JPS63150550A - Air conditioner - Google Patents

Abstract

PURPOSE:To make it possible to automatically carry out the changeover of respective operational modes without manually changing the modes of operation in a case where the temperature condition is largely changed by comparing the indoor and outdoor temperatures detected every predetermined time with preset values thereby to set indoor and outdoor temperature zones. CONSTITUTION:Indoor and outdoor temperature are detected by detection elements 3 and 16, and the indoor temperature is judged to exist under which zone by an indoor temperature setting circuit 5 and the outdoor temperature is judged to exist under which zone by an outdoor temperature setting circuit 6. For example, assumed that the indoor temperature is in a zone T1 and the outdoor temperature is in a zone t1, a changeover temperature zone setting circuit 7 judges that the changeover temperature is in a space heating zone A. The data is stored in a RAM 13 through a control part and simultaneously, the air conditioner starts a space heating operation. Then, after the passage of 15 minutes, the indoor and outdoor temperatures are again detected. When the indoor temperature zone is converted to T2 and the outdoor temperature to t2, the changeover temperature zone setting circuit 7 judges that the indoor and outdoor temperatures are in a monitoring zone F. The previously stored zone A and the zone F obtained at this time are compared with each other in a comparison circuit 8. Since both temperature zones are not coincident with each other, the space heating mode operation is carried out as it is.

Description

DETAILED DESCRIPTION OF THE INVENTION "Field of Industrial Application" The present invention relates to an air conditioner that is capable of switching between cooling, dehumidifying, 3D viewing, and heating operating modes in response to changes in temperature.

``Conventional technology'' Conventional air conditioners have operating modes of ``cooling,''``dehumidification,'' and ``heating.'' For example, when set to the ``cooling'' mode, changes in temperature are detected and the system detects strong, medium, or weak winds. It is designed to automatically switch to "cooling", "dehumidification", "heating", etc.
``Problems to be Solved by the Invention'' However, at the change of seasons, etc. Even though you have selected heating mode in the morning and evening, you may want to switch to cooling mode or dehumidification mode during the day, but this is not possible with conventional air conditioners; Leaving the operating mode unchanged during a drastic change not only causes extreme discomfort, but also causes problems such as wasting energy.

[Means for Solving the Problems j] The present invention has been made to solve the above-mentioned problems.Indoor temperature and outdoor temperature are sent to a control unit, and the output of this control unit is used to control the indoor fan and the outdoor fan. In a device that controls a fan, a compressor, and a four-way valve for an indoor unit and an outdoor unit, the indoor and outdoor temperatures detected at predetermined time intervals are compared with respective set values to determine the indoor and outdoor temperature zones. A temperature zone setting circuit that sets the switching temperature zone, a switching humidity zone setting circuit that sets the switching temperature zone with the output of these indoor and outdoor temperature zone setting circuits, and a switching humidity zone setting circuit that sets the switching temperature zone setting circuit and the already stored temperature zone data. and a control section that sets at least a cooling operation mode, a dehumidification operation mode, and a heating operation mode based on the output of the comparison circuit.

"Operation" During automatic operation, after 15 minutes, the indoor fan rotates with ultra-light air for one minute, and the outdoor fan also rotates. Then, the indoor temperature and outdoor temperature are detected. It is set to which temperature zone classified in advance these indoor and outdoor detected temperatures correspond. Then, a comparison is made to see if the currently detected temperature zone matches the previously detected temperature zone. If they match, an operation mode switching signal is output and the operation mode is switched. However, if the operating mode according to the detected temperature zone matches the current operating mode, the current operating mode is continued; if the operating mode does not match, the operating mode is switched to a new operating mode. If the current and previous zones do not match, the temperature zone has just changed this time, so the operation mode of the previous temperature zone is continued.

The above operations are performed at 15 minute intervals. Note that if the stop is canceled after the compressor has stopped, the 15 minute timer is set to time up and temperature zones are detected and compared even if 15 minutes have not elapsed.

"Example" Hereinafter, one embodiment of the present invention will be described based on the drawings.

In Figure 1, (1) is an indoor unit, and (2) is an outdoor unit.

The indoor unit (1) is provided with an indoor temperature detection element (3) such as a thermistor, and this element (3) is coupled to an indoor temperature zone setting circuit (5) via an A/D conversion circuit (4). As shown in FIG. 3, for example, a T temperature zone of 23° C. or lower, a T2 temperature zone of 23 to 26° C., or a T temperature zone of 26° C. or higher is set. This indoor temperature zone setting circuit (5) is
It is connected to the switching temperature zone setting circuit (7) together with the outdoor temperature zone setting circuit (6) for setting each outdoor temperature zone of tllt4, and further includes a comparison circuit (8) for comparing with the previous temperature zone.
The control unit (9) is connected to the control unit (9) via the control unit (9). This control section (9
) is connected to the light receiving section (11) of the remote control (10), the program ROM (12), the RAM (13), the indoor fan (14), and the control section (15) of the outdoor unit (2), respectively. .

The outdoor unit (2) is provided with an outdoor temperature detection element (16) such as a thermistor, and this element (16) is connected to the outdoor temperature zone setting circuit (6) via an A/D conversion circuit (17).
) and is controlled by a control section (15). An outdoor fan (18), a four-way valve (19), and an inverter (20) are connected to this control section (15), and this inverter (20) is connected to a compressor (21).

Next, the present invention will be explained in detail. When commanding automatic operation between manual operation and automatic operation using the remote control (10), compression 1! A timer is activated to turn off (21) for 3 minutes. When the time is up, the indoor fan (14) is turned on with ultra-light wind and the outdoor fan (18) is also turned on.

Immediately after turning on for 1 minute, the indoor and outdoor temperatures are detected by the sensing element (3).
) and (16), respectively.

Then, the indoor temperature is determined by the indoor temperature zone setting circuit (5) as T□, T2. It is determined which zone of T3 it corresponds to. Similarly, the outdoor temperature zone setting circuit (6) determines which zone of t-1t2tt31t4 in FIG. 3 the outdoor temperature corresponds to. For example, if the indoor zone is T □ and the outdoor zone is T ,
In the switching temperature zone setting circuit (7), A (heating) in Figure 3 is selected.
It is determined that the area is in the zone, and this data is sent to the control unit (9).
It is stored in RAM (13) via. At the same time, heating operation is initiated by a signal from the control section (9).

Next, 15 minutes after the first temperature detection, as shown in the time chart in Figure 2, the indoor and outdoor fans (14) and (18) are turned on and the indoor and outdoor temperatures are detected again. and each temperature zone is set. Here, assume that the indoor temperature zone has changed to T2 and the outdoor temperature zone has changed to t2.

The switching temperature zone setting circuit (7) determines that the temperature is in the F (monitoring) zone. Then, a comparison circuit (8) compares the previous A zone stored in RAM (13) with the current F zone.
) to compare. Since they do not match, the operation mode remains heating mode. Also, RAM (13) has A
F zone data is stored instead of zone data. When the third detection after 15 minutes has passed, it is again determined that the vehicle is in the F zone.

Since the F zone is the same as the previous time, the operation mode is switched from heating to monitoring operation mode. In addition.

This monitoring operation mode refers to a state in which the air conditioner is in a stopped state because heating, dehumidification, and cooling are not required. However, even in the monitoring operation mode, the fan is operated for 1 minute every 15 minutes to detect and judge the temperature zone, and the data is stored in RAM (13).

The operation is repeated in the same manner, but the relationship between the change in the switching temperature zone and the operation mode is as follows, for example.

Note that while the compressor (21) is on, the temperature zone is detected every 15 minutes during monitoring operation, but immediately after the compressor (21) is turned off, the temperature zone is detected for 3 minutes even before 15 minutes have elapsed. Temperature zone detection is performed after the stop is released.

The settings of the indoor and outdoor temperature zones in FIG. 3 can be adjusted, for example, at intervals of 1° C. by commands from the remote controller (10).

"Effects of the Invention" Since the present invention is configured as described above, when the temperature state changes drastically during operation, each operation mode of cooling, dehumidification, monitoring, and heating can be operated without changing the mode manually. Switching between the two types is performed automatically, so that a comfortable living condition can be obtained that adapts to changes in the environment. Further, by providing a monitoring operation mode, unnecessary operations can be eliminated and energy can be saved.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of an air conditioner according to the present invention, FIG. 2 is a time chart, and FIG. 3 is an explanatory diagram of temperature zones. (1)...Indoor unit, (2)...Outdoor unit, (3)...
・Thermistor. (4)... A/D conversion circuit, (5)... Indoor temperature zone setting circuit, (6)... Outdoor temperature zone setting circuit,
(7)...Switching temperature zone setting circuit, (8)...Comparator, (9)...Control unit, (10)...Remote controller,
(11) ... Light receiving section, (12) ... ROM, (13
)...RAM, (14)...Indoor fan, (15)
...control section. (16)...Thermistor, (17)...A/D conversion circuit, (]8)...Outdoor fan, (19)...4-way valve, (20)...Inverter, (21 )...Compressor. Applicant Fujitsu General Ltd. Figure 1 Figure 2 Figure 3

Claims (4)

[Claims] (1) In a system in which the indoor temperature and outdoor temperature are sent to a control unit, and the output of this control unit controls the indoor fan, outdoor fan, compressor, and four-way valves of the indoor unit and outdoor unit, respectively, for a specified period of time. A temperature zone setting circuit sets an indoor/outdoor temperature zone by comparing the indoor and outdoor temperatures detected at each time with a set value, and a switching temperature zone is set by the output of these indoor/outdoor temperature zone setting circuits. A switching temperature zone setting circuit, a comparison circuit that compares the data of this switching temperature zone setting circuit with already stored temperature zone data, and at least a cooling operation mode, a dehumidification operation mode, and a heating operation mode based on the output of this comparison circuit. 1. An air conditioner comprising: a control section for setting. (2) The air conditioner according to claim 1, wherein the indoor and outdoor temperatures are detected when the compressor is stopped and at regular intervals at other times. (3) The air conditioner according to claim 1, wherein the operation mode includes, in addition to cooling, dehumidification, and heating, a monitoring mode in which only temperature detection is performed at fixed time intervals. (4) The air conditioner according to claim 1, wherein the operating mode is switched when the switching temperature zone matches the previous one, and when the switching temperature zone does not match, the mode remains unchanged.