JP2013224148A - Vehicle equipment control device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a vehicle equipment control device that reduces power consumption by performing control based on a vehicle operation state.SOLUTION: A vehicle equipment control device includes: information acquiring means for acquiring at least one of a vehicle cabin temperature, a vehicle cabin humidity and an outside temperature, and business operation start time of a vehicle; and a control means for performing control for reducing power consumption of an air-conditioning device arranged in the vehicle based on the information acquired by the information acquiring means. The control means calculates a preliminary operation time based on at least one of the vehicle cabin temperature, the vehicle cabin humidity and the outside temperature, and starts the air-conditioning device before the preliminary operation time which is earlier than the business operation start time.

Description

  The present invention relates to a control device for vehicle equipment.

  In a conventional control device for vehicle equipment, for example, as a control device for a vehicle air conditioner, “a vehicle air-conditioning control device installed in a train vehicle is the operation information of the mounted air conditioner and the position information of the vehicle. Data is periodically transmitted to the management computer, and the management computer accumulates and processes the data sent from the vehicle air-conditioning control device, so that detailed investigation and analysis of the air conditioner can be performed on the route and position. Etc. ”(see Patent Document 1).

Japanese Patent No. 4244676 (Abstract, FIGS. 1 and 3)

  In the conventional control apparatus for the vehicle equipment as described above, control based on the driving state of the vehicle such as “business operation”, “dwelling”, and “forwarding” is not performed. For example, air-conditioning control that is the same as during commercial operation is performed even during a time period when there are no passengers, such as “during forwarding” and “detained” during non-business operation. Therefore, there was a problem of consuming unnecessary energy.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to obtain a vehicle equipment control device that reduces power consumption by performing control based on a vehicle operating state.

  The vehicle equipment control device according to the present invention is based on information acquisition means for acquiring at least one of the in-vehicle temperature, the in-vehicle humidity and the outside air temperature, and the commercial operation start time of the vehicle, and the information acquired by the information acquisition means. Control means for performing control for reducing power consumption of an air conditioner provided in the vehicle, and the control means is based on at least one of the in-vehicle temperature, the in-vehicle humidity, and the outside air temperature. The preliminary operation time is calculated and the air conditioner is started before the preliminary operation time before the commercial operation start time.

  According to the present invention, it is possible to obtain a vehicle device control apparatus capable of reducing power consumption by performing control based on the driving state of the vehicle in the vehicle device.

It is a figure which shows an example of a structure of the apparatus for vehicles and vehicle system in Embodiment 1 of this invention. It is an image figure of the vehicles 9 at the time of implementing control operation of the apparatus control apparatus for vehicles of Embodiment 1 in this invention. It is a flowchart which shows the control action of the apparatus control apparatus for vehicles in Embodiment 1 of this invention. It is a flowchart which shows the control action of the apparatus control apparatus for vehicles in Embodiment 2 of this invention. It is a flowchart which shows the control action of the apparatus control apparatus for vehicles in Embodiment 3 of this invention. It is a figure which shows an example of a structure of the apparatus for vehicles and vehicle system in Embodiment 4 of this invention. It is a flowchart which shows the control action of the apparatus control apparatus for vehicles in Embodiment 4 of this invention. It is an image figure of the vehicles 9 at the time of using the control action of the apparatus control apparatus for vehicles in Embodiment 5 of this invention. It is an image figure of the vehicles 9 at the time of using the control action of the apparatus control apparatus for vehicles in Embodiment 6 of this invention. It is an image figure of the vehicles 9 at the time of using the control action of the apparatus control apparatus for vehicles in Embodiment 7 of this invention. It is a flowchart which shows the control action of the apparatus control apparatus for vehicles before the commercial driving | operation start in Embodiment 8 of this invention. It is a flowchart which shows the control operation of the apparatus control apparatus for vehicles before the completion | finish of business operation in Embodiment 8 of this invention.

  Hereinafter, an example of a vehicle device control apparatus according to the present invention will be described in detail with reference to the drawings.

Embodiment 1 FIG.
FIG. 1 is a diagram showing an example of the configuration of a vehicle device and a vehicle system according to Embodiment 1 of the present invention.
In FIG. 1A, a vehicle 9, a vehicle 10, a vehicle 11, and a vehicle 12 are connected to form a train. Each vehicle is provided with an air conditioner 2 and an air conditioning control device 1 (corresponding to the vehicle device control device in the present invention). The driver's cab 3 is provided in the leading vehicle 11 and the vehicle 12. The cab 3 is provided with a vehicle information control device 4 and a cab air conditioning device 5. The number of the vehicle, the air conditioning control device 1, the cab 3, the vehicle information control device 4, and the cab air conditioner 5 may be at least one, and the air conditioner 2 is at least one for each vehicle. I just need it.

  FIG.1 (b) has shown the structure of the vehicle system in Embodiment 1 of this invention. The information acquisition means of the air conditioning control device 1 mounted on each vehicle is the vehicle interior temperature, the vehicle interior humidity, the outside air temperature, etc. detected by each air conditioner 2 or the temperature sensor and humidity sensor installed in the vehicle. Get information about. Further, the information acquisition means of the air conditioning control device 1 acquires the driving state, the occupancy rate, the date, the door opening / closing data of the vehicle, etc. from the vehicle information control device 4. And the control means of the air-conditioning control apparatus 1 controls the air conditioning apparatus 2 based on these data. In addition, about the air-conditioning control apparatus 1 and the vehicle information control apparatus 4, you may not be provided with said structure, You may provide the one control apparatus provided with the function of the air-conditioning control apparatus 1 and the vehicle information control apparatus 4. FIG.

  Here, the operating state includes, for example, commercial operation, detention, and forwarding (the detention and forwarding are included in the non-business operation in the present invention). During commercial operation, there are passengers in the vehicle. Further, during the detention, the worker is performing a cleaning operation or the like. In addition, during forwarding is a state in which the vehicle is being forwarded to a garage or the like, and there are no passengers and only crew members are in the cab 3. Note that names such as “business operation”, “detained”, and “forwarding” are not limited to these names, but may have any similar meaning.

  FIG. 2 is an image diagram of vehicles 9 to 12 when the control operation of the vehicle device control apparatus according to the first embodiment of the present invention is performed. FIG. 3 is a flowchart showing the control operation in Embodiment 1 of the present invention.

  In step S11 of FIG. 3, when an operation command is given to the air conditioning control device 1 by a crew member or the like, the control means of the air conditioning control device 1 starts air conditioning control in step S12. In step S <b> 13, the air conditioning control device 1 determines whether or not the operation state acquired from the vehicle information control device 4 is “in detention”.

If the operating state is not “in-dwelling”, the air conditioner 2 and the cab air conditioner 5 are operated in step S14 to perform normal operation. When the operating state is “in detention”, all of the air conditioner 2 and the cab air conditioner 5 are stopped in step S15. In the determination in step S13, “in transit” may be used instead of “in detention”.
Moreover, FIG. 2 has shown the image when the air conditioning apparatus 2 and the cab air conditioning apparatus 5 all stop in step S15.

  As described above, by performing the control shown in the first embodiment, the operation of the air conditioner can be stopped in a non-business operation time zone such as “during detention” or “during forwarding”. . Thereby, the apparatus control apparatus for vehicles which can reduce useless power consumption can be obtained.

Embodiment 2. FIG.
In order to obtain a vehicle equipment control device that has the effect of reducing wasteful power consumption as described above, the control operation of the air conditioner during non-business operation is set as described below in addition to stopping. There is also a way to change.
FIG. 4 is a flowchart showing a control operation of the vehicle equipment control device according to the second embodiment of the present invention. In addition, the structure of the apparatus for vehicles and the vehicle system in Embodiment 2 of this invention shall be the same as that of what was shown in FIG.
In step S21 of FIG. 4, when there is an operation command from the crew or the like to the air conditioning control device 1, the control means of the air conditioning control device 1 starts air conditioning control in step S22. In step S <b> 23, the air conditioning control device 1 determines whether or not the operation state acquired from the vehicle information control device 4 is “in detention”. If the operating state is not “in-dwelling”, the air conditioner 2 and the cab air conditioner 5 are operated in step S27 to perform normal operation.

  If the operation state is “dwelling”, in step S24, the control unit of the air conditioning control device 1 determines whether the operation state of the air conditioner 2 is “cooling operation” or “heating operation”. judge. If the operation state of the air conditioner 2 is “heating operation”, the control means lowers the set temperature of the air conditioner 2 and the cab air conditioner 5 in step S25. If the operation state of the air conditioner 2 is “cooling operation” in step S24, the control means increases the set temperatures of the air conditioner 2 and the cab air conditioner 5 in step S26. And after setting temperature is changed in step S25 or step S26, the air conditioning apparatus 2 operate | moves in step S27. In addition, although the example which changes setting temperature was demonstrated in step S25 and step S26, it should just be the change of the operation setting which can reduce power consumption, such as changing an air volume, for example. Further, in the determination in step S23, “in transit” may be used instead of “in detention”.

  As described above, by performing the control shown in the second embodiment, the operation setting of the air conditioner can be changed in a non-business operation time zone such as “in detention” or “forwarding”. it can. Thereby, the apparatus control apparatus for vehicles which can reduce useless power consumption can be obtained. Further, since the air conditioner is not stopped, when the operating state returns to the commercial operation, the switching to the normal operation can be performed quickly.

Embodiment 3 FIG.
In order to obtain the vehicle equipment control device that has the effect of reducing the wasteful power consumption as described above, as described below, in addition to changing the driving setting as the control operation during non-business operation, A method of providing it is also possible.
FIG. 5 is a flowchart showing the control operation of the vehicle device control apparatus according to Embodiment 3 of the present invention. In addition, the structure of the apparatus for vehicles and vehicle system in Embodiment 3 of this invention shall be the same as that of what was shown in FIG.
In step S31 of FIG. 5, when an operation command is given to the air conditioning control device 1 by a crew member or the like, the control means of the air conditioning control device 1 starts air conditioning control in step S32. In step S <b> 33, the air conditioning control device 1 determines whether or not the operation state acquired from the vehicle information control device 4 is “in detention”.

  If the operating state is not “in-dwelling”, the air conditioner 2 and the cab air conditioner 5 are operated in step S34 to perform normal operation. When the operation state is “in detention”, the control unit sets operation constraints on the outputs of the air conditioner 2 and the cab air conditioner 5 in step S35. This output operation restriction is, for example, setting an upper limit lower than that during commercial operation for at least one of the number of compressors (not shown) and the number of rotations of the air conditioner 2 and the cab air conditioner 5. . In addition, the operation restriction may be, for example, setting an upper limit lower than that during business operation for at least one of the number of operating air blowers (not shown) and the number of rotations of the air conditioner 2 and the cab air conditioner 5. In the determination in step S33, “in transit” may be used instead of “in detention”.

  As described above, by performing the control shown in the third embodiment, the air conditioner 2 and the cab air conditioner 5 are in a time zone during non-business operation such as “during detention” or “forwarding”. An upper limit lower than the upper limit during commercial operation can be set for the output of. Thereby, the apparatus control apparatus for vehicles which can reduce useless power consumption can be obtained, without the output of the air conditioning apparatus 2 and the cab air conditioning apparatus 5 increasing more than necessary.

Embodiment 4 FIG.
In order to obtain the vehicle equipment control device that can reduce the wasteful power consumption as described above, it is conceivable to change the control operation during the non-business operation of the service equipment in addition to the air conditioner.
FIG. 6 is a diagram illustrating an example of a configuration of a vehicle device and a vehicle system according to Embodiment 4 of the present invention. FIG. 7 is a flowchart showing the control operation of the vehicle equipment control apparatus according to Embodiment 4 of the present invention.

In FIG. 6A, the vehicle 9, the vehicle 10, the vehicle 11, and the vehicle 12 are connected to form a train. Each vehicle is provided with a service device control device 13 (corresponding to the vehicle device control device in the present invention) and a display 14 (corresponding to the service device in the present invention).
FIG. 6B shows the configuration of the vehicle system in Embodiment 4 of the present invention. The information acquisition unit of the service device control device 13 acquires the driving state, the boarding rate, the date, the door opening / closing data of the vehicle, and the like from the vehicle information control device 4. Further, the control means of the service device control device 13 controls the display 14.

  Here, in addition to the display device 14, the service device may be, for example, in-vehicle lighting and a monitoring camera. In FIG. 6A, the configuration other than the service device control device 13 and the display 14 is the same as that in FIG. And the air-conditioning control apparatus 1 and the air conditioning apparatus 2 in FIG. 1 may be provided in each vehicle, and the control in any one of Embodiment 1- Embodiment 3 may be performed. In this case, the air conditioning control device 1, the service device control device 13, and the vehicle information control device 4 may not be separate control devices. One or two control devices may be used as long as the functions of the air conditioning control device 1, the service device control device 13, and the vehicle information control device 4 are provided.

  In step S41 of FIG. 7, when an operation command is given to the service equipment control device 13 by a crew member or the like, the control means of the service equipment control device 13 starts control of the display device 14 in step S42. In step S <b> 43, the service device control device 13 determines whether the driving state acquired from the vehicle information control device 4 is “in detention”.

  If the operating state is not “detained”, the service device is operated in step S44 to perform normal operation. When the operation state is “in detention”, the control unit stops all the service devices in step S45. In the determination in step S43, “in transit” may be used instead of “in detention”.

  As described above, by performing the control shown in the fourth embodiment, the service device can be stopped in a non-business operation time zone such as “in detention” or “forwarding”. Thereby, the apparatus control apparatus for vehicles which can reduce useless power consumption can be obtained. Further, the power consumption can be further reduced by combining with the control of any one of the first to third embodiments.

Embodiment 5 FIG.
In the first to fourth embodiments, the vehicle device control device that reduces power consumption for a vehicle during non-business operation has been described. However, there may be a person in the vehicle even during non-business operation. . Therefore, a method for performing the above control only on a vehicle in which no person is present will be described.
FIG. 8 is an image diagram of vehicles 9 to 12 when the control operation of the vehicle device control apparatus according to the fifth embodiment is used.
The driving state of the vehicles 9 to 12 in FIG. 8 is “in detention”. An operator 6 is on the vehicle 10. In this case, the control means performs the normal operation of the air conditioner 2 and the service device of the vehicle 10, and performs any of the controls of the first to fourth embodiments for the vehicles 9, 11, and 12.

  For example, in the state of FIG. 8 of the fifth embodiment, when the control operation in the first embodiment is used, the air conditioner 2 and the cab air conditioner 5 of the vehicles 9, 11 and 12 are all stopped. However, when the air conditioner 2 of the vehicle 10 on which the worker 6 is on is stopped, there is a problem that the comfort of the worker 6 is impaired. Therefore, in Embodiment 5, only the air conditioner 2 of the vehicle 10 on which the worker 6 is riding is normally operated, and the other air conditioners 2 and the cab air conditioner 5 are all stopped.

  Here, a method for identifying the vehicle on which the worker 6 is present will be described. For example, when the worker 6 presses the switch 7 indicating “working” attached to the vehicle, information on the vehicle on which the worker 6 is working is sent to the vehicle information control device 4. And the air-conditioning control apparatus 1 acquires the information of the vehicle from the vehicle information control apparatus 4, and performs a normal driving | operation only for the vehicle with the operator 6. FIG.

  As described above, by performing the control shown in the first to fourth embodiments on vehicles other than the vehicle on which the worker 6 is present, the power consumption can be reduced without impairing the comfort of the worker 6. A vehicle equipment control device can be obtained.

Embodiment 6 FIG.
In the fifth embodiment, the method is described in which the worker 6 presses the switch 7 indicating “working” attached to the vehicle to identify the vehicle in which the worker 6 is present. A method for automatically identifying the vehicle on which the worker 6 is present without depending on the operator's switch operation will be described.
FIG. 9 is an image diagram of vehicles 9 to 12 when the control operation of the vehicle device control apparatus according to the sixth embodiment is used.
The driving state of the vehicles 9 to 12 in FIG. 9 is “in detention”. Then, information on “boarding rate” is calculated in the vehicle information control device 4. Here, the “boarding rate” is a value calculated by measuring the weight in the vehicle. And the information acquisition means of the air-conditioning control apparatus 1 acquires information on “boarding rate”. And the control means of the air-conditioning control apparatus 1 performs any of the controls of the first to fourth embodiments in a vehicle in which the value of the “boarding rate” is not more than a predetermined value, for example.

  For example, in the state of FIG. 9 of the sixth embodiment, when the control operation in the first embodiment is used, the air conditioner 2 and the cab air conditioner 5 of the vehicles 9, 11 and 12 are all stopped. However, when the air conditioner 2 of the vehicle 10 on which the worker 6 is on is stopped, there is a problem that the comfort of the worker 6 is impaired. Therefore, the vehicle 10 in which the worker 6 is on and the “boarding rate” is larger than a predetermined value automatically causes the air conditioner 2 to automatically operate normally without the operator 6 performing a switch operation.

  As described above, by performing the control in the first to fourth embodiments on a vehicle other than the vehicle on which the worker 6 is present, the vehicle on which the worker 6 is present automatically becomes a normal operation. A vehicular equipment control device that can reduce power consumption without impairing the comfort of the worker 6 can be obtained.

Embodiment 7 FIG.
The control operation in the case of “detained” has been described above. As an operating state during non-business operation, there is an operating state of “forwarding” in which only a crew member is on board.
FIG. 10 is an image diagram of vehicles 9 to 12 when the control operation in the seventh embodiment is used.
The driving state of the vehicles 9 to 12 in FIG. 10 is “in transit”. The crew member 8 is on the vehicle 12. In this case, the control means of the air-conditioning control apparatus 1 performs normal operation only on the cab air conditioner 5 of the vehicle 12, and the vehicles 9, 10, 11 and 12 have the controls of the first to fourth embodiments. Do one of the following.

  For example, in the state of FIG. 10 of the seventh embodiment, when the control operation in the first embodiment is used, the air conditioner 2 of the vehicles 9, 10, 11 and 12 and the cab air conditioner 5 of the vehicle 11 are , Stop everything. However, if the cab air conditioner 5 of the vehicle 12 on which the crew member 8 is on is stopped, there is a problem that the comfort of the crew member 8 is impaired. Therefore, only the cab air conditioner 5 of the vehicle 12 on which the crew member 8 is on is normally operated.

  As described above, when the driving state is “during forwarding”, the control described in the first to fourth embodiments is performed on devices other than the cab where the crew is present. Thereby, the apparatus control apparatus for vehicles which can reduce power consumption, without impairing a passenger | crew's comfort can be obtained.

Embodiment 8 FIG.
In the above, the vehicle apparatus control apparatus which reduces power consumption during non-business operation, such as "during detention" or "during forwarding", has been described. However, in addition to the above description, there is a method for reducing power consumption using information on the operation state.
FIG. 11 is a flowchart showing the control operation before the start of the commercial operation in the eighth embodiment of the present invention. The configuration of the vehicular equipment control apparatus according to the eighth embodiment of the present invention is the same as that shown in FIG.
The vehicle information control device 4 acquires a commercial operation start time from a memory card or wirelessly from a ground facility. And in step S51, the information acquisition means of the air-conditioning control apparatus 1 of each vehicle acquires the information. And the control means of the air-conditioning control device 1 is based on the current in-vehicle temperature, in-vehicle humidity, outside air temperature, etc. The preliminary operation time when the in-vehicle temperature and in-vehicle humidity become the set temperature and humidity at the start of business operation T1 is calculated in advance.

  Here, in the calculation of the preliminary operation time T1, not only the in-vehicle temperature, the in-vehicle humidity, the outside air temperature, and the like, but also the planned boarding rate of the vehicle at the station where the vehicle starts business may be used. For example, when the planned boarding rate is small, the set temperature and set humidity during the preliminary operation time T1 are increased in the cooling operation.

  In step S52, the control means of the air conditioning control device 1 starts air conditioning control. In step S53, when it is T1 hours before the business start time, in step S54, the air conditioner 2 and the cab air conditioner 5 of each vehicle are operated, and the preliminary air conditioning operation is started.

  Here, since the current in-vehicle temperature, in-vehicle humidity, outside air temperature, scheduled boarding rate, and the like are used for the calculation of T1, the optimal preliminary air conditioning operation time can be calculated based on the situation of the day. Therefore, useless power consumption can be reduced.

FIG. 12 is a flowchart showing the control operation of the vehicle equipment control device before the end of the commercial operation in the eighth embodiment of the present invention.
The vehicle information control device 4 acquires the commercial operation end time from the memory card or wirelessly from the ground facility. In step S61, the information acquisition means of the air conditioning control device 1 of each vehicle acquires the information. And the control means of the air-conditioning control apparatus 1 is based on the current in-vehicle temperature, in-vehicle humidity, outside air temperature, etc., the output suppression which can maintain the temperature and humidity which the in-vehicle temperature and the in-vehicle humidity set at the time of business operation end Time T2 is calculated in advance.

  Here, in the calculation of the output suppression time T2, not only the in-vehicle temperature, the in-vehicle humidity, the outside air temperature, etc., but also the planned boarding rate of the vehicle at the station where the vehicle is closed may be used. For example, when the planned boarding rate is small, the set temperature and the set humidity are increased from T2 hours before the business end time in the cooling operation.

  In step S62, the control unit of the air conditioning control device 1 starts air conditioning control. In step S63, when it is T2 hours before the business end time, the operation of the air conditioner 2 and the cab air conditioner 5 of each vehicle is suppressed in step S64. The suppression of the operation is to lower the set temperature during the heating operation and raise the set temperature during the cooling operation, for example, as shown in the second embodiment. In addition, for example, as shown in the third embodiment, an upper limit is provided for at least one of the number of operating compressors and the number of rotations of the compressor, or at least one of the number of operating fans and the number of rotations of the blower.

  Since the current vehicle interior temperature, vehicle interior humidity, outside air temperature, scheduled boarding rate, and the like are used for calculating the output suppression time T2, the optimal output suppression time T2 can be calculated based on the situation of the day. Therefore, useless power consumption can be reduced.

  DESCRIPTION OF SYMBOLS 1 Air-conditioning control apparatus, 2 Air conditioner, 3 Driver's room, 4 Vehicle information control apparatus, 5 Driver's room air conditioner, 6 Operator, 7 Switch, 8 Crew, 9, 10, 11, 12 Vehicle, 13 Service equipment control Device, 14 indicator.

Claims (7)

Information acquisition means for acquiring at least one of the in-vehicle temperature, the in-vehicle humidity, and the outside air temperature, and the commercial operation start time of the vehicle;
Control means for performing control to reduce power consumption of an air conditioner provided in the vehicle based on information acquired by the information acquisition means;
With
The control means includes
A preliminary operation time is calculated based on at least one of the in-vehicle temperature, the in-vehicle humidity and the outside air temperature;
The apparatus control apparatus for vehicles characterized by starting the said air conditioning apparatus before the said preliminary operation time rather than the said business operation start time. The information acquisition means includes
Obtain the planned occupancy rate of the vehicle at the station where the vehicle starts operating,
The control means includes
Preliminary operation time is calculated based on at least one of the in-vehicle temperature, the in-vehicle humidity and the outside air temperature, and the planned boarding rate,
The vehicle equipment control device according to claim 1, wherein the air conditioner is activated before the preliminary operation time before the commercial operation start time. Information acquisition means for acquiring at least one of an in-vehicle temperature, an in-vehicle humidity, and an outside air temperature, and a commercial operation end time of the vehicle;
Control means for performing control to reduce power consumption of an air conditioner provided in the vehicle based on information acquired by the information acquisition means;
With
The control means includes
Based on at least one of the in-vehicle temperature, the in-vehicle humidity and the outside air temperature, and the business operation end time, calculate the output suppression time,
The vehicle equipment control device that suppresses the operation output of the air conditioner before the output suppression time before the commercial operation end time. The information acquisition means includes
Obtaining the vehicle occupancy rate or the planned occupancy rate at the station where the vehicle will be closed;
The control means includes
Calculating the output suppression time based on at least one of the in-vehicle temperature, the in-vehicle humidity and the outside air temperature, the business operation end time, and the boarding rate or the planned boarding rate,
The vehicle equipment control device according to claim 3, wherein the operation of the air conditioner is suppressed before the output suppression time before the commercial operation end time. The control means includes
The vehicle equipment control device according to claim 3 or 4, wherein the air conditioner is stopped before the output suppression time from the commercial operation end time. The control means includes
When the air conditioner is in a heating operation state and the operation state is a non-business operation, the set temperature of the at least one air conditioner is lowered before the output suppression time from the business operation end time,
When the air conditioner is in a cooling operation state and the operation state is a non-business operation, the set temperature of at least one of the air conditioners is increased before the output suppression time from the business operation end time. The apparatus control apparatus for vehicles of Claim 3 or Claim 4 characterized by these. The control means includes
5. The vehicular apparatus control device according to claim 3, wherein an upper limit lower than an upper limit during the commercial operation is provided for the output of the air conditioner before the output suppression time before the commercial operation end time. .

Images