JPH068723A - Controller of air conditioner for automobile - Google Patents

Abstract

PURPOSE:To prevent accidents caused by erroneous operation of a power switch for an air conditioner. CONSTITUTION:A controller 1 detects the idle running condition of an internal combustion engine 40 on the basis of the output of an controller 41 of the internal combustion engine 40 through a line 42 and the output from an idle switch 29, and detects the stopping condition by a parking switch 31 and parking brake switch 30. Further, when the stopping condition is under the parking one left for a time T, for example three minutes or more, a line 44 is maintained at a high level even if a power switch 26 is turned OFF so that a compressor 23 and fan motor 22 are continuously driven. Thus, accidents in which children or the like are confined in a cabin in a hot day in the summer or the like can be prevented.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for controlling an air conditioner such as a vehicle air conditioner.

[0002]

2. Description of the Related Art Conventionally, an air conditioner for an automobile has been constructed so as to perform ON / OFF control so as to maintain a desired set temperature based on a temperature detected by a sensor or the like.

[0003]

In the above-mentioned prior art,
It is not configured to perform the ON / OFF control according to the driving state of the vehicle. Therefore, when the driver is away from the vehicle while the air conditioner is operating, a driver left in the vehicle, for example, a child may erroneously operate the switch of the air conditioner to turn it off. In such a case, especially in the summer, there have been many reports of accidents in which the temperature inside the vehicle interior rises and falls into a dehydrated state.

An object of the present invention is to provide a control device for an automobile air conditioner capable of preventing erroneous operation.

[0005]

According to the present invention, there is provided driving detection means for detecting whether or not a prime mover is in a driving state, parking detection means for detecting whether or not a prime mover is in a parking state, and the driving detection means and In response to the detection result of the parking detection means, when the stop operation is performed in the operating state of the air conditioner, when the prime mover is in the operating state and is in the parked state, control for holding the air conditioner in the operating state It is a control device for an air conditioner for an automobile, characterized by including means.

[0006]

According to the present invention, when the air conditioner such as the cooling device is stopped while the air conditioner is in the operating state, and the prime mover is in the operating state and is in the parked state, the control means controls the air conditioner. Keep in operation.

That is, the operating state of a prime mover such as an internal combustion engine is detected by an operation detecting means realized by a crank angle detector or the like. In addition, whether or not the vehicle is in the parking state is detected by determining whether or not the gear position of the automatic transmission is in the parking position, whether or not the parking brake is operated, or whether or not the prime mover is in the idle state. It is detected by the parking detection means. Based on the detection results of the driving detection means and the parking detection means, the control means, when the operation of stopping the air conditioner is performed, when the prime mover is in the operating state and the parking state as described above. Keeps the air conditioner operating.

Therefore, even if a child or the like is in the vehicle in the summer and the air conditioner is stopped due to an erroneous operation, the air conditioner is kept in an operating state and an accident can be prevented.

[0009]

1 is a block diagram showing a controller 1 of an air conditioner 16 for a vehicle according to an embodiment of the present invention and a configuration related thereto. The combustion air of the internal combustion engine 40, which is a prime mover, passes through the intake pipe 2, its inflow amount is adjusted by the throttle valve 3 interposed in the intake pipe 2, and then the surge tank 4
Flow into. The combustion air flowing out from the surge tank 4 is mixed with fuel injected from a fuel injection valve 6 provided in front of the combustion chamber 5, and is mixed via an intake valve 7 with the combustion chamber 5.
Is supplied to. The exhaust gas from the combustion chamber 5 is discharged to the outside from the exhaust valve 8 via the exhaust pipe 9.

The control device 41 of the internal combustion engine 40 includes a crank angle sensor 10 for detecting the rotational speed of the internal combustion engine 40, that is, the number of revolutions per unit time, and the surge tank 4.
The fuel injection amount, the ignition timing, etc. are calculated based on the detection result of the intake pressure sensor 11 and the like provided in the above, and the fuel injection valve 6 is drive-controlled and the ignition plug 13 is drive-controlled via the igniter 12. The output from the internal combustion engine 40 is
It is transmitted to the wheels 15 via the automatic transmission 14.

On the other hand, in the air conditioner 16, when the power switch 26 is turned on, the electric power from the battery 17 is given to the relay coil 19 of the relay 18 and the relay coil 1 is supplied.
9 is excited. As a result, the relay switch 20 becomes conductive, and the electric power from the battery 17 is transferred to the fan motor 22.
The fan motor 22 rotates and drives the fan 25 to blow air into the passenger compartment. At this time, the electric power from the battery 17 via the relay switch 20 is applied to the electromagnetic clutch 21, and the electromagnetic clutch 21 becomes conductive. Therefore, at this time, the internal combustion engine 4
When 0 is in the operating state, the output from the internal combustion engine 40 is given to the compressor 23 via the electromagnetic clutch 21. The refrigerant compressed by the compressor 23 is given to the heat exchanger 24, whereby the air supplied by the fan 25 is cooled by the heat exchanger 24 and blown out into the passenger compartment. Further, when the power switch 26 is turned on, the lamp 27 is turned on, and it is displayed that the air conditioner 16 is operating.

According to this embodiment, the air conditioner 16 described above is used.
Is controlled so that when the internal combustion engine 40 is in the operating state and is in the parking state, the air conditioner 16 is kept in the operating state even if the power switch 26 is erroneously operated. That is, the control device 1 including a processing circuit and an input / output interface circuit realized by a microcomputer or the like reads the switching states of the idle switch 29 and the parking brake switch 30 and the parking switch 31 which are parking detection means. Further, it is read from the control device 41 via the line 42 based on the detection result of the crank angle sensor 10 which is the operation detecting means whether or not the internal combustion engine 40 is in the operating state.

The idle switch 29 is conductive when the throttle valve 3 is fully closed, the parking brake switch 30 is conductive when the parking brake is operating, and the parking switch 31 is also automatic. Conducts when the gear position is in the parking position.

A timer 43 is also provided in the control device 1. As will be described later, the timer 43 starts counting operation when the power switch 26 is turned off.
A predetermined time T, for example, 3 minutes, is counted, and when the vehicle is stopped for a time exceeding this time T, it is determined that the vehicle is parked instead of waiting for start at a large intersection or the like.

A signal indicating whether or not the IGON contact of the ignition key switch 32 as shown in FIG. 2 is conducted is derived from the control device 41. In the ignition key switch 32, by inserting a key into the key hole 33 and rotating the key cylinder 34,
For example, the contacts of Acc, IGON, and START can be sequentially conducted. Accessories such as an on-vehicle audio device and a wiper device can be used when the Acc contact is conducted, and when the IGON contact is conducted, the control device 41 is energized to drive the internal combustion engine 40 together with the accessory. Can be maintained in a state,
Furthermore, when the START contact is conducted, a starter motor (not shown) can be activated to start the internal combustion engine 40. Therefore, when the ignition key switch 32 is electrically connected to the IGON contact, a signal indicating that the internal combustion engine 40 is operating is derived from the control device 41 to the control device 1 through the line 42.

In the control device 1 configured as described above, the ignition key switch 32 is connected to the IGON contact, and the accelerator pedal is not depressed. When the power switch 26 of the air conditioner 16 is turned off in a parking state in which the machine 14 is set to the parking position and continues for the time T or more, the control device 1 detects this via the line 44. , The line 44
Is kept at a high level and the relay coil 19 of the relay 18
Is kept excited.

FIG. 3 is a flow chart for explaining the control operation of the air conditioner 16 as described above. In step n1, it is determined based on the output from the control device 41 via the line 42 whether or not the internal combustion engine 40 is in an operating state, that is, whether or not the ignition key switch 32 is electrically connected to the IGON contact. If so, the process proceeds to step n2, and it is determined from the detection result of the parking switch 31 whether or not the gear position of the automatic transmission 14 is at the parking position, and if so, the process proceeds to step n3. In step n3, the parking brake switch 3
Based on the detection result of 0, it is determined whether or not the parking brake is operating, and if so, step n
4, it is determined whether the internal combustion engine 40 is in the idle state based on the detection result of the idle switch 29.
If so, the process moves to step n5. That is, in steps n1 to n4, when it is determined that the internal combustion engine 40 is in the idle operation state and the vehicle is in the stopped state, the process proceeds to step n5. In step n5, the timer 4
The count value CT of 3 is added to perform the counting operation, and in step n6, it is determined whether or not the count value CT is equal to or more than the value corresponding to the time T. If it is, the parking state is determined in step n7. After the flag F representing that is set to 1, the process proceeds to step n11,
If not, the process directly goes to step n11.

When the ignition key switch 32 is not connected to the IGON contact in step n1, the gear position of the automatic transmission 14 is not in the parking position in step n2, and the parking brake is not operating in step n3. , And at least one of the conditions when the internal combustion engine 40 is not in the idle state is satisfied in step n4, the process proceeds to step n9, the count value CT is reset to zero, and the flag F is reset to zero in step n10. After being reset, the process moves to step n11.

At step n11, it is judged from the level of the line 44 whether or not the power switch 26 is in the conducting and cooling ON state, and if so, step n12.
At step n13, it is determined whether or not the flag F is 1, and in step n13, the cooling is kept in the ON state and the operation is ended. Further, when it is not in the cooling ON state in step n11 and when the flag F is zero in step n12, after the line 44 is set to the low level and the cooling OFF state is set in step n14,
The operation ends.

Thus, in the control device 1 according to the present invention,
When the internal combustion engine 40 is in the operating state and is in the parking state, the air conditioner 16 is kept in the operating state, so that the power switch 26 of the air conditioner 16 is switched from ON to OFF by a child left in the vehicle. Even if an erroneous operation is performed, the operating state of the air conditioner 16 is maintained. Therefore, it is possible to prevent a temperature rise in the vehicle interior due to an erroneous operation of the air conditioner 16 by a child left in the vehicle on a hot day such as summer, and to prevent an accident. The compressor 23 and the heat exchanger 2
By using a heater device in place of 4, it is possible to prevent accidents on cold days such as winter.

[0021]

As described above, according to the present invention, when the operation of stopping the air conditioner is performed, the prime mover is in the operating state,
When the vehicle is parked, the air conditioner is kept in an operating state, so even if a child or the like is in the vehicle during the summer and the air conditioner is stopped by an erroneous operation, the air conditioner remains in an operating state. It is retained and accidents can be prevented.

[Brief description of drawings]

FIG. 1 is a block diagram showing a controller 1 of an air conditioner 16 for a vehicle according to an embodiment of the present invention and a configuration related thereto.

FIG. 2 is a front view of an ignition key switch 32.

FIG. 3 is a flowchart for explaining a control operation of air conditioner 16 according to the present invention.

[Explanation of symbols]

 1,41 Control device 16 Air conditioner 29 Idle switch 30 Parking brake switch 31 Parking switch 40 Internal combustion engine

Claims (1)

[Claims] 1. A driving detection means for detecting whether or not the prime mover is in a driving state, a parking detection means for detecting whether or not the motor is in a parking state, and a response to detection results of the driving detection means and the parking detection means. However, if a stop operation is performed while the air conditioner is operating, and the prime mover is operating and the vehicle is parked,
A control device for an automobile air conditioner, comprising: a control means for holding the air conditioner in an operating state.