WO2020031575A1 - 自動車用空調制御システム、自動車用空調システム、制御装置 - Google Patents

自動車用空調制御システム、自動車用空調システム、制御装置 Download PDF

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Publication number
WO2020031575A1
WO2020031575A1 PCT/JP2019/026694 JP2019026694W WO2020031575A1 WO 2020031575 A1 WO2020031575 A1 WO 2020031575A1 JP 2019026694 W JP2019026694 W JP 2019026694W WO 2020031575 A1 WO2020031575 A1 WO 2020031575A1
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WO
WIPO (PCT)
Prior art keywords
plate
air
outlet
state
shaped member
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/JP2019/026694
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
真梨恵 長濱
康彦 新美
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Denso Corp
Original Assignee
Denso Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Denso Corp filed Critical Denso Corp
Publication of WO2020031575A1 publication Critical patent/WO2020031575A1/ja
Priority to US17/146,970 priority Critical patent/US11535082B2/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60HARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
    • B60H1/00Heating, cooling or ventilating devices
    • B60H1/00271HVAC devices specially adapted for particular vehicle parts or components and being connected to the vehicle HVAC unit
    • B60H1/00285HVAC devices specially adapted for particular vehicle parts or components and being connected to the vehicle HVAC unit for vehicle seats
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60HARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
    • B60H1/00Heating, cooling or ventilating devices
    • B60H1/00642Control systems or circuits; Control members or indication devices for heating, cooling or ventilating devices
    • B60H1/00735Control systems or circuits characterised by their input, i.e. by the detection, measurement or calculation of particular conditions, e.g. signal treatment, dynamic models
    • B60H1/00742Control systems or circuits characterised by their input, i.e. by the detection, measurement or calculation of particular conditions, e.g. signal treatment, dynamic models by detection of the vehicle occupants' presence; by detection of conditions relating to the body of occupants, e.g. using radiant heat detectors
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60HARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
    • B60H1/00Heating, cooling or ventilating devices
    • B60H1/00642Control systems or circuits; Control members or indication devices for heating, cooling or ventilating devices
    • B60H1/00735Control systems or circuits characterised by their input, i.e. by the detection, measurement or calculation of particular conditions, e.g. signal treatment, dynamic models
    • B60H1/00792Arrangement of detectors
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60HARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
    • B60H1/00Heating, cooling or ventilating devices
    • B60H1/00642Control systems or circuits; Control members or indication devices for heating, cooling or ventilating devices
    • B60H1/00814Control systems or circuits characterised by their output, for controlling particular components of the heating, cooling or ventilating installation
    • B60H1/00821Control systems or circuits characterised by their output, for controlling particular components of the heating, cooling or ventilating installation the components being ventilating, air admitting or air distributing devices
    • B60H1/00871Air directing means, e.g. blades in an air outlet
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60NSEATS SPECIALLY ADAPTED FOR VEHICLES; VEHICLE PASSENGER ACCOMMODATION NOT OTHERWISE PROVIDED FOR
    • B60N2/00Seats specially adapted for vehicles; Arrangement or mounting of seats in vehicles
    • B60N2/90Details or parts not otherwise provided for
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60HARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
    • B60H1/00Heating, cooling or ventilating devices
    • B60H1/00271HVAC devices specially adapted for particular vehicle parts or components and being connected to the vehicle HVAC unit
    • B60H2001/003Component temperature regulation using an air flow
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60HARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
    • B60H1/00Heating, cooling or ventilating devices
    • B60H1/32Cooling devices
    • B60H2001/3236Cooling devices information from a variable is obtained

Definitions

  • the present disclosure relates to a vehicle air conditioning control system, a vehicle air conditioning system, and a control device.
  • Patent Literature 1 discloses that a direction of an air outlet of an air blower provided in a rearview mirror of an automobile is changed according to an angle of a seatback detected by a position sensor, so that a predetermined occupant of the occupant is independent of the angle of the seatback. What blows wind to a part is described.
  • the device of Patent Document 1 when considering blowing the wind to the occupant's chest regardless of the angle of the seat back, the device of Patent Document 1 has a state in which the seat back falls down rearward because the position of the air outlet is high near the ceiling (Hereinafter referred to as "rearward state"), it is easy to blow the wind to the occupant's chest.
  • the device of Patent Literature 1 has a problem that a duct must be taken from an air conditioner arranged inside the instrument panel to a ceiling, or a blower must be installed separately from a blower included in the air conditioner. There is.
  • the above-mentioned problem does not occur because the face outlet is provided in the instrument panel.
  • the outlet position is lower than that of the device of Patent Document 1, when the seat back is in the backward state, the face outlet is used.
  • the blown wind flows along the occupant's body. Therefore, the wind blown out toward the occupant's chest passes through the chest and flows to the face, which causes the occupant to feel annoyed.
  • the present disclosure suppresses the wind blown from the instrument panel outlet from hitting the occupant's face when the seat back is tilted rearward, and enables air conditioning control for a vehicle capable of blowing wind to a specific part of the occupant. It is an object to provide a system, a vehicle air conditioning system, and a control device.
  • a seat placed in the passenger compartment An air conditioner that generates an air conditioning wind;
  • An air outlet provided in the instrument panel to blow out conditioned air generated by the air conditioner into the vehicle interior;
  • a wind direction variable mechanism for vertically changing the direction of the conditioned air blown out from the outlet An outlet drive unit that drives a variable wind direction mechanism;
  • Used in automobiles having a seatback state detection unit that detects the state of the seatback of the seat,
  • a control device that controls the outlet drive unit based on a detection result of the seat back state detection unit,
  • a plate-shaped member driving unit for driving the plate-shaped member is provided,
  • the control device is When the seatback state detection unit detects the backward state of the seatback,
  • the air outlet drive unit is controlled so that the conditioned air blown out
  • the control device controls the outlet driving section, and the wind direction variable mechanism is brought to a predetermined position, and the plate-shaped member driving section is driven.
  • the portion is controlled so that the plate member is at a predetermined position. For this reason, the conditioned air blown out from the instrument panel outlet collides with the plate surface of the plate-shaped member, changes the direction of the wind along the plate surface of the plate-shaped member, and falls on the seat in which the seat back is in a backward state.
  • a specific part of the occupant eg, the chest or neck.
  • the vehicle air conditioning control system can enhance the comfort of the occupant by applying the conditioned air blown from the outlet of the instrument panel to a specific part of the occupant when the occupant is in the backward posture. At the same time, this automotive air-conditioning control system prevents the occupant from feeling annoying by suppressing the conditioned air blown out from the instrument panel outlet along the occupant's body and reaching the face. Can be.
  • the predetermined position of the variable air direction mechanism is a position of the variable air direction mechanism set so that the conditioned air blown out from the outlet guided by the variable air direction mechanism collides with the plate surface of the plate-shaped member.
  • the predetermined position of the plate-shaped member means that the conditioned air guided by the plate surface of the plate-shaped member protruding into the passenger compartment reaches a specific portion of the occupant on the seat in the backward state. The position of the plate member set as described above. In the following description, one viewpoint of the present disclosure is referred to as viewpoint 1 of the present disclosure.
  • a seat placed in the passenger compartment An air conditioner that generates an air conditioning wind;
  • An air outlet provided in the instrument panel to blow out conditioned air generated by the air conditioner into the vehicle interior;
  • a wind direction variable mechanism for vertically changing the direction of the conditioned air blown out from the outlet A plate-shaped member disposed on the ceiling of the passenger compartment, the plate surface of which is variable between a normal state along the ceiling of the passenger compartment and a protruding state protruding into the passenger compartment, Used in automobiles having a seatback state detection unit that detects the state of the seatback of the seat,
  • One of the wind direction variable mechanism and the plate-shaped member is configured to be driven by an actuator, and the other is configured to be manually driven by an occupant, The other is configured so that the occupant can determine that the other has reached a predetermined position by visual, auditory, or tactile sensation,
  • a control device that controls the actuator based on the detection result of the seat back state detection unit, The control device is When the seat
  • viewpoint 2 of the present disclosure can also achieve the same operation and effect as viewpoint 1 of the present disclosure.
  • the configuration can be simplified as compared with viewpoint 1 of the present disclosure by eliminating the actuator that drives the other of the variable wind direction mechanism and the plate-shaped member.
  • a seat placed in the passenger compartment An air conditioner that generates an air conditioning wind;
  • An air outlet provided in the instrument panel to blow out conditioned air generated by the air conditioner into the vehicle interior;
  • a wind direction variable mechanism for vertically changing the direction of the conditioned air blown out from the outlet A plate-shaped member arranged on the vehicle interior ceiling, the plate surface of which is variable between a normal state along the vehicle interior ceiling and a projected state protruding into the vehicle interior,
  • the wind direction variable mechanism and the plate-shaped member are configured such that the occupant can visually or audibly determine that the wind direction variable mechanism and the plate-shaped member have reached their respective predetermined positions, either by tactile sensation,
  • the seat back of the seat is in a backward position,
  • When the wind direction variable mechanism and the plate member are at their respective predetermined positions The conditioned air blown out from the outlet collides with the plate surface of the plate-shaped member, and the conditioned air after the collision reaches a specific part of the occupant on the seat in
  • viewpoint 3 of the present disclosure can also achieve the same operation and effect as viewpoint 1 of the present disclosure and viewpoint 2 of the present disclosure.
  • the viewpoint 3 of the present disclosure can simplify the configuration compared to the viewpoint 1 of the present disclosure and the viewpoint 2 of the present disclosure by eliminating the variable wind direction mechanism and the actuator that drives the plate-shaped member.
  • a control device used for air conditioning of an automobile A seat placed in the passenger compartment, An air conditioner that generates an air conditioning wind; An air outlet provided in the instrument panel to blow out conditioned air generated by the air conditioner into the vehicle interior; A wind direction variable mechanism for vertically changing the direction of the conditioned air blown out from the outlet, An outlet drive unit that drives a variable wind direction mechanism; A seat back state detection unit that detects a state of a seat back of the seat, A plate-shaped member arranged on the ceiling of the passenger compartment, the plate surface of which is variable between a normal state along the ceiling of the passenger compartment and a protruding state protruding into the passenger compartment, Used in an automobile having a plate-shaped member drive unit that drives the plate-shaped member, When the seat back state detection unit detects the backward state of the seat back, The air outlet drive unit is controlled so that the conditioned air blown out from the outlet collides with the plate surface of the plate-shaped member, and the wind direction variable mechanism is set to
  • the viewpoint 4 of the present disclosure can achieve the same operation and effect as the viewpoint 1 of the present disclosure.
  • FIG. 2 is a schematic diagram of a vehicle using the vehicle air-conditioning control system according to the first embodiment when a seat back is in an upright state.
  • FIG. 2 is a schematic diagram of a vehicle in which the vehicle air-conditioning control system according to the first embodiment is used, when a seat back is in a backward position.
  • 4 is a flowchart of a control process executed by a control device included in the vehicle air conditioning control system according to the first embodiment. It is a schematic diagram of an automobile in which the automotive air-conditioning control system according to the second embodiment is used. It is a schematic diagram of an automobile in which the automotive air-conditioning control system according to the second embodiment is used.
  • the vehicle air-conditioning control system is a system that is used in the vehicle 1 on which an occupant rides, and that controls the components of the vehicle 1 with the control device 90.
  • the vehicle 1 in which the vehicle air-conditioning control system of the present embodiment is used includes, in addition to a vehicle in which an occupant 2 performs a driving operation, an automatic driving system in which all driving operations such as acceleration, steering, braking, and surrounding monitoring are performed. Includes driving car.
  • an occupant can ride in a state in which the seat back is tilted backward while the vehicle is running (hereinafter, referred to as a "rearward state").
  • the vehicle 1 in which the vehicle air-conditioning control system is used will be described.
  • the automobile 1 includes a seat 10, a seatback state detecting unit 20, an air conditioner 30, a face outlet 40 as an outlet, a wind direction variable mechanism 50, and a first driver as an outlet driver. It has an actuator 60, a plate-shaped member 70, a second actuator 80 as a plate-shaped member driving section, and the like.
  • the seat 10 is arranged in the vehicle interior.
  • the seat 10 has a seat cushion 11 that supports the buttocks of the occupant 2, a seat back 12 that supports the back of the occupant 2, and the like.
  • the seat back 12 is provided so that the angle with respect to the seat cushion 11 can be changed. Further, the seat 10 is provided so as to be movable in the vehicle front-rear direction with respect to the vehicle cabin floor.
  • the state of the seat back 12 of the seat 10 is detected by the seat back state detecting unit 20.
  • the seatback state detection unit 20 includes, for example, an angle sensor that detects an angle of the seatback 12 with respect to the seat cushion 11, an in-vehicle camera that images the seat 10 or the occupant 2 on the seat 10, or a rotation of a motor that moves the seatback 12. It is composed of a rotation angle sensor for detecting an angle and the like.
  • Information detected by the seat back state detection unit 20 is transmitted to the control device 90.
  • the sleep switch may be used as the seat back state detection unit 20. In that case, information on whether or not the sleep switch has been turned on is transmitted to the control device 90.
  • the control device 90 determines whether the seat back 12 is in the upright state or the backward state based on the information transmitted from the seat back state detecting unit 20.
  • the position of the seat cushion 11 in the vehicle front-rear direction is detected by the seat front-rear position detecting unit 21.
  • the seat front / rear position detecting unit 21 is, for example, a position sensor for detecting the position of the seat cushion 11, an in-vehicle camera for imaging the seat 10 or the occupant 2 on the seat 10, or a rotation of a motor for moving the seat cushion 11 in the vehicle front / back direction. It is composed of a rotation angle sensor for detecting an angle and the like. Information detected by the seat front / rear position detecting unit 21 is transmitted to the control device 90.
  • the air conditioner 30 is arranged inside the instrument panel 3.
  • the air conditioner 30 has a blower, a cooler, a heater, and the like disposed inside an air conditioning case, and takes in outside air and vehicle interior air into the inside of the air conditioning case to generate conditioned air whose temperature and humidity are adjusted. It is.
  • the conditioned air generated by the air conditioner 30 is blown through a duct 31 from a face outlet 40 provided in the instrument panel 3 into the vehicle interior.
  • the face outlet 40 is configured to blow the conditioned air mainly toward the upper body of the occupant 2 and the periphery thereof.
  • the vehicle 1 is provided with a defroster outlet, a foot outlet, and the like in addition to the face outlet 40 as outlets for blowing out the conditioned air generated by the air conditioner 30.
  • the face outlet 40 provided in the instrument panel 3 is provided with a wind direction variable mechanism 50 for changing the direction of the conditioned air blown out from the face outlet 40.
  • the wind direction variable mechanism 50 of the present embodiment is a guide fin 51 for adjusting the wind direction inside the face outlet 40.
  • the guide fins 51 can change the direction of the conditioned air blown out from the face outlet 40 in the vertical direction.
  • the guide fins 51 may change the direction of the conditioned air blown out from the face outlet 40 in the left-right direction.
  • the guide fins 51 of the present embodiment are configured such that the direction of the conditioned air blown out from the face outlet 40 can be blown not only to the upper body of the occupant 2 and its surroundings but also to the plate member 70. Have been.
  • the guide fin 51 is driven by a first actuator 60 as an outlet drive unit.
  • the operation of the first actuator 60 is controlled by the control device 90.
  • the first actuator 60 of the guide fin 51 can adjust and hold the guide fin 51 at an arbitrary position or angle.
  • a plate member 70 is disposed on the ceiling 4 of the cabin of the automobile 1.
  • the plate-like member 70 is configured by a sun visor for blocking sunlight shining from the window glass into the vehicle compartment.
  • the plate-shaped member 70 is disposed rearward of the face outlet 40 and forward of the head of the occupant 2 on the seat 10 in the vehicle front-rear direction.
  • the plate member 70 is configured so that its plate surface 71 can be changed between a normal state along the cabin ceiling 4 and a protruding state protruding into the cabin.
  • FIG. 1 shows a normal state of the plate member 70
  • FIG. 2 shows a protruding state of the plate member 70.
  • the guide fins 51 provided in the face outlet 40 can blow the conditioned air blown out from the face outlet 40 toward the plate member 70.
  • the plate-shaped member 70 can be said to be a guide member for guiding the conditioned air that has collided with the plate surface 71 in order to change the direction of the conditioned air blown out from the face outlet 40.
  • the plate-like member 70 is constituted by a sun visor, but is not limited to this.
  • the plate-shaped member 70 may be configured by a dedicated guide member for changing the direction of the conditioned air instead of or together with the sun visor.
  • the plate member 70 is driven by a second actuator 80 as a plate member driving unit.
  • the operation of the second actuator 80 is controlled by the control device 90.
  • the second actuator 80 of the plate member 70 can adjust and hold the plate member 70 at an arbitrary position or angle.
  • the control device 90 includes a well-known microcomputer including a CPU, a ROM, a RAM, and the like, and its peripheral circuits.
  • the storage unit of the control device 90 is configured by a non-transitional and substantial storage medium. Information detected by the seat back state detection unit 20, the seat front / back position detection unit 21, and the like is input to the control device 90 of the present embodiment.
  • the control device 90 performs various calculations and processes based on a control program stored in a ROM or the like, and controls the first actuator 60 of the guide fin 51 connected to the output side, the second actuator 80 of the plate-shaped member 70, and air conditioning. The drive of the blower of the device 30 is controlled.
  • the control device 90 may be configured integrally with the control device 90 of the air conditioner 30 or may be configured as a separate member.
  • control process executed by the control device 90 of the vehicle air-conditioning control system of the present embodiment will be described with reference to the flowchart of FIG.
  • This control process is started when the ignition key of the automobile 1 is turned on.
  • the operation is started when the traveling switch is turned on.
  • step S10 the control device 90 determines whether the seatback 12 is in the upright state or the backward state based on the information transmitted from the seatback state detection unit 20. Specifically, when the seat back state detection unit 20 is the above-described angle sensor or rotation angle sensor, the control device 90 transmits information on the inclination angle of the seat back 12 transmitted from those sensors and the control device 90 in advance. Compare with the stored threshold. Then, the control device 90 determines the up / down state of the seat back 12 based on the comparison result. When the seatback state detection unit 20 is an in-vehicle camera, the control device 90 analyzes an image captured by the in-vehicle camera, and determines whether the seatback 12 is standing or falling.
  • the control device 90 determines whether the seatback 12 is in the upright / rearward state based on whether the sleep switch is turned on.
  • control device 90 determines that seat back 12 is in the upright state (ie, determination of seat backward in step S10: NO)
  • the process proceeds to step S20.
  • step S20 the control device 90 controls the first actuator of the guide fins 51 so that the conditioned air blown out from the face blowout port 40 is blown out toward the upper body of the occupant 2 and its surroundings as shown in FIG. 60 is controlled.
  • the position of the guide fins 51 can be arbitrarily changed by the operation of the occupant 2.
  • step S20 the control device 90 controls the second actuator 80 of the plate-shaped member 70 so that the plate surface 71 of the plate-shaped member 70 is in a normal state along the vehicle interior ceiling 4.
  • the position of the plate member 70 can be arbitrarily changed by the operation of the occupant 2. Therefore, when the seat back 12 is in the upright state, the occupant 2 can block the sunlight by using the plate-shaped member 70.
  • control device 90 sets the amount of conditioned air blown out from face outlet 40 based on the set temperature, vehicle interior temperature, solar radiation, and the like.
  • the air volume set when the seat back 12 is in the upright state will be referred to as a normal air volume.
  • the airflow of the conditioned air can be arbitrarily changed by the operation of the occupant 2.
  • control device 90 shifts the processing to step S30.
  • step S30 the control device 90 controls the first actuator 60 of the guide fin 51 so that the guide fin 51 is at a predetermined position as shown in FIG.
  • the predetermined position of the guide fin 51 is a position set so that the conditioned air blown from the face outlet 40 while being guided by the guide fin 51 collides with the plate surface 71 of the plate member 70. Therefore, the control device 90 controls the first actuator 60 of the guide fin 51 so that the conditioned air blown from the face outlet 40 collides with the plate surface 71 of the plate member 70.
  • step S30 the control device 90 controls the second actuator 80 of the plate-shaped member 70 so that the plate surface 71 of the plate-shaped member 70 projects into the vehicle compartment. Specifically, the control device 90 controls the second actuator 80 of the plate-shaped member 70 so that the plate-shaped member 70 is at a predetermined position.
  • the predetermined position of the plate member 70 is a position set so that the conditioned air guided by the plate surface 71 of the plate member 70 reaches a specific portion of the occupant 2 on the seat 10 in the backward state. .
  • the predetermined position of the plate member 70 may be a position stored in the control device 90 in advance.
  • the control device 90 may control the plate-shaped member 70 based on the information transmitted from the seat back state detecting unit 20 and the seat front / back position detecting unit 21 so that the conditioned air on the occupant on the seat 10 is blown. May be set to an appropriate position.
  • the position of the plate member 70 can be arbitrarily changed by the operation of the occupant 2. Thereby, the occupant 2 can set the specific portion to which the conditioned air reaches at a desired position.
  • step S30 the control device 90 controls the air conditioner 30 so that the airflow of the conditioned air blown out from the face outlet 40 is increased (for example, increased by 20%) from the above-described normal airflow.
  • the amount by which the control device 90 increases the air volume is set in advance by an experiment or the like, and is stored in the storage unit of the control device 90. Accordingly, even when the conditioned air is delivered from the face outlet 40 to the occupant 2 via the plate-shaped member 70, the conditioned air having a flow rate close to that when the seat back 12 is in the upright state can be delivered.
  • the automotive air-conditioning control system of the present embodiment has the following operational effects. That is, in the automotive air conditioning control system, when the control device 90 detects the backward state of the seat back 12, the control device 90 controls the first actuator 60 to set the guide fins 51 to the predetermined position, and controls the second actuator 80 to control the plate.
  • the shape member 70 is set at a predetermined position. Thereby, the conditioned air blown out from the face outlet 40 of the instrument panel 3 collides with the plate surface 71 of the plate member 70, then changes the wind direction along the plate surface 71 of the plate member 70, and the seat back 12 is moved. The vehicle reaches the specific part of the occupant 2 on the seat 10 in the backward state.
  • the vehicle air conditioning control system when the occupant 2 is in both the standing posture and the backward posture, the conditioned air blown out from the face outlet 40 of the instrument panel 3 is applied to the same specific part of the occupant 2, The comfort of the occupant 2 can be enhanced. At the same time, this automotive air conditioning system suppresses the conditioned air blown out from the face outlet 40 of the instrument panel 3 from flowing along the body of the occupant 2 and reaching the face, so that the occupant 2 feels troublesome. Can be prevented.
  • the present embodiment is not limited to the disclosure of the control as the vehicle air conditioning control system described above, but can be understood as the disclosure of the control device 90 that executes the control.
  • This control device 90 also has the same operation and effect as the disclosure of the above-described automotive air conditioning control system.
  • the present embodiment is not limited to the disclosure of the control as the vehicle air conditioning control system described above, but can be considered as the disclosure as the vehicle air conditioning system.
  • the automotive air conditioning system includes a seat 10, a seat back state detection unit 20, an air conditioner 30, a face outlet 40, a wind direction variable mechanism 50, an outlet drive unit, a plate member 70, a plate member drive unit, and a control device 90. Is provided.
  • the disclosure of the automotive air conditioning system also has the same function and effect as the disclosure of the automotive air conditioning control system described above.
  • the plate-shaped member 70 is configured to be manually operated by the occupant 2.
  • the guide fins 51 as the wind direction variable mechanism 50 are configured to be driven by the first actuator 60 as in the first embodiment.
  • the occupant 2 can determine that the plate-shaped member 70 has reached the predetermined position by visual, auditory, or tactile sensation.
  • the plate-shaped member 70 may be arranged in the field of view of the occupant 2.
  • a concave portion is provided in one of a movable portion of the plate-shaped member 70 and a portion holding the movable portion, and the other is provided.
  • a convex portion is provided.
  • the plate-shaped member 70 comes to a predetermined position, if the concave portion and the convex portion are fitted to each other to generate a clicking sound, for example, the occupant 2 can judge by hearing. Further, if the click and the click are generated by the fitting of the concave portion and the convex portion, the occupant 2 can make a tactile sense.
  • the control device 90 determines whether the seat back 12 is in the upright state or the backward state based on the information transmitted from the seat back state detecting unit 20.
  • the control device 90 determines that the seat back 12 is in the upright state, the air-conditioning air blown out from the face air outlet 40 is blown out toward the upper body of the occupant 2 and its surroundings so that the guide fins 51 are moved.
  • the first actuator 60 is controlled.
  • the control device 90 determines that the seat back 12 is in the backward position
  • the control device 90 controls the first actuator 60 of the guide fin 51 so that the guide fin 51 is at the predetermined position.
  • the conditioned air is blown from the face outlet 40 toward the plate-shaped member 70.
  • the conditioned air blown out from the face outlet 40 collides with the plate surface 71 of the plate member 70, and Reaches the specific part of the occupant 2 on the seat 10 in the backward state.
  • control device 90 determines that the seat back 12 is in the backward position
  • the control device 90 controls the air conditioner 30 so that the airflow of the conditioned air blown out from the face outlet 40 is increased more than the normal airflow. May be.
  • the first modified example described above can also achieve the same operation and effect as the first embodiment.
  • the configuration can be simplified as compared with the first embodiment by eliminating the second actuator 80 that drives the plate-shaped member 70.
  • the second modified example is a modification of the first embodiment in which the operation method of the wind direction variable mechanism 50 is changed, and the rest is the same as the first embodiment. Therefore, only the portions different from the first embodiment will be described. I do.
  • the guide fins 51 as the wind direction variable mechanism 50 are configured to be manually operated by the occupant 2.
  • the plate member 70 is configured to be driven by the second actuator 80 as in the first embodiment.
  • the occupant 2 can determine that the guide fin 51 has reached the predetermined position by visual, auditory, or tactile sensation.
  • the guide fin 51 is arranged in the field of view of the occupant 2.
  • a concave portion is provided in one of a movable portion of the guide fin 51 and a portion holding the movable portion, and a convex portion is provided in the other. May be provided.
  • the guide fin 51 is at a predetermined position, if the concave portion and the convex portion are fitted to each other to generate a clicking sound, for example, it can be judged by hearing. Further, if the click and the click are generated by the fitting of the concave portion and the convex portion, the occupant 2 can make a tactile sense.
  • the guide fin 51 is configured to be at a predetermined position. This will be described in a third embodiment described later.
  • the control device 90 determines whether the seat back 12 is in the upright state or the backward state based on the information transmitted from the seat back state detecting unit 20.
  • the second actuator 80 of the plate-shaped member 70 is set so that the plate surface 71 of the plate-shaped member 70 is in a normal state along the passenger compartment ceiling 4. Control.
  • the control device 90 determines that the seat back 12 is in the backward state
  • the control device 90 controls the second actuator 80 of the plate member 70 so that the plate member 70 is at the predetermined position. Thereby, the plate-shaped member 70 is at a predetermined position.
  • the conditioned air blown out from the face outlet 40 collides with the plate surface 71 of the plate member 70, and The conditioned air reaches a specific part of the occupant 2 on the seat 10 in the backward state.
  • control device 90 determines that the seat back 12 is in the backward position
  • the control device 90 controls the air conditioner 30 so that the airflow of the conditioned air blown out from the face outlet 40 is increased more than the normal airflow. May be.
  • the second modification described above can also achieve the same operation and effect as the first embodiment.
  • the configuration can be simplified as compared with the first embodiment by eliminating the first actuator 60 that drives the guide fins 51.
  • a third modification of the first embodiment will be described.
  • the third modified example is also different from the first embodiment in the operation method of the wind direction variable mechanism 50 and the operation method of the plate-shaped member 70, and the other configurations are the same as those in the first embodiment. Only parts different from the embodiment will be described.
  • both the guide fins 51 and the plate members 70 are configured to be manually driven by the occupant 2.
  • the guide fins 51 are configured such that the occupant 2 can determine that the guide fins 51 have reached a predetermined position by visual, auditory, or tactile sensation.
  • the plate-shaped member 70 is also configured so that the occupant 2 can determine whether the plate-shaped member 70 has reached a predetermined position by visual, auditory, or tactile sensation.
  • the occupant 2 can manually set the guide fins 51 at the predetermined position and manually set the plate member 70 at the predetermined position.
  • the fact that the guide fins 51 and the plate-shaped members 70 are at the respective predetermined positions can be determined by the occupant 2 by any of visual, auditory, and tactile sensations. Therefore, when the occupant 2 sets the guide fins 51 and the plate members 70 at the respective predetermined positions, the conditioned air blown out from the face outlet 40 of the instrument panel 3 collides with the plate surface 71 of the plate members 70. Then, the conditioned air that has collided with the plate surface 71 of the plate member 70 changes its direction along the plate surface 71 of the plate member 70 and reaches a specific portion of the occupant 2 on the seat 10 in the backwardly inclined state.
  • the third modification can also achieve the same operation and effect as the first embodiment.
  • the first actuator 60 for driving the guide fins 51, the second actuator 80 for driving the plate-shaped member 70, the control device 90 for controlling them, and the seatback state detection unit 20 are eliminated. It is possible. Therefore, the configuration of the third modified example can be simplified as compared with the first embodiment, the first modified example, and the second modified example.
  • the plate-shaped member 70 has a shape in which the plate surface 71 on the side for guiding the conditioned air blown out from the face outlet 40 is concavely curved in the vehicle front-rear direction. ing.
  • the conditioned air blown out from the face outlet 40 changes its direction along the curved surface of the plate-shaped member 70. For this reason, since the diffusion of the conditioned air and the decrease in the flow velocity are suppressed, the conditioned air can be applied to the specific portion of the occupant 2 in a concentrated manner.
  • the plate-like member 70 of the second embodiment can change the direction of the conditioned air greatly by forming the rear edge 72 into a shape warping toward the passenger compartment.
  • the broken line denoted by reference numeral 700 in FIG. 4 indicates the position of the plate-shaped member 70 when applying conditioned air to a specific portion of the occupant 2 when the plate surface 71 of the plate-shaped member 70 is flat. I have.
  • the angle at which the plate-shaped member 70 is lowered from the passenger compartment ceiling 4 can be reduced when the conditioned air is applied to the same specific portion.
  • the plate-shaped member 70 of the second embodiment can reduce the feeling of pressure caused by the plate-shaped member 70 for the occupant 2 on the seat 10 in the backward state.
  • the plate member 70 has a shape in which the plate surface 71 on the side where the conditioned air blown from the face outlet 40 collides is concavely curved in the vehicle width direction. It may be.
  • the conditioned air blown out from the face outlet 40 near the center in the vehicle width direction and the face outlet 40 near the outer side in the vehicle width direction is a plate-like member 70. Change the wind direction along the curved surface of. Then, the conditioned air is intensively blown to a specific portion (for example, the chest) of the occupant 2 indicated by a broken line 200.
  • the plate surface 71 of the plate member 70 is formed to be concavely curved in the vehicle width direction, the diffusion of the conditioned air colliding with the plate surface 71 and the decrease in the flow velocity are suppressed, and the occupant 2 is identified. It is possible to concentrate the air conditioning wind on the part.
  • the plate-shaped member 70 may have a shape that curves concavely only in the vehicle front-rear direction as shown in FIG. 4 or a shape that curves concavely only in the vehicle width direction as shown in FIG.
  • the plate-shaped member 70 may have a shape that is curved concavely in the vehicle front-rear direction and concavely curved in the vehicle width direction.
  • the plate member 70 is configured to be bent or bendable in the vehicle width direction or in the vehicle front-rear direction. That is, the plate-shaped member 70 can have a substantially flat shape when in the normal state along the cabin ceiling 4. Accordingly, when the plate-shaped member 70 is in the normal state, the protrusion from the ceiling into the vehicle interior can be reduced.
  • the plate-shaped member 70 can be bent or bent by the occupant 2 manually or driven by an actuator when the plate-shaped member 70 is protruding into the vehicle compartment. Accordingly, the plate-shaped member 70 is bent or curved when in the protruding state, thereby suppressing the diffusion of the conditioned air that has collided with the plate surface 71 and the decrease in the flow velocity, as in the second embodiment described above. Then, the conditioned air can be applied to the specific portion of the occupant 2 in a concentrated manner.
  • a third embodiment will be described.
  • the third embodiment is different from the first embodiment and the like in that a part of the configuration of the guide fins 51 as the wind direction variable mechanism 50 is changed, and the rest is the same as the first embodiment and the like. Only parts different from the first embodiment will be described.
  • the guide fins 51 provided in the face outlet 40 can arbitrarily change the direction of the conditioned air blown out from the face outlet 40.
  • the guide fins 51 are configured so that a plurality of fins change directions in the same direction.
  • the conditioned air blows out from the face outlet 40 toward the face, chest, or upper body including the chest or torso of the occupant 2 in the standing posture, and the periphery thereof. Is done.
  • the guide fin 51 is at the above-described predetermined position in a state where the end 53 opposite to the shaft 52 is in contact with the inner wall 41 of the flow path constituting the face outlet 40. Therefore, the occupant 2 can know that the guide fin 51 has reached the predetermined position with the sense of the hand. Therefore, the occupant 2 can easily perform the operation of manually setting the guide fins 51 to the predetermined position.
  • the positioning of the guide fins 51 is not limited to a configuration in which a part of the guide fins 51 abuts on the inner wall 41 of the flow path, and a part of the guide fins 51 abuts on a structure (not shown) provided in the flow path. It may be configured.
  • the positioning of the guide fin 51 is not limited to the configuration in which the end 53 opposite to the shaft 52 abuts on the inner wall 41 or the structure of the flow path. It is good also as a structure which contacts the inner wall 41 of a road or a structure.
  • the angle adjustment of the plate member 70 will be described in detail.
  • the position of the plate member 70 can be arbitrarily changed by the operation of the occupant 2 or the control of the second actuator 80.
  • the conditioned air blown from the face outlet 40 and colliding with the plate member 70 changes the wind direction along the plate surface 71 of the plate member 70, and Positioned to reach.
  • the conditioned air blown from the face outlet 40 and colliding with the plate member 70 changes the wind direction along the plate surface 71 of the plate member 70, and the occupant 2 has a chest. Is set to reach.
  • by changing the position and angle of the plate-shaped member 70 it is possible to adjust the conditioned air to reach an arbitrary specific portion of the occupant 2.
  • the guide fins 51 provided in the face outlet 40 take a plate-like shape from the face outlet 40 in consideration of the buoyancy of the conditioned air blown out from the face outlet 40. It is adjusted so that the conditioned air is blown toward the portion of the member 70 in front of the vehicle.
  • the conditioned air blown out from the face outlet 40 when the conditioned air blown out from the face outlet 40 is cooler than the vehicle interior air, the conditioned air may flow in a parabolic shape due to gravity.
  • the fins 51 are adjusted so that the conditioned air is blown out from the face outlet 40 toward the front part of the plate-shaped member 70 in the vehicle, so that the conditioned air can be supplied to the plate-shaped member 70. It is possible to surely collide with the surface 71.
  • the conditioned air that has collided with the plate surface 71 of the plate member 70 changes its direction along the plate surface 71 of the plate member 70, and the specific portion of the occupant 2 on the seat 10 in which the seat back 12 has fallen backward. To reach.
  • the fourth embodiment can also achieve the same operation and effect as the first embodiment and the like.
  • the upper end 43 is located forward of the vehicle than the lower end 42.
  • FIG. 11 shows a face outlet 400 of a comparative example for comparison with the configuration of the fifth embodiment.
  • the opening of the face outlet 400 provided in the instrument panel 3 has the lower end portion 42 and the upper end portion 43 located at substantially the same position in the vehicle front-rear direction.
  • the substantial opening area S2 through which the conditioned air is blown out is smaller than the opening area S1 of the fifth embodiment.
  • the substantial opening area S1 through which the conditioned air is blown can be increased. Thereby, the pressure loss of the conditioned air blown out from the face outlet 40 is reduced, so that the conditioned air can be efficiently delivered to the occupant 2.
  • the wind direction variable mechanism 50 for changing the direction of the conditioned air blown out from the outlet of the instrument panel 3 includes a dedicated outlet 54 and a switching door 55. It is configured.
  • the dedicated outlet 54 is configured to branch off from the duct 31 that connects the air conditioner 30 and the face outlet 40.
  • the direction, the opening area, and the like of the dedicated outlet 54 are adjusted so that the conditioned air blown out from the outlet 54 collides with the plate surface 71 of the plate member 70.
  • the switching door 55 switches between the airflow from the air conditioner 30 to the face outlet 40 via the duct 31 and the airflow from the air conditioner 30 to the dedicated outlet 54 via the duct 31.
  • the switching door 55 is driven by a first actuator 60 as an outlet drive unit.
  • the switching door 55 may be configured to operate manually by the occupant 2.
  • FIG. 12 shows a state near the face outlet 40 when the seat back 12 is in the upright state.
  • the switching door 55 switches the flow path so that the conditioned air generated by the air conditioner 30 flows to the face outlet 40 via the duct 31. Therefore, the conditioned air is blown from the face outlet 40 toward the upper body of the occupant 2 on the seat 10 in the upright state and the periphery thereof.
  • FIG. 13 shows a state in the vicinity of the face outlet 40 when the seat back 12 is in the backward state.
  • the switching door 55 switches the flow path so that the conditioned air generated by the air conditioner 30 flows to the dedicated outlet 54 via the duct 31. Therefore, the conditioned air is blown out from the dedicated air outlet 54 toward the plate surface 71 of the plate member 70.
  • the conditioned air that has collided with the plate surface 71 of the plate member 70 changes its direction along the plate surface 71 of the plate member 70 and reaches a specific portion of the occupant 2 on the seat 10 in the backward state.
  • the conditioned air is blown out from the dedicated air outlet 54, so that the pressure loss of the conditioned air due to the guide fins 51 provided in the face air outlet 40 is eliminated. . Therefore, the conditioned air blown out from the dedicated air outlet 54 can be efficiently delivered to the occupant 2 via the plate member 70.
  • control device and the method according to the present disclosure are realized by a dedicated computer provided by configuring a processor and a memory programmed to execute one or a plurality of functions embodied by a computer program. May be done.
  • control device and the technique described in the present disclosure may be implemented by a dedicated computer provided by configuring a processor with one or more dedicated hardware logic circuits.
  • control device and the method according to the present disclosure may be implemented by a combination of a processor and a memory programmed to perform one or more functions and a processor configured by one or more hardware logic circuits. It may be realized by one or more dedicated computers configured. Further, the computer program may be stored in a computer-readable non-transitional tangible recording medium as instructions to be executed by a computer.
  • a vehicle air conditioning control system includes a seat, an air conditioner, an air outlet, a wind direction variable mechanism, an air outlet drive unit, and a seat back state detection unit.
  • the seat is arranged in the vehicle interior.
  • the air conditioner generates the conditioned air.
  • the air outlet is provided in the instrument panel and blows out conditioned air generated by the air conditioner into the vehicle interior.
  • the wind direction variable mechanism changes the direction of the conditioned air blown from the outlet in the vertical direction.
  • the outlet drive unit drives the wind direction variable mechanism.
  • the seat back state detection unit detects a state of a seat back of the seat.
  • the automotive air conditioning control system includes a control device that controls the outlet drive unit based on the detection result of the seat back state detection unit. Further, the automobile has a plate-shaped member arranged on the ceiling of the passenger compartment, the plate surface of which is variable between a normal state along the ceiling of the passenger compartment and a protruding state protruding into the passenger compartment. And a plate-shaped member driving section for driving the plate-shaped member.
  • the control unit controls the outlet driving unit so that the conditioned air blown out from the outlet collides with the plate surface of the plate-shaped member. Then, the wind direction variable mechanism is set to a predetermined position.
  • control device controls the plate-shaped member driving section so that the conditioned air colliding with the plate surface of the plate-shaped member reaches a specific portion of the occupant on the seat in the backward state, and moves the plate-shaped member to a predetermined position.
  • the automotive air-conditioning control system is used for an automobile having a seat, an air conditioner, an air outlet, a wind direction variable mechanism, a plate-shaped member, and a seat back state detector.
  • the seat is arranged in the vehicle interior.
  • the air conditioner generates the conditioned air.
  • the air outlet is provided in the instrument panel and blows out conditioned air generated by the air conditioner into the vehicle interior.
  • the wind direction variable mechanism changes the direction of the conditioned air blown from the outlet in the vertical direction.
  • the plate-shaped member is disposed on the ceiling of the passenger compartment, and its plate surface changes between a normal state along the ceiling of the passenger compartment and a protruding state protruding into the passenger compartment.
  • the seat back state detection unit detects a state of a seat back of the seat.
  • One of the wind direction variable mechanism and the plate member is configured to be driven by an actuator, and the other is configured to be manually driven by an occupant.
  • the other side is configured so that the occupant can determine that the other side has reached the predetermined position by visual, auditory, or tactile sensation.
  • the automotive air conditioning control system includes a control device that controls the actuator based on the detection result of the seat back state detection unit. The control device controls the actuator such that one of the wind direction variable mechanism and the plate-shaped member is at a predetermined position when the seat back state detecting unit detects the backward state of the seat back.
  • the conditioned air blown out from the outlet collides with the plate surface of the plate-shaped member, and the conditioned air after the collision falls backward. Is configured to reach a specific part of the occupant on the seat.
  • the automotive air conditioning system includes a seat, an air conditioner, an air outlet, a wind direction variable mechanism, and a plate member.
  • the seat is arranged in the vehicle interior.
  • the air conditioner generates the conditioned air.
  • the air outlet is provided in the instrument panel and blows out conditioned air generated by the air conditioner into the vehicle interior.
  • the wind direction variable mechanism changes the direction of the conditioned air blown from the outlet in the vertical direction.
  • the plate-shaped member is disposed on the ceiling of the passenger compartment, and its plate surface changes between a normal state along the ceiling of the passenger compartment and a protruding state protruding into the passenger compartment.
  • variable wind direction mechanism and the plate-shaped member are configured so that the occupant can visually, audibly, or tactilely determine that the variable wind direction mechanism and the plate-shaped member have reached their respective predetermined positions.
  • the air conditioning system for an automobile is configured such that when the seat back of the seat is in the backward state and the wind direction variable mechanism and the plate-shaped member are at respective predetermined positions, the conditioned air blown out from the air outlet is discharged from the plate-shaped member. , And the conditioned air after the collision reaches a specific part of the occupant on the seat in the backward state.
  • a control device used for air conditioning of a vehicle includes a seat, an air conditioner, an air outlet, a wind direction variable mechanism, an air outlet drive unit, a seat back state detection unit, a plate member, and a plate member drive unit.
  • the seat is arranged in the vehicle interior.
  • the air conditioner generates the conditioned air.
  • the air outlet is provided in the instrument panel and blows out conditioned air generated by the air conditioner into the vehicle interior.
  • the wind direction variable mechanism changes the direction of the conditioned air blown from the outlet in the vertical direction.
  • the outlet drive unit drives the wind direction variable mechanism.
  • the seat back state detection unit detects a state of a seat back of the seat.
  • the plate-shaped member is disposed on the ceiling of the passenger compartment, and its plate surface changes between a normal state along the ceiling of the passenger compartment and a protruding state protruding into the passenger compartment.
  • the plate member driving section drives the plate member.
  • the controller controls the outlet drive unit so that the conditioned air blown out from the outlet collides with the plate surface of the plate-shaped member. Then, the wind direction variable mechanism is set to a predetermined position. Further, the control device controls the plate member drive unit so that the conditioned air colliding with the plate surface of the plate member reaches a specific portion of the occupant on the seat in the backward state, and moves the plate member to a predetermined position.
  • the control device of the automotive air-conditioning control system is configured such that, when the seatback state detecting unit detects the backward state of the seatback, the control unit of the vehicle air-conditioning control system operates from the outlet more than when the seatback is in the upright state.
  • the air conditioner is controlled so as to increase the amount of conditioned air blown out.
  • the control device when the seatback state detection unit detects the backward state of the seatback, the control device reduces the amount of air-conditioned air blown out from the air outlet compared to when the seatback is in the upright state. Control the air conditioner to increase. According to this, the sixth aspect can also achieve the same operation and effect as the fifth aspect.
  • the plate-shaped member has a shape in which a plate surface on the side where the conditioned air blown from the air outlet collides is concavely curved in the vehicle front-rear direction. According to this, the plate-shaped member can suppress the diffusion of the conditioned air that has collided with the plate surface and the decrease in the flow velocity, and can change the wind direction so that the conditioned air is concentrated on a specific part of the occupant and hits the conditioned air. Further, since the plate member can largely change the direction of the conditioned air along the concavely curved plate surface, the angle at which the plate member is lowered from the ceiling of the vehicle compartment can be reduced. Therefore, it is possible to reduce the feeling of oppression by the plate-like member for the occupant on the seat in the rearward state.
  • the plate member has a shape in which the plate surface on the side where the conditioned air blown from the air outlet collides is curved concavely in the vehicle width direction. According to this, the plate-shaped member can suppress the diffusion of the conditioned air that has collided with the plate surface and the decrease in the flow velocity, and can change the wind direction so that the conditioned air hits the specific part of the occupant in a concentrated manner.
  • the plate-shaped member is configured to be bent or bendable in the vehicle width direction or in the vehicle front-rear direction.
  • the plate-shaped member has a substantially flat shape in a normal state along the ceiling of the passenger compartment, and the protrusion from the ceiling into the passenger compartment can be reduced.
  • the plate-shaped member is bent or curved in a protruding state protruding into the passenger compartment, suppresses the diffusion of air-conditioned air colliding with the plate surface and a decrease in flow velocity, and concentrates on a specific part of the occupant. Air conditioning air can be blown.
  • the air flow direction variable mechanism when at least a part of the movable part comes into contact with the inner wall or the structure of the flow path constituting the air outlet, the air flow direction variable mechanism has a plate-like shape.
  • the conditioned air is blown toward the plate surface of the member.
  • the occupant can know by hand feeling that a part of the wind direction variable mechanism has contacted the inner wall or the structure of the flow path. In this state, the conditioned air is blown from the outlet toward the plate surface of the plate-shaped member, so that the occupant can easily adjust the wind direction variable mechanism.
  • the wind direction variable mechanism includes a dedicated air outlet and a switching door.
  • the dedicated outlet is branched from a duct communicating the air conditioner and the outlet, and the conditioned air blown out from the dedicated outlet collides with the plate surface of the plate member.
  • the switching door switches between the airflow from the air conditioner to the outlet via the duct and the airflow from the air conditioner to the dedicated outlet via the duct. According to this, by blowing the conditioned air from the dedicated outlet, the pressure loss of the conditioned air by the guide fins provided at the face outlet and the like is eliminated. Therefore, the conditioned air blown out from the dedicated outlet can be efficiently delivered to the occupant via the plate-shaped member.
  • the automotive air conditioning system further includes an outlet drive unit, a plate-shaped member drive unit, a seatback state detection unit, and a control device.
  • the outlet drive unit drives the wind direction variable mechanism.
  • the plate member driving section drives the plate member.
  • the seat back state detection unit detects a state of the seat back.
  • the control device controls the outlet driving unit and the plate member driving unit based on the detection result of the seat back state detecting unit.
  • the control unit controls the outlet driving unit so that the conditioned air blown out from the outlet collides with the plate surface of the plate-shaped member.
  • the wind direction variable mechanism is set to a predetermined position.
  • the control device controls the plate member drive unit so that the conditioned air colliding with the plate surface of the plate member reaches a specific portion of the occupant on the seat in the backward state, and moves the plate member to a predetermined position.
  • the control device controls the outlet driving section, and the wind direction variable mechanism is brought to a predetermined position, and the plate-shaped member driving section is driven.
  • the portion is controlled so that the plate member is at a predetermined position. Therefore, the conditioned air blown out from the instrument panel outlet collides with the plate surface of the plate-shaped member, and then changes the wind direction along the plate surface of the plate-shaped member.
  • this vehicle air conditioning system can enhance the occupant's feeling of comfort by applying the conditioned air blown out from the instrument panel outlet to a specific part of the occupant when the occupant is in a backward posture.
  • this automotive air conditioning system can prevent the occupant from feeling annoying by suppressing the conditioned air blown out from the instrument panel outlet to flow along the occupant's body and reach the face. it can.
  • the automotive air conditioning system further includes an actuator, a seat back state detection unit, and a control device.
  • the actuator drives one of the wind direction variable mechanism and the plate member.
  • the seat back state detection unit detects a state of the seat back.
  • the control device controls the actuator based on the detection result of the seat back state detection unit.
  • the control device controls the actuator such that one of the wind direction variable mechanism and the plate-shaped member is at a predetermined position when the seatback state detection unit detects the backward state of the seatback.
  • the other one of the wind direction variable mechanism and the plate-shaped member is at the other predetermined position, the conditioned air blown out from the outlet collides with the plate surface of the plate-shaped member, and the conditioned air after the collision falls backward. Is configured to reach a specific part of the occupant on the seat.
  • the actuator when the seat back is in the backward state, the actuator is driven by the control device, and one of the wind direction variable mechanism and the plate-like member is brought to the predetermined position.
  • the occupant can manually drive the other of the wind direction variable mechanism and the plate-shaped member to a predetermined position.
  • the conditioned air blown out from the instrument panel outlet collides with the plate surface of the plate member, changes its direction along the plate surface of the plate member, and reaches a specific portion of the occupant on the seat.
  • the thirteenth aspect can also achieve the same operation and effect as the twelfth aspect.
  • the configuration can be simplified as compared with the twelfth aspect by eliminating the actuator that drives the other of the wind direction variable mechanism and the plate-shaped member.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Power Engineering (AREA)
  • Aviation & Aerospace Engineering (AREA)
  • Transportation (AREA)
  • Air-Conditioning For Vehicles (AREA)
  • Seats For Vehicles (AREA)
PCT/JP2019/026694 2018-08-06 2019-07-04 自動車用空調制御システム、自動車用空調システム、制御装置 Ceased WO2020031575A1 (ja)

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