JP3518433B2 - Air conditioner - Google Patents

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to an air conditioner.

[0002]

2. Description of the Related Art In a conventional air conditioner, a standby current is always supplied to an outdoor unit microcomputer even when its operation is stopped for a long time at night. that is,
Monitor the state of the outdoor unit in the operation stopped state with sensors,
This is because, if necessary, predetermined control is performed by the outdoor microcomputer to facilitate the restart. For example, when the temperature of the discharge pipe becomes low, the refrigerant and the refrigerating machine oil are separated in the compressor, which may cause damage or the like when the compressor is restarted. Therefore, the discharge pipe temperature of the compressor is monitored by a thermistor or the like, and when the discharge pipe temperature becomes lower than a certain level, the outdoor microcomputer is controlled to preheat the compressor.

[0003]

However, there is a strong demand for energy saving of the air conditioner, and it is expected that the standby power consumption will be reduced. However, if the standby current is simply cut, there is a problem that the state of the outdoor unit in the operation stopped state cannot be grasped, so that the outdoor unit cannot be restarted smoothly and its reliability cannot be secured.

The present invention has been made to solve the above-mentioned conventional problems, and its purpose is to reduce the standby power consumption to meet the demand for energy saving and to secure the reliability of the outdoor unit. It is to provide an air conditioner capable of

[0005]

Therefore, in the air conditioner of claim 1, in the air conditioner entering the standby power reduction mode in which the standby power supply to the outdoor unit 1 is stopped in the operation stopped state, the standby power reduction is achieved. In the mode, it is determined whether the outdoor unit controller 3 needs to operate for preheating control of the compressor 4, and when it is necessary, the indoor unit controller 9 controls the standby power to the outdoor unit 1. An air conditioner configured to start supply, grasping a time TYON until the outdoor unit controller 3 needs to operate for preheating control of the compressor 4 after the operation of the outdoor unit 1 is stopped, When this time is within a predetermined time TYSUS, it is characterized in that the entry into the standby power reduction mode is avoided.

In the air conditioner according to the first aspect, the operation of the outdoor unit control section 3 is necessary for preheating control of the compressor 4 while shutting off the supply of standby power to the outdoor unit 1 when the operation is stopped. In this case, the indoor unit controller 9 has started supplying standby power to the outdoor unit 1. Therefore, it is possible to smoothly restart the compressor 4 by reducing the standby power and performing the preheating control by the outdoor unit control unit 3 when necessary. Moreover, when the time TYON until the outdoor unit controller 3 needs to operate for preheating the compressor 4 is relatively short, the standby power supply to the outdoor unit 1 is not cut off. When the time TYON is recognized as being relatively short, the time TYON and the time until the compressor 4 is actually required to be preheated due to the influence of external factors such as a sudden decrease in the outside air temperature. There may be some gap between them. Therefore, in such a case, it is possible to smoothly restart the compressor 4 without cutting off the standby power. In this case, when the time TYON until the outdoor unit controller 3 needs to operate for the preheating operation of the compressor 4 after the operation of the outdoor unit 1 is stopped is longer than the predetermined time TYSUS, the standby power reduction is performed. It is preferable to enter the mode. Further, in this case, “determining whether or not the outdoor unit control unit 3 needs to operate for preheating control of the compressor 4” means that the outdoor unit control unit 3 compresses after entering the standby power reduction mode. It is preferable to determine whether or not the time TYON has elapsed until it is necessary to operate for the preheating operation of the machine 4.

In the air conditioner according to a second aspect of the present invention, the time after the outdoor unit 1 is stopped is defined as a first time region in which the discharge pipe temperature drops steeply until a predetermined time TST elapses after the outdoor unit 1 is stopped. The predetermined time TS during which the discharge pipe temperature gently decreases
It is divided into a second time region after the lapse of T, and in the first time region, the initial discharge pipe temperature DO and the outside air temperature D after the outdoor unit 1 is stopped.
Estimated discharge pipe temperature DO after the elapse of the predetermined time TST, assuming that the discharge pipe temperature decreases in proportion to the temperature difference from OA.
STOP1 is calculated, and the predicted discharge pipe temperature DO is determined as the discharge pipe temperature decreases with a predetermined gradient in the second time region.
Temperature DOY that requires starting preheating operation from STOP1
It is characterized in that the time TY until reaching is obtained.

In the air conditioner of the second aspect, paying attention to the drop characteristic of the discharge pipe temperature, the time after the outdoor unit 1 is stopped is divided into two time regions, and linear approximation is performed in each time region to perform preheating. The time TY required to reach the temperature DOY at which the operation needs to be started is calculated. Therefore, the time TY can be obtained by an extremely simple procedure, and it is possible to prevent this from contributing to an increase in the cost of the device.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, specific embodiments of the air conditioner of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing an outline of a control system of the air conditioner. The outdoor unit 1 is provided with a compressor 4 and an outdoor unit electrical component 2, and the outdoor unit electrical component 2 further includes an outdoor unit microcomputer (outdoor unit control unit) 3 for controlling each unit of the outdoor unit 1. It is equipped. A discharge pipe temperature thermistor 5 attached to the discharge pipe of the compressor 4 and an outside air temperature thermistor 6 for detecting the outside air temperature are connected to the outdoor unit microcomputer 3. The outdoor unit microcomputer 3 controls the compressor 4 for preheating operation.

On the other hand, the indoor unit 7 is provided with an indoor unit electrical component 8. The indoor unit electrical equipment 8 is provided with an indoor unit microcomputer (indoor unit control unit) 9, and a room temperature thermistor 10 is connected to the indoor unit microcomputer 9. A power supply outlet 12 is connected to the indoor unit 7, and electric power is supplied from the indoor unit 7 to the outdoor unit 1 via a power line 13. Then, the main relay 1 that switches between the cutoff and the communication of the electric power supplied to the outdoor unit 1 to the power supply line 13.
1 is provided. Control data and control commands are transmitted between the outdoor unit microcomputer 3 and the indoor unit microcomputer 9 through the transmission line 14.

FIG. 2 is a flow chart showing the standby power reduction control by the indoor unit microcomputer 9. This control routine is executed when the air conditioner enters a stopped state other than the stopped state, or immediately after the main power supply is turned on. In step S1, the outside air temperature DOA detected by the outside air temperature thermistor 6 and the preheat season determination outside air temperature DOAY.
Compare with. The preheating of the compressor 4 is not necessary in the summer and the like, so the preheating season determination outside air temperature DOAY is 17
It is set to ℃. DOA is DO in this step S1
When it is determined that the temperature is AY or less, it is a season in which preheating is required, so the process proceeds to step S2. On the other hand, D
When OA is higher than DOAY, it is the season when preheating is not necessary, so the routine proceeds to step S9, where the main relay 11 is turned off, and the supply of standby power to the outdoor unit 1 is cut off.

In step S2, the discharge pipe temperature DOSTOP1 after a lapse of a predetermined time TST from the stop of operation is obtained. Here, TST is set to 1 hour, but it should be approximated that the discharge pipe temperature decreases at a steep slope almost proportional to the difference between the outside air temperature DOA and the initial discharge pipe temperature DO from the time of operation stop to the predetermined time TST. You can Therefore, the discharge pipe temperature DOSTOP1 is obtained according to the following equation DOSTOP1 = DO- (DO-DOA) * KST. Here, DO is the initial discharge pipe temperature after the operation is stopped, and is detected by the discharge pipe temperature thermistor 5. KST is the discharge pipe temperature decrease rate, which is set to 0.65 here.

Next, in step S3, the predetermined time TS
From the predicted discharge pipe temperature DOSTOP1 after the lapse of T,
The time TY until the discharge pipe temperature reaches the discharge pipe temperature DOY at which the preheating is turned on is obtained. It can be approximated that after the elapse of the predetermined time TST, the discharge pipe temperature decreases with a constant gentle gradient regardless of the outside air temperature DOA. Therefore, the time TY is obtained according to the following equation DOY = KDOWN × TY + DOSTOP1. Here, KDOWN is a discharge pipe temperature gradient and is set to -2.5. DOY is set as a temperature at which the compressor 4 needs to be preheated, and is set to 7 ° C. here. Then, in step S4, the time from when the operation is stopped until the discharge pipe temperature reaches the preheat ON discharge pipe temperature DOY is obtained according to the following expression TYON = TY + TST.

In step S5, TYON obtained in step S4 is compared with the preheat suspend permission time TYSUS. Here, TYSUS is 8 hours. TYO
When N is less than or equal to TYSUS, the process proceeds to step S10, and the main relay 11 is turned on to supply standby power to the outdoor unit 1. On the other hand, when TYON is longer than TYSUS, the routine proceeds to step S6, where the main relay 11 is turned off to cut off the standby power supply to the outdoor unit 1.
Then, waiting for TYON to elapse in this state, and when it is determined in step S7 that TYON has elapsed, next, in step S8, the main relay 11 is turned on to supply standby power to the outdoor unit 1. Start. Then, the process returns to step S1 again to repeat the above routine.

In parallel with the above routine, the indoor unit microcomputer 9 executes the following routine. This control routine is also executed when the air conditioner enters a stopped state from a state other than the stopped state, or immediately after the main power supply is turned on. In step S11, the room temperature DA detected by the room temperature thermistor 10 is compared with the preheating control request room temperature DAY. Here, DAY is set to 5 ° C. And DA is DA
When the temperature is higher than Y, the above S11 is repeated, while when the room temperature is lowered and DA becomes DAY or less, the process proceeds to step S12, the main relay 11 is turned on, and the supply of standby power to the outdoor unit 1 is started. .

In the above air conditioner, it is predicted how long the preheating of the compressor 4 will be required after the operation is stopped, such as in winter when the preheating of the compressor 4 is required. Even when the standby power supply to the outdoor unit 1 is cut off, if the predicted time TYON has elapsed, the indoor unit microcomputer 9 turns on the main relay 11 to restart the standby power supply. There is. In other words, the standby power supply to the outdoor unit 1 is cut off to stop the operation of the outdoor unit microcomputer 3, and when preheating control is required, the indoor unit microcomputer 9 starts the standby power supply to the outdoor unit 1, This means that the operation of the outdoor unit microcomputer 3 is restarted. Therefore, the required preheating control can be reliably performed by the outdoor unit microcomputer 3 while reducing the standby power consumption, and damage to the compressor 1 can be avoided and its reliability can be ensured.

The above-mentioned time TYON is predicted by the first time in which the discharge pipe temperature decreases with a steep slope which is almost proportional to the difference between the outside air temperature DOA and the initial discharge pipe temperature DO after the operation stop. By dividing into a region (from the stop of operation until the time TST elapses) and a second time region (after the time TST elapses) in which the temperature gradually decreases without depending on the outside air temperature DOA, linear approximation is performed for each of them. Is going. Therefore, a relatively accurate prediction can be made by a simple calculation. Therefore, no load is applied to the indoor unit microcomputer 9, and there is no need to use a special microcomputer. When the predicted time TYON is calculated as a relatively short one, the predicted time TYON and the actual preheating of the compressor 4 are required due to the influence of external factors such as a sudden decrease in the outside air temperature. There may be some deviation from the time. However, in the air conditioning, the standby power supply is cut off only when the predicted time TYON is longer than the predetermined permission time TYSUS.
Therefore, even if there is a slight misalignment in the prediction, or if the outside air temperature drops more than expected at night, the situation in which the necessary preheating of the compressor 4 is not avoided is avoided, and its reliability is ensured. Can be maintained at. Further, since the main relay 11 is turned on by using the monitoring of the room temperature DA together, the reliability of the compressor 4 can be maintained more reliably.

Although specific embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the present invention. In the above, the predicted time TY
However, the predicted time TYON may be obtained by the outdoor unit microcomputer 3 and the result may be transmitted to the indoor unit microcomputer 9 via the transmission line 14. Further, in the above, the estimated time TYON that requires the preheating control of the compressor 4 is required.
The standby electric power is supplied to the outdoor unit 1 when this time TYON has elapsed. However, when control other than the preheating control is required in the outdoor unit 1, the time required for such control may be obtained as the estimated time,
In addition to the time, it can be calculated as various physical conditions such as temperature conditions. Further above,
Although the discharge pipe temperature thermistor 5 provided in the discharge pipe itself of the compressor 4 detects the discharge pipe temperature, this may be detected by, for example, a sensor provided near the bottom surface of the compressor 4. If the temperature corresponding to the temperature of the refrigerating machine oil stored in the compressor 4 when the operation is stopped can be detected, this can be used as the discharge pipe temperature.

【The invention's effect】

In the air conditioner according to the first aspect, when the operation of the outdoor unit control section is required for preheating control of the compressor while shutting off the supply of standby power to the outdoor unit in the operation stopped state. Has started supply of standby power to the outdoor unit by the indoor unit control unit. Therefore, while reducing the standby power consumption,
When necessary, the outdoor unit control unit can perform the preheating control to smoothly restart the compressor, and it is possible to achieve both energy saving and maintenance of high reliability. Moreover, when the time required for the outdoor unit controller to operate for preheating the compressor is relatively short, the supply of standby power to the outdoor unit is not cut off. Therefore, even if there is a discrepancy between the above time, which is grasped due to the influence of external factors such as a sudden decrease in outside air temperature, and the time when preheating of the compressor is actually required, this may damage the compressor. It is possible to surely avoid the occurrence.

In the air conditioner of the second aspect, the time after the outdoor unit is stopped is divided into two time regions, and linear approximation is performed in each time region to reach the temperature at which the preheating operation needs to be started. Seeking time. Therefore, it is possible to obtain the above-mentioned time with an extremely simple procedure, and it is possible to prevent this from contributing to an increase in the cost of the device.

[Brief description of drawings]

FIG. 1 is a block diagram showing an outline of a control system of an air conditioner according to an embodiment of the present invention.

FIG. 2 is a flowchart showing a control routine executed by an indoor unit microcomputer.

[Explanation of symbols]

1 outdoor unit 3 Outdoor unit microcomputer 4 compressor 9 Indoor unit microcomputer

─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP 10-30563 (JP, A) JP 2000-205627 (JP, A) JP 11-211253 (JP, A) JP 8-114346 (JP, A) JP 2000-154927 (JP, A) JP 6-42826 (JP, A) JP 2000-193325 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB) Name) F24F 11/02

Claims (2)

(57) [Claims] 1. In an air conditioner entering a standby power reduction mode in which standby power supply to the outdoor unit (1) is stopped in a stopped state, the outdoor unit control section (3) compresses in the standby power reduction mode. It is judged whether or not it is necessary to operate for preheating control of the unit (4), and when it is necessary, the indoor unit controller (9) starts supplying standby power to the outdoor unit (1). (TYON) until the outdoor unit controller (3) needs to operate for preheating control of the compressor (4) after the operation of the outdoor unit (1) is stopped. This time is a predetermined time (T
When it is within YSUS), the air conditioner is characterized in that the entry into the standby power reduction mode is avoided. 2. A first time region in which the discharge pipe temperature decreases steeply after the stop of the outdoor unit (1) until a predetermined time (TST) elapses after the stop of the outdoor unit (1); It is divided into a second time region after the passage of the predetermined time (TST) in which the pipe temperature gently decreases, and in the first time region, the initial discharge pipe temperature (DO) and the outside air temperature (DOA) after the outdoor unit (1) is stopped. ) And the discharge pipe temperature decreases in proportion to the temperature difference, the predicted discharge pipe temperature (DOSTOP1) after the lapse of the predetermined time (TST) is obtained, and further the discharge pipe temperature has a predetermined gradient in the second time region. As
The air conditioner according to claim 1, wherein a time (TY) from a predicted discharge pipe temperature (DOSTOP1) to a temperature (DOY) requiring preheating is obtained.