turned off at step 44j and turned on again at step 0υ, the setting mW at the start is set at step 02.

FIG. 4 is a diagram showing room mixing characteristics when the plow heating operation is performed based on this embodiment. During heating operation, when the user feels that the room temperature at point a, which is close to the set salinity, is still "stale", if the user presses the "when it is cold" switch, the set salinity will change to the room temperature at that time. The temperature will be changed to a constant value lower, and operation will continue to further raise the room temperature. Conversely, when the "when it's hot" switch is input, the set temperature is changed to point d, which is a certain value lower than the room temperature at point C at that time, and the compressor operation is stopped until the room temperature reaches the set temperature. When the air conditioner is turned off and then turned on again, the set temperature at the start is the set temperature at point e, which is the arithmetic average of the set temperature at point 2 and the set temperature at point d, as the set temperature at restart. In this way, the set temperature changed according to the user's thermal sensation becomes 1.
The temperature will be averaged and utilized during the next operation, and the set temperature that matches the user's intention will be selected. Noh is performed only when a comfortable environment is obtained.

In the above embodiment, each switch has the same dredging point PM for the set temperature at the time of restart. If you want to prioritize and recreate the environment when the user felt comfortable during the next drive, use the same method.

The flowchart in Figure 2 shows the actual 2It! This is possible by changing a part of one example. That is, step (
If it is determined that the "comfort" switch is on in step (To), the current set temperature is set to be the same as the room temperature in step (4G), and further, in step OQ, the set temperature at restart is set to the current set temperature, that is, the current set temperature. It may be the same as room temperature.

All of the above has been described for heating operation.

For cooling operation, simply reverse the compressor on/off command.

The set temperature change according to the switch input is normally set to an appropriate value that is finely adjusted by the user according to the user's thermal sensation.

Also, the name of the switch part may be given an appropriate name as long as it corresponds to the thermal sensation of the user.

〔Effect of the invention〕

As described above, according to the present invention, the set humidity is changed according to the switch input based on the user's thermal sensation, and furthermore, based on that information, the set temperature at the time of restarting is automatically changed by the user. Since the decision is made in accordance with the user's wishes, it becomes possible to more easily provide a comfortable environment that matches the user's wishes.

[Brief explanation of drawings]

FIG. 1 is an electric circuit diagram of an embodiment of an air conditioner according to the present invention, FIG. 2 is a configuration diagram of the switch section of FIG. 1, FIG. 3 is a flowchart showing the operation of FIG. 1, and FIG. is a diagram explaining the operation thereof, and FIG. 5 is a flowchart diagram showing the operation of another actual JkAflll of the present invention. FIG. 6 is a control block diagram of a conventional air conditioner. In the figure, +11 is a switch section, (2) is a microcomputer having current set temperature determining means and restart set temperature determining means, and (52) is a temperature detector. Note that the same reference numerals in each figure indicate the same or corresponding parts.

Claims (4)

[Claims] (1) A temperature sensor that detects the room temperature, multiple switch sections that indicate thermal sensations such as "hot", "comfortable", and "cold"; An air conditioner comprising a current temperature determining means for determining a set temperature inside the air conditioner, and a restart set temperature determining means for determining a set temperature for restarting the air conditioner. (2) The air conditioner according to claim 1, wherein the current set temperature determining means changes the set temperature by a fixed value based on the room temperature at that time when the switch section is input. (3) A patent characterized in that the set temperature determination means for restarting determines the set temperature for restarting by accumulating and arithmetic averaging the set temperatures determined by the current set temperature determining means each time. An air conditioner according to claim 1 or 2. (4) The re-operation set temperature determining means is characterized in that only when a switch unit input intended for "comfort" is made, the set temperature determined by the current set temperature determining means at that time is set as the set temperature for re-operating. Claims 1 to 3
The air conditioner described in any of the paragraphs.